TBD Meeting (4156-20)

A gene-replacement therapy called AT132 significantly decreases dependence on a ventilator among children with X-linked myotubular myopathy, according to research presented at the 2020 CNS-ICNA Conjoint Meeting, which was held virtually this year. The treatment also appears to improve patients’ motor function significantly and help them to achieve motor milestones.

belchonock/Thinkstock

The results come from a phase 1/2 study of two doses of AT132. Three of 17 patients who received the higher dose had fatal liver dysfunction. The researchers are investigating these cases and will communicate their findings.

X-linked myotubular myopathy is a rare and often fatal neuromuscular disease. Mutations in MTM1, which encodes the myotubularin enzyme that is required for the development and function of skeletal muscle, cause the disease, which affects about one in 50,000 to one in 40,000 newborn boys. The disease is associated with profound muscle weakness and impairment of neuromuscular and respiratory function. Patients with X-linked myotubular myopathy achieve motor milestones much later or not at all, and most require a ventilator or a feeding tube. The mortality by age 18 months is approximately 50%.
 

The ASPIRO trial

Investigators theorized that muscle tissue would be an appropriate therapeutic target because it does not display dystrophic or inflammatory changes in most patients. They identified adeno-associated virus AAV8 as a potential carrier for gene therapy, since it targets skeletal muscle effectively.

Nancy L. Kuntz, MD, an attending physician at Ann and Robert H. Lurie Children’s Hospital of Chicago, and colleagues conducted the ASPIRO trial to examine AT132 as a potential treatment for X-linked myotubular myopathy. Eligible patients were younger than 5 years or had previously enrolled in a natural history study of the disease, required ventilator support at baseline, and had no clinically significant underlying liver disease. Patients were randomly assigned to 1 × 10¹⁴ vg/kg of AAT132, 3 × 10¹⁴ vg/kg of AT132, or delayed treatment. Participants assigned to delayed treatment served as the study’s control group.

The study’s primary end points were safety and change in hours of daily ventilator support from baseline to week 24 after dosing. The investigators also examined a respiratory endpoint (i.e., maximal inspiratory pressure [MIP]) and neuromuscular endpoints (i.e., motor milestones, CHOP INTEND score, and muscle biopsy).
 

Treatment improved respiratory function

As of July 28, Dr. Kuntz and colleagues had enrolled 23 patients in the trial. Six participants received the lower dose of therapy, and 17 received the higher dose. Median age was 1.7 years for the low-dose group and 2.6 years for the high-dose group.

Patients assigned to receive the higher dose of therapy received treatment more recently than the low-dose group, and not all of the former have reached 48 weeks since treatment, said Dr. Kuntz. Fewer efficacy data are thus available for the high-dose group.

Each dose of AT132 was associated with a significantly greater decrease from baseline in least squares mean daily hours of ventilator dependence, compared with the control condition. At week 48, the mean reduction was approximately 19 hours/day for patients receiving 1 × 10¹⁴ vg/kg of AAT132 and approximately 13 hours per day for patients receiving 3 × 10¹⁴ vg/kg of AT132. The investigators did not perform a statistical comparison of the two doses because of differing protocols for ventilator weaning between groups. All six patients who received the lower dose achieved ventilator independence, as did one patient who received the higher dose.

In addition, all treated patients had significantly greater increases from baseline in least squares mean MIP, compared with controls. The mean increase was 45.7 cmH₂O for the low-dose group, 46.1 cmH₂O for the high-dose group, and −8.0 cmH₂O for controls.

Before treatment, most patients had not achieved any of the motor milestones that investigators assessed. After treatment, five of six patients receiving the low dose achieved independent walking, as did one in 10 patients receiving the high dose. No controls achieved this milestone. Treated patients also had significantly greater increases from baseline in least squares mean CHOP INTEND scores, compared with controls. At least at one time point, five of six patients receiving the low dose, six of 10 patients receiving the high dose, and one control patient achieved the mean score observed in healthy infants.

Patients in both treatment arms had improvements in muscle pathology at weeks 24 and 48, including improvements in organelle localization and fiber size. In addition, patients in both treatment arms had continued detectable vector copies and myotubularin protein expression at both time points.
 

Deaths under investigation

In the low-dose group, one patient had four serious treatment-emergent adverse events, and in the high-dose group, eight patients had 27 serious treatment-emergent adverse events. The three patients in the high-dose group who developed fatal liver dysfunction were among the older, heavier patients in the study and, consequently, received among the highest total doses of treatment. These patients had evidence of likely preexisting intrahepatic cholestasis.

“This clinical trial is on hold pending discussions between regulatory agencies and the study sponsor regarding additional recruitment and the duration of follow-up,” said Dr. Kuntz.

Audentes Therapeutics, which is developing AT132, funded the trial. Dr. Kuntz had no conflicts of interest.

egreb@mdedge.com

SOURCE: Bönnemann CG et al. CNS-ICNA 2020, Abstract P.62.

A gene-replacement therapy called AT132 significantly decreases dependence on a ventilator among children with X-linked myotubular myopathy, according to research presented at the 2020 CNS-ICNA Conjoint Meeting, which was held virtually this year. The treatment also appears to improve patients’ motor function significantly and help them to achieve motor milestones.

belchonock/Thinkstock

The results come from a phase 1/2 study of two doses of AT132. Three of 17 patients who received the higher dose had fatal liver dysfunction. The researchers are investigating these cases and will communicate their findings.

X-linked myotubular myopathy is a rare and often fatal neuromuscular disease. Mutations in MTM1, which encodes the myotubularin enzyme that is required for the development and function of skeletal muscle, cause the disease, which affects about one in 50,000 to one in 40,000 newborn boys. The disease is associated with profound muscle weakness and impairment of neuromuscular and respiratory function. Patients with X-linked myotubular myopathy achieve motor milestones much later or not at all, and most require a ventilator or a feeding tube. The mortality by age 18 months is approximately 50%.
 

The ASPIRO trial

Investigators theorized that muscle tissue would be an appropriate therapeutic target because it does not display dystrophic or inflammatory changes in most patients. They identified adeno-associated virus AAV8 as a potential carrier for gene therapy, since it targets skeletal muscle effectively.

Nancy L. Kuntz, MD, an attending physician at Ann and Robert H. Lurie Children’s Hospital of Chicago, and colleagues conducted the ASPIRO trial to examine AT132 as a potential treatment for X-linked myotubular myopathy. Eligible patients were younger than 5 years or had previously enrolled in a natural history study of the disease, required ventilator support at baseline, and had no clinically significant underlying liver disease. Patients were randomly assigned to 1 × 10¹⁴ vg/kg of AAT132, 3 × 10¹⁴ vg/kg of AT132, or delayed treatment. Participants assigned to delayed treatment served as the study’s control group.

The study’s primary end points were safety and change in hours of daily ventilator support from baseline to week 24 after dosing. The investigators also examined a respiratory endpoint (i.e., maximal inspiratory pressure [MIP]) and neuromuscular endpoints (i.e., motor milestones, CHOP INTEND score, and muscle biopsy).
 

Treatment improved respiratory function

As of July 28, Dr. Kuntz and colleagues had enrolled 23 patients in the trial. Six participants received the lower dose of therapy, and 17 received the higher dose. Median age was 1.7 years for the low-dose group and 2.6 years for the high-dose group.

Patients assigned to receive the higher dose of therapy received treatment more recently than the low-dose group, and not all of the former have reached 48 weeks since treatment, said Dr. Kuntz. Fewer efficacy data are thus available for the high-dose group.

Each dose of AT132 was associated with a significantly greater decrease from baseline in least squares mean daily hours of ventilator dependence, compared with the control condition. At week 48, the mean reduction was approximately 19 hours/day for patients receiving 1 × 10¹⁴ vg/kg of AAT132 and approximately 13 hours per day for patients receiving 3 × 10¹⁴ vg/kg of AT132. The investigators did not perform a statistical comparison of the two doses because of differing protocols for ventilator weaning between groups. All six patients who received the lower dose achieved ventilator independence, as did one patient who received the higher dose.

In addition, all treated patients had significantly greater increases from baseline in least squares mean MIP, compared with controls. The mean increase was 45.7 cmH₂O for the low-dose group, 46.1 cmH₂O for the high-dose group, and −8.0 cmH₂O for controls.

Before treatment, most patients had not achieved any of the motor milestones that investigators assessed. After treatment, five of six patients receiving the low dose achieved independent walking, as did one in 10 patients receiving the high dose. No controls achieved this milestone. Treated patients also had significantly greater increases from baseline in least squares mean CHOP INTEND scores, compared with controls. At least at one time point, five of six patients receiving the low dose, six of 10 patients receiving the high dose, and one control patient achieved the mean score observed in healthy infants.

Patients in both treatment arms had improvements in muscle pathology at weeks 24 and 48, including improvements in organelle localization and fiber size. In addition, patients in both treatment arms had continued detectable vector copies and myotubularin protein expression at both time points.
 

Deaths under investigation

In the low-dose group, one patient had four serious treatment-emergent adverse events, and in the high-dose group, eight patients had 27 serious treatment-emergent adverse events. The three patients in the high-dose group who developed fatal liver dysfunction were among the older, heavier patients in the study and, consequently, received among the highest total doses of treatment. These patients had evidence of likely preexisting intrahepatic cholestasis.

“This clinical trial is on hold pending discussions between regulatory agencies and the study sponsor regarding additional recruitment and the duration of follow-up,” said Dr. Kuntz.

Audentes Therapeutics, which is developing AT132, funded the trial. Dr. Kuntz had no conflicts of interest.

egreb@mdedge.com

SOURCE: Bönnemann CG et al. CNS-ICNA 2020, Abstract P.62.

A gene-replacement therapy called AT132 significantly decreases dependence on a ventilator among children with X-linked myotubular myopathy, according to research presented at the 2020 CNS-ICNA Conjoint Meeting, which was held virtually this year. The treatment also appears to improve patients’ motor function significantly and help them to achieve motor milestones.

belchonock/Thinkstock

The results come from a phase 1/2 study of two doses of AT132. Three of 17 patients who received the higher dose had fatal liver dysfunction. The researchers are investigating these cases and will communicate their findings.

X-linked myotubular myopathy is a rare and often fatal neuromuscular disease. Mutations in MTM1, which encodes the myotubularin enzyme that is required for the development and function of skeletal muscle, cause the disease, which affects about one in 50,000 to one in 40,000 newborn boys. The disease is associated with profound muscle weakness and impairment of neuromuscular and respiratory function. Patients with X-linked myotubular myopathy achieve motor milestones much later or not at all, and most require a ventilator or a feeding tube. The mortality by age 18 months is approximately 50%.
 

The ASPIRO trial

Investigators theorized that muscle tissue would be an appropriate therapeutic target because it does not display dystrophic or inflammatory changes in most patients. They identified adeno-associated virus AAV8 as a potential carrier for gene therapy, since it targets skeletal muscle effectively.

Nancy L. Kuntz, MD, an attending physician at Ann and Robert H. Lurie Children’s Hospital of Chicago, and colleagues conducted the ASPIRO trial to examine AT132 as a potential treatment for X-linked myotubular myopathy. Eligible patients were younger than 5 years or had previously enrolled in a natural history study of the disease, required ventilator support at baseline, and had no clinically significant underlying liver disease. Patients were randomly assigned to 1 × 10¹⁴ vg/kg of AAT132, 3 × 10¹⁴ vg/kg of AT132, or delayed treatment. Participants assigned to delayed treatment served as the study’s control group.

The study’s primary end points were safety and change in hours of daily ventilator support from baseline to week 24 after dosing. The investigators also examined a respiratory endpoint (i.e., maximal inspiratory pressure [MIP]) and neuromuscular endpoints (i.e., motor milestones, CHOP INTEND score, and muscle biopsy).
 

Treatment improved respiratory function

As of July 28, Dr. Kuntz and colleagues had enrolled 23 patients in the trial. Six participants received the lower dose of therapy, and 17 received the higher dose. Median age was 1.7 years for the low-dose group and 2.6 years for the high-dose group.

Patients assigned to receive the higher dose of therapy received treatment more recently than the low-dose group, and not all of the former have reached 48 weeks since treatment, said Dr. Kuntz. Fewer efficacy data are thus available for the high-dose group.

Each dose of AT132 was associated with a significantly greater decrease from baseline in least squares mean daily hours of ventilator dependence, compared with the control condition. At week 48, the mean reduction was approximately 19 hours/day for patients receiving 1 × 10¹⁴ vg/kg of AAT132 and approximately 13 hours per day for patients receiving 3 × 10¹⁴ vg/kg of AT132. The investigators did not perform a statistical comparison of the two doses because of differing protocols for ventilator weaning between groups. All six patients who received the lower dose achieved ventilator independence, as did one patient who received the higher dose.

In addition, all treated patients had significantly greater increases from baseline in least squares mean MIP, compared with controls. The mean increase was 45.7 cmH₂O for the low-dose group, 46.1 cmH₂O for the high-dose group, and −8.0 cmH₂O for controls.

Before treatment, most patients had not achieved any of the motor milestones that investigators assessed. After treatment, five of six patients receiving the low dose achieved independent walking, as did one in 10 patients receiving the high dose. No controls achieved this milestone. Treated patients also had significantly greater increases from baseline in least squares mean CHOP INTEND scores, compared with controls. At least at one time point, five of six patients receiving the low dose, six of 10 patients receiving the high dose, and one control patient achieved the mean score observed in healthy infants.

Patients in both treatment arms had improvements in muscle pathology at weeks 24 and 48, including improvements in organelle localization and fiber size. In addition, patients in both treatment arms had continued detectable vector copies and myotubularin protein expression at both time points.
 

Deaths under investigation

In the low-dose group, one patient had four serious treatment-emergent adverse events, and in the high-dose group, eight patients had 27 serious treatment-emergent adverse events. The three patients in the high-dose group who developed fatal liver dysfunction were among the older, heavier patients in the study and, consequently, received among the highest total doses of treatment. These patients had evidence of likely preexisting intrahepatic cholestasis.

“This clinical trial is on hold pending discussions between regulatory agencies and the study sponsor regarding additional recruitment and the duration of follow-up,” said Dr. Kuntz.

Audentes Therapeutics, which is developing AT132, funded the trial. Dr. Kuntz had no conflicts of interest.

egreb@mdedge.com

SOURCE: Bönnemann CG et al. CNS-ICNA 2020, Abstract P.62.

A mutation of the ODC1 gene, which plays a key role in polyamine metabolism, has been implicated in a syndromic neurodevelopmental disorder first described in 2018 and linked to a number of dysmorphic features and brain abnormalities, but it may be treated with diet modifications and available therapies, according to the researcher whose group first identified the disorder.

Lance Rodan, MD, of Boston Children’s Hospital and Harvard Medical School, reported on research into ODC1 gain-of-function disorder –named for ornithine decarboxylase 1, the rate-limiting enzyme involved in polyamine synthesis – in the Linda De Meirleir Neurometabolic award lecture at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Dr. Rodan and colleagues first described ODC1 disorder in a multicenter case series.

Dr. Rodan noted that dysregulated polyamine levels are associated with cancer, and that ODC1 is expressed “ubiquitously” throughout the body.
 

Pathophysiology and phenotypes

In an interview, he described the metabolic process more fully. “GI flora can produce putrescine, which is the polyamine that accumulates in excess in the ODC1 gain-of-function disorder. It is yet to be elucidated if decreasing putrescine production by GI flora and/or reducing dietary sources of putrescine may play a role in the management of this disorder.” 

In the De Meirleir lecture, Dr. Rodan described four patients from his group’s published case series, all found to have heterozygous de novo variants in the ODC1 gene, along with a fifth patient reported by Caleb Bupp, MD, and colleagues at Michigan State University, East Lansing.

“There’s a recognizable phenotype to this disorder,” Dr. Rodan said. “These individuals have neurodevelopment abnormalities. They may have behavioral concerns. They have low-tone central hypertonia and macrocephaly.”

One of the most distinctive characteristics of ODC1 disorder is alopecia, he said, “which in almost everybody with this condition involves the eyebrows and eyelashes and in some individuals also involves the scalp hair.”

These patients also have what Dr. Rodan called “a common yet subtle facial gestalt.” That can include hypertelorism, spareness of the eyebrows and eyelashes, and a tubular- shaped nose with a short columella and a short philtrum.

They may also have abnormalities of the nails and cryptorchidism, and typically a prenatal history of polyhydramnios, he said.

MRI findings include prominent perivascular spaces, periventricular cysts, abnormal white matter and corpus callosum abnormalities, he said, adding that the fetal case MRI demonstrated subepidermal cysts, white matter cysts in the temporal pole, deficiency of the falx cerebri and abnormal white-matter signals.

Biochemical features of ODC1 disorder include increased N-acetylputrescine levels with normal spermine and spermidine levels, Dr. Rodan said. He also noted that Dr. Bupp’s group reported increased putrescine in fibroblasts and increased ODC1 protein levels in red blood cells.

Dr. Rodan also described possible molecular mechanisms in ODC1 disorder. One was the location of the ODC1 variants: all were reported closely located to truncating variants in the final exon of the ODC1 gene. This allows truncating proteins to survive, adding to the degradation that results in a net gain-of-function of ODC1 enzyme activity.

With regard to pathophysiology of ODC1 disorder, Dr. Rodan noted that research has implicated chronically elevated putrescine levels in the alopecia, a finding animal models support. “Since putrescine is a precursor for gamma-aminobutyric acid, it’s possible perturbed GABA levels may also be involved,” he said. Abnormal modulation N-methyl-D-aspirate receptors may also be involved, he said.

Another hypothesis purports that potential of elevated levels of toxic aldehydes/H₂O₂ similar to Snyder-Robinson syndrome, the better known polyamine-related neurometabolic disorder. “Along those lines, maybe there’s also a secondary mitochondrial or lysosomal dysfunction, but this is something that’s still being actively studied,” Dr. Rodan said.
 

Treatment

Because ODC1 disorder was only first described 2 years ago, research into treatment is nascent. “In terms of management, I think one of the more fundamental questions is whether this is more of a static developmental disorder or whether this actually represents a progressive degenerative disorder,” Dr. Rodan said.

One potential treatment that has been explored, he said, is difluoromethylornithine, a synthetic ODC1 inhibitor already Food and Drug Administration approved for African sleeping sickness and as a topical treatment for hirsutism. It is also the subject of ongoing clinical trials in colon cancer and neuroblastoma. Potential side effects include myelosuppression, seizures and hearing loss.

Dr. Rodan noted that a single-center study reported that difluoromethylornithine in a 3-year-old patient with ODC1 disorder reduced ODC protein activity and putrescine to control levels.

Other potential treatments include the natural ODC1 inhibitors agmatine and turmeric/curcumin, flagyl/rifaximin to decrease putrescine production in the gut, a low-dairy diet to lower putrescine levels, and antioxidants. “There could be a role for antioxidant stress similar to what is seen in Snyder-Robinson syndrome,” Dr. Rodan said.

Based on mouse studies, patients with ODC1 may be at risk of skin cancer, so regular skin checks along with sun protection should be part of management, he said. “This also raises the question of whether there should be surveillance for other types of cancer given the role of polyamine in various types of tumors.”

Dr. Rodan has no relevant financial relationships to disclose.

A mutation of the ODC1 gene, which plays a key role in polyamine metabolism, has been implicated in a syndromic neurodevelopmental disorder first described in 2018 and linked to a number of dysmorphic features and brain abnormalities, but it may be treated with diet modifications and available therapies, according to the researcher whose group first identified the disorder.

Lance Rodan, MD, of Boston Children’s Hospital and Harvard Medical School, reported on research into ODC1 gain-of-function disorder –named for ornithine decarboxylase 1, the rate-limiting enzyme involved in polyamine synthesis – in the Linda De Meirleir Neurometabolic award lecture at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Dr. Rodan and colleagues first described ODC1 disorder in a multicenter case series.

Dr. Rodan noted that dysregulated polyamine levels are associated with cancer, and that ODC1 is expressed “ubiquitously” throughout the body.
 

Pathophysiology and phenotypes

In an interview, he described the metabolic process more fully. “GI flora can produce putrescine, which is the polyamine that accumulates in excess in the ODC1 gain-of-function disorder. It is yet to be elucidated if decreasing putrescine production by GI flora and/or reducing dietary sources of putrescine may play a role in the management of this disorder.” 

In the De Meirleir lecture, Dr. Rodan described four patients from his group’s published case series, all found to have heterozygous de novo variants in the ODC1 gene, along with a fifth patient reported by Caleb Bupp, MD, and colleagues at Michigan State University, East Lansing.

“There’s a recognizable phenotype to this disorder,” Dr. Rodan said. “These individuals have neurodevelopment abnormalities. They may have behavioral concerns. They have low-tone central hypertonia and macrocephaly.”

One of the most distinctive characteristics of ODC1 disorder is alopecia, he said, “which in almost everybody with this condition involves the eyebrows and eyelashes and in some individuals also involves the scalp hair.”

These patients also have what Dr. Rodan called “a common yet subtle facial gestalt.” That can include hypertelorism, spareness of the eyebrows and eyelashes, and a tubular- shaped nose with a short columella and a short philtrum.

They may also have abnormalities of the nails and cryptorchidism, and typically a prenatal history of polyhydramnios, he said.

MRI findings include prominent perivascular spaces, periventricular cysts, abnormal white matter and corpus callosum abnormalities, he said, adding that the fetal case MRI demonstrated subepidermal cysts, white matter cysts in the temporal pole, deficiency of the falx cerebri and abnormal white-matter signals.

Biochemical features of ODC1 disorder include increased N-acetylputrescine levels with normal spermine and spermidine levels, Dr. Rodan said. He also noted that Dr. Bupp’s group reported increased putrescine in fibroblasts and increased ODC1 protein levels in red blood cells.

Dr. Rodan also described possible molecular mechanisms in ODC1 disorder. One was the location of the ODC1 variants: all were reported closely located to truncating variants in the final exon of the ODC1 gene. This allows truncating proteins to survive, adding to the degradation that results in a net gain-of-function of ODC1 enzyme activity.

With regard to pathophysiology of ODC1 disorder, Dr. Rodan noted that research has implicated chronically elevated putrescine levels in the alopecia, a finding animal models support. “Since putrescine is a precursor for gamma-aminobutyric acid, it’s possible perturbed GABA levels may also be involved,” he said. Abnormal modulation N-methyl-D-aspirate receptors may also be involved, he said.

Another hypothesis purports that potential of elevated levels of toxic aldehydes/H₂O₂ similar to Snyder-Robinson syndrome, the better known polyamine-related neurometabolic disorder. “Along those lines, maybe there’s also a secondary mitochondrial or lysosomal dysfunction, but this is something that’s still being actively studied,” Dr. Rodan said.
 

Treatment

Because ODC1 disorder was only first described 2 years ago, research into treatment is nascent. “In terms of management, I think one of the more fundamental questions is whether this is more of a static developmental disorder or whether this actually represents a progressive degenerative disorder,” Dr. Rodan said.

One potential treatment that has been explored, he said, is difluoromethylornithine, a synthetic ODC1 inhibitor already Food and Drug Administration approved for African sleeping sickness and as a topical treatment for hirsutism. It is also the subject of ongoing clinical trials in colon cancer and neuroblastoma. Potential side effects include myelosuppression, seizures and hearing loss.

Dr. Rodan noted that a single-center study reported that difluoromethylornithine in a 3-year-old patient with ODC1 disorder reduced ODC protein activity and putrescine to control levels.

Other potential treatments include the natural ODC1 inhibitors agmatine and turmeric/curcumin, flagyl/rifaximin to decrease putrescine production in the gut, a low-dairy diet to lower putrescine levels, and antioxidants. “There could be a role for antioxidant stress similar to what is seen in Snyder-Robinson syndrome,” Dr. Rodan said.

Based on mouse studies, patients with ODC1 may be at risk of skin cancer, so regular skin checks along with sun protection should be part of management, he said. “This also raises the question of whether there should be surveillance for other types of cancer given the role of polyamine in various types of tumors.”

Dr. Rodan has no relevant financial relationships to disclose.

A mutation of the ODC1 gene, which plays a key role in polyamine metabolism, has been implicated in a syndromic neurodevelopmental disorder first described in 2018 and linked to a number of dysmorphic features and brain abnormalities, but it may be treated with diet modifications and available therapies, according to the researcher whose group first identified the disorder.

Lance Rodan, MD, of Boston Children’s Hospital and Harvard Medical School, reported on research into ODC1 gain-of-function disorder –named for ornithine decarboxylase 1, the rate-limiting enzyme involved in polyamine synthesis – in the Linda De Meirleir Neurometabolic award lecture at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Dr. Rodan and colleagues first described ODC1 disorder in a multicenter case series.

Dr. Rodan noted that dysregulated polyamine levels are associated with cancer, and that ODC1 is expressed “ubiquitously” throughout the body.
 

Pathophysiology and phenotypes

In an interview, he described the metabolic process more fully. “GI flora can produce putrescine, which is the polyamine that accumulates in excess in the ODC1 gain-of-function disorder. It is yet to be elucidated if decreasing putrescine production by GI flora and/or reducing dietary sources of putrescine may play a role in the management of this disorder.” 

In the De Meirleir lecture, Dr. Rodan described four patients from his group’s published case series, all found to have heterozygous de novo variants in the ODC1 gene, along with a fifth patient reported by Caleb Bupp, MD, and colleagues at Michigan State University, East Lansing.

“There’s a recognizable phenotype to this disorder,” Dr. Rodan said. “These individuals have neurodevelopment abnormalities. They may have behavioral concerns. They have low-tone central hypertonia and macrocephaly.”

One of the most distinctive characteristics of ODC1 disorder is alopecia, he said, “which in almost everybody with this condition involves the eyebrows and eyelashes and in some individuals also involves the scalp hair.”

These patients also have what Dr. Rodan called “a common yet subtle facial gestalt.” That can include hypertelorism, spareness of the eyebrows and eyelashes, and a tubular- shaped nose with a short columella and a short philtrum.

They may also have abnormalities of the nails and cryptorchidism, and typically a prenatal history of polyhydramnios, he said.

MRI findings include prominent perivascular spaces, periventricular cysts, abnormal white matter and corpus callosum abnormalities, he said, adding that the fetal case MRI demonstrated subepidermal cysts, white matter cysts in the temporal pole, deficiency of the falx cerebri and abnormal white-matter signals.

Biochemical features of ODC1 disorder include increased N-acetylputrescine levels with normal spermine and spermidine levels, Dr. Rodan said. He also noted that Dr. Bupp’s group reported increased putrescine in fibroblasts and increased ODC1 protein levels in red blood cells.

Dr. Rodan also described possible molecular mechanisms in ODC1 disorder. One was the location of the ODC1 variants: all were reported closely located to truncating variants in the final exon of the ODC1 gene. This allows truncating proteins to survive, adding to the degradation that results in a net gain-of-function of ODC1 enzyme activity.

With regard to pathophysiology of ODC1 disorder, Dr. Rodan noted that research has implicated chronically elevated putrescine levels in the alopecia, a finding animal models support. “Since putrescine is a precursor for gamma-aminobutyric acid, it’s possible perturbed GABA levels may also be involved,” he said. Abnormal modulation N-methyl-D-aspirate receptors may also be involved, he said.

Another hypothesis purports that potential of elevated levels of toxic aldehydes/H₂O₂ similar to Snyder-Robinson syndrome, the better known polyamine-related neurometabolic disorder. “Along those lines, maybe there’s also a secondary mitochondrial or lysosomal dysfunction, but this is something that’s still being actively studied,” Dr. Rodan said.
 

Treatment

Because ODC1 disorder was only first described 2 years ago, research into treatment is nascent. “In terms of management, I think one of the more fundamental questions is whether this is more of a static developmental disorder or whether this actually represents a progressive degenerative disorder,” Dr. Rodan said.

One potential treatment that has been explored, he said, is difluoromethylornithine, a synthetic ODC1 inhibitor already Food and Drug Administration approved for African sleeping sickness and as a topical treatment for hirsutism. It is also the subject of ongoing clinical trials in colon cancer and neuroblastoma. Potential side effects include myelosuppression, seizures and hearing loss.

Dr. Rodan noted that a single-center study reported that difluoromethylornithine in a 3-year-old patient with ODC1 disorder reduced ODC protein activity and putrescine to control levels.

Other potential treatments include the natural ODC1 inhibitors agmatine and turmeric/curcumin, flagyl/rifaximin to decrease putrescine production in the gut, a low-dairy diet to lower putrescine levels, and antioxidants. “There could be a role for antioxidant stress similar to what is seen in Snyder-Robinson syndrome,” Dr. Rodan said.

Based on mouse studies, patients with ODC1 may be at risk of skin cancer, so regular skin checks along with sun protection should be part of management, he said. “This also raises the question of whether there should be surveillance for other types of cancer given the role of polyamine in various types of tumors.”

Dr. Rodan has no relevant financial relationships to disclose.

Long-term treatment with ataluren delays loss of ambulation and may delay decline in pulmonary function in patients with nonsense mutation Duchenne muscular dystrophy (nmDMD), according to study results presented at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Because so few patients in the study reached one of the negative pulmonary endpoints, longer follow-up will be needed to assess more conclusively the effect of ataluren on pulmonary function, said Francesco Bibbiani, MD, vice president of clinical development at PTC Therapeutics.

DMD is a rare and fatal neuromuscular disorder that causes progressive muscle weakness. Between 10% and 15% of patients with DMD have a nonsense mutation in the DMD gene. This mutation creates a premature stop codon that prevents the translation of a full-length dystrophin protein. Ataluren is designed to promote readthrough of this premature stop codon, thus enabling the production of a full-length dystrophin protein. An oral formulation of the drug has been approved in several European and South American countries.
 

Comparing treatment and standard of care

Study 019 was a phase 3, multicenter, open-label, long-term safety study of ataluren that enrolled international patients with nmDMD, most of whom had participated previously in a trial of ataluren. Dr. Bibbiani and colleagues conducted a post hoc analysis of Study 019 data to determine whether patients with nmDMD who received ataluren and standard of care for as long as 240 weeks had a different time to loss of ambulation and to decline of pulmonary function, compared with patients who received standard of care alone. Patients who were eligible to participate in Study 019 were male, had nmDMD, and had completed the blinded study drug treatment in a previous PTC-sponsored study. Treatment consisted of two 10-mg/kg doses and one 20-mg/kg dose of ataluren per day.

Dr. Bibbiani and colleagues used participants in the Cooperative International Neuromuscular Research Group Duchenne Natural History Study (CINRG DNHS) as a control group. CINRG DNHS was a prospective, longitudinal study of patients with DMD who received standard of care at 20 centers worldwide from 2006 to 2016. Dr. Bibbiani and colleagues used propensity-score matching to pair participants in this study with participants in Study 019. They matched patients with respect to age at onset of first symptoms, age at initiation of corticosteroid use, duration of deflazacort use, and duration of use of other corticosteroids. These factors are established predictors of disease progression in DMD.

Patients were eligible for inclusion in the post hoc analysis if they had available data for age, loss of ambulation, and the covariates selected for matching. Of 94 Study 019 participants, 60 were eligible for propensity-score matching with participants in CINRG DNHS. Forty-five nonambulatory patients were eligible for matching in the analysis of age at the decline in pulmonary function because data for age at loss of ambulation and for the three pulmonary endpoints measured were available for them. Thus, comparable population sizes were available for each analysis.
 

Treatment delayed disease milestones

Kaplan–Meier analysis indicated that the median age at various disease milestones was higher among patients who received ataluren and standard of care, compared with those who received standard of care alone. The median age at loss of ambulation was 15.5 years for Study 019 participants and 13.3 years for CINRG DNHS patients. The median age at predicted forced vital capacity (FVC) of less than 60% was 18.1 years for Study 019 participants and 15.8 years for CINRG DNHS participants. The median age at predicted FVC of less than 50% was 19.1 years for Study 019 participants and 17.9 years for CINRG DNHS participants. Finally, the median age at FVC of less than 1 L was not calculable for Study 019 participants and 23.8 years for CINRG DNHS participants.

The Study 019 and CINRG DNHS study groups are sponsored by PTC Therapeutics, which developed ataluren. Dr. Bibbiani is an employee of PTC Therapeutics.

egreb@mdedge.com

SOURCE: McDonald C, et al. CNS-ICNA 2020. Abstract PL69.

Long-term treatment with ataluren delays loss of ambulation and may delay decline in pulmonary function in patients with nonsense mutation Duchenne muscular dystrophy (nmDMD), according to study results presented at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Because so few patients in the study reached one of the negative pulmonary endpoints, longer follow-up will be needed to assess more conclusively the effect of ataluren on pulmonary function, said Francesco Bibbiani, MD, vice president of clinical development at PTC Therapeutics.

DMD is a rare and fatal neuromuscular disorder that causes progressive muscle weakness. Between 10% and 15% of patients with DMD have a nonsense mutation in the DMD gene. This mutation creates a premature stop codon that prevents the translation of a full-length dystrophin protein. Ataluren is designed to promote readthrough of this premature stop codon, thus enabling the production of a full-length dystrophin protein. An oral formulation of the drug has been approved in several European and South American countries.
 

Comparing treatment and standard of care

Study 019 was a phase 3, multicenter, open-label, long-term safety study of ataluren that enrolled international patients with nmDMD, most of whom had participated previously in a trial of ataluren. Dr. Bibbiani and colleagues conducted a post hoc analysis of Study 019 data to determine whether patients with nmDMD who received ataluren and standard of care for as long as 240 weeks had a different time to loss of ambulation and to decline of pulmonary function, compared with patients who received standard of care alone. Patients who were eligible to participate in Study 019 were male, had nmDMD, and had completed the blinded study drug treatment in a previous PTC-sponsored study. Treatment consisted of two 10-mg/kg doses and one 20-mg/kg dose of ataluren per day.

Dr. Bibbiani and colleagues used participants in the Cooperative International Neuromuscular Research Group Duchenne Natural History Study (CINRG DNHS) as a control group. CINRG DNHS was a prospective, longitudinal study of patients with DMD who received standard of care at 20 centers worldwide from 2006 to 2016. Dr. Bibbiani and colleagues used propensity-score matching to pair participants in this study with participants in Study 019. They matched patients with respect to age at onset of first symptoms, age at initiation of corticosteroid use, duration of deflazacort use, and duration of use of other corticosteroids. These factors are established predictors of disease progression in DMD.

Patients were eligible for inclusion in the post hoc analysis if they had available data for age, loss of ambulation, and the covariates selected for matching. Of 94 Study 019 participants, 60 were eligible for propensity-score matching with participants in CINRG DNHS. Forty-five nonambulatory patients were eligible for matching in the analysis of age at the decline in pulmonary function because data for age at loss of ambulation and for the three pulmonary endpoints measured were available for them. Thus, comparable population sizes were available for each analysis.
 

Treatment delayed disease milestones

Kaplan–Meier analysis indicated that the median age at various disease milestones was higher among patients who received ataluren and standard of care, compared with those who received standard of care alone. The median age at loss of ambulation was 15.5 years for Study 019 participants and 13.3 years for CINRG DNHS patients. The median age at predicted forced vital capacity (FVC) of less than 60% was 18.1 years for Study 019 participants and 15.8 years for CINRG DNHS participants. The median age at predicted FVC of less than 50% was 19.1 years for Study 019 participants and 17.9 years for CINRG DNHS participants. Finally, the median age at FVC of less than 1 L was not calculable for Study 019 participants and 23.8 years for CINRG DNHS participants.

The Study 019 and CINRG DNHS study groups are sponsored by PTC Therapeutics, which developed ataluren. Dr. Bibbiani is an employee of PTC Therapeutics.

egreb@mdedge.com

SOURCE: McDonald C, et al. CNS-ICNA 2020. Abstract PL69.

Long-term treatment with ataluren delays loss of ambulation and may delay decline in pulmonary function in patients with nonsense mutation Duchenne muscular dystrophy (nmDMD), according to study results presented at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Because so few patients in the study reached one of the negative pulmonary endpoints, longer follow-up will be needed to assess more conclusively the effect of ataluren on pulmonary function, said Francesco Bibbiani, MD, vice president of clinical development at PTC Therapeutics.

DMD is a rare and fatal neuromuscular disorder that causes progressive muscle weakness. Between 10% and 15% of patients with DMD have a nonsense mutation in the DMD gene. This mutation creates a premature stop codon that prevents the translation of a full-length dystrophin protein. Ataluren is designed to promote readthrough of this premature stop codon, thus enabling the production of a full-length dystrophin protein. An oral formulation of the drug has been approved in several European and South American countries.
 

Comparing treatment and standard of care

Study 019 was a phase 3, multicenter, open-label, long-term safety study of ataluren that enrolled international patients with nmDMD, most of whom had participated previously in a trial of ataluren. Dr. Bibbiani and colleagues conducted a post hoc analysis of Study 019 data to determine whether patients with nmDMD who received ataluren and standard of care for as long as 240 weeks had a different time to loss of ambulation and to decline of pulmonary function, compared with patients who received standard of care alone. Patients who were eligible to participate in Study 019 were male, had nmDMD, and had completed the blinded study drug treatment in a previous PTC-sponsored study. Treatment consisted of two 10-mg/kg doses and one 20-mg/kg dose of ataluren per day.

Dr. Bibbiani and colleagues used participants in the Cooperative International Neuromuscular Research Group Duchenne Natural History Study (CINRG DNHS) as a control group. CINRG DNHS was a prospective, longitudinal study of patients with DMD who received standard of care at 20 centers worldwide from 2006 to 2016. Dr. Bibbiani and colleagues used propensity-score matching to pair participants in this study with participants in Study 019. They matched patients with respect to age at onset of first symptoms, age at initiation of corticosteroid use, duration of deflazacort use, and duration of use of other corticosteroids. These factors are established predictors of disease progression in DMD.

Patients were eligible for inclusion in the post hoc analysis if they had available data for age, loss of ambulation, and the covariates selected for matching. Of 94 Study 019 participants, 60 were eligible for propensity-score matching with participants in CINRG DNHS. Forty-five nonambulatory patients were eligible for matching in the analysis of age at the decline in pulmonary function because data for age at loss of ambulation and for the three pulmonary endpoints measured were available for them. Thus, comparable population sizes were available for each analysis.
 

Treatment delayed disease milestones

Kaplan–Meier analysis indicated that the median age at various disease milestones was higher among patients who received ataluren and standard of care, compared with those who received standard of care alone. The median age at loss of ambulation was 15.5 years for Study 019 participants and 13.3 years for CINRG DNHS patients. The median age at predicted forced vital capacity (FVC) of less than 60% was 18.1 years for Study 019 participants and 15.8 years for CINRG DNHS participants. The median age at predicted FVC of less than 50% was 19.1 years for Study 019 participants and 17.9 years for CINRG DNHS participants. Finally, the median age at FVC of less than 1 L was not calculable for Study 019 participants and 23.8 years for CINRG DNHS participants.

The Study 019 and CINRG DNHS study groups are sponsored by PTC Therapeutics, which developed ataluren. Dr. Bibbiani is an employee of PTC Therapeutics.

egreb@mdedge.com

SOURCE: McDonald C, et al. CNS-ICNA 2020. Abstract PL69.

Among patients with pediatric-onset relapsing-remitting multiple sclerosis (MS), newer disease-modifying therapies (DMTs) reduce clinical and radiological disease activity more effectively than older injectable therapies. Nevertheless, all DMTs reduce children’s annualized relapse rate (ARR), according to results presented at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year.

“Our study adds weight to the argument for an imminent shift in clinical practice toward the use of newer, more efficacious DMTs in the first instance,” said Omar Abdel-Mannan, MD, of Great Ormond Street Hospital in London. MRI activity continues among patients treated with DMTs, and the number of relapses is highest in the period following diagnosis. But because the effect of treatment on brain atrophy is greatest in the initial period of disease, “this time period may represent a critical therapeutic window for the use of highly effective therapies,” said Dr. Abdel-Mannan.
 

An examination of medical records

MS is much less prevalent among children than among adults. Compared with adults with MS, children with MS have a higher relapse rate and slower accumulation of disability. The individual response to DMTs is variable, said Dr. Abdel-Mannan. Furthermore, current standards of care for pediatric MS vary by center and are based on adult protocols.

Dr. Abdel-Mannan and colleagues conducted a retrospective study to evaluate the real-world effectiveness of the newer oral and infusion DMTs, compared with the older injectable DMTs, in children with relapsing-remitting MS. They examined data from seven tertiary pediatric neurology centers in the United Kingdom and identified patients under age 18 years with relapsing-remitting MS who were treated with DMTs between 2012 and 2018. The investigators reviewed clinical and paraclinical data retrospectively using electronic medical records. They compared patients’ ARR, new radiological activity, and Expanded Disability Status Scale score pretreatment and on treatment.

The researchers included 103 patients in their analysis. The population’s median age was 14 years. The ratio of girls to boys was approximately 3:1. Whites and other races/ethnicities accounted for approximately equal groups of patients. About one-third of patients presented with a clinically isolated syndrome (CIS) in the form of transverse myelitis or optic neuritis. Two-thirds presented with other CIS phenotypes. Almost all children had an abnormal MRI at onset.
 

Most patients initiated injectable DMTs

Of the 103 patients, 89 started treatment with an injectable (e.g., glatiramer or interferon) or an older DMT. Fourteen patients began treatment with a newer DMT (e.g., dimethyl fumarate, fingolimod, natalizumab, and alemtuzumab). Three of the 89 patients on an injectable DMT switched to another injectable DMT, and two of these patients later escalated to a newer DMT. Thirty-five of the 89 patients who initiated an injectable DMT were escalated immediately to a newer DMT. One of these patients later switched to another newer DMT. Two of the 14 patients who started on a newer DMT as their first drug switched to another newer DMT.

The investigators observed a reduction in ARR for all DMTs used during the study period. Nevertheless, a significant number of patients receiving injectable DMTs continued to relapse on treatment. Almost all patients receiving newer DMTs, however, had a reduction in relapses. When Dr. Abdel-Mannan and colleagues performed Kaplan–Meier survival analysis, they found that patients receiving newer DMTs had a longer time to first relapse and a longer time to switch treatment over 2 years, compared with patients receiving injectable DMTs. In addition, patients receiving newer DMTs had a longer time to develop new radiological activity, compared with patients receiving injectables. The analysis also indicated that the proportion of patients with new radiological activity was higher than the proportion who had clinical relapses and an Expanded Disability Status Scale score increase of more than 1 point over 2 years.

In all, 55 of the children receiving injectable DMTs and 18 of the patients receiving newer DMTs had side effects. The most commonly reported side effects were flulike symptoms and injection-site reactions. Five patients discontinued or switched their DMTs because of side effects. “Reassuringly, no pediatric-specific side effects were reported,” said Dr. Abdel-Mannan. The newer DMTs had similar short-term safety, tolerability, and side-effect profiles in these children as in adult patients.

The study was conducted on behalf of the UK Childhood Inflammatory Demyelination Network. Dr. Abdel-Mannan had no relevant disclosures.

egreb@mdedge.com

SOURCE: Abdel-Mannan O et al. CNS-ICNA 2020, Abstract PL10.

Among patients with pediatric-onset relapsing-remitting multiple sclerosis (MS), newer disease-modifying therapies (DMTs) reduce clinical and radiological disease activity more effectively than older injectable therapies. Nevertheless, all DMTs reduce children’s annualized relapse rate (ARR), according to results presented at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year.

“Our study adds weight to the argument for an imminent shift in clinical practice toward the use of newer, more efficacious DMTs in the first instance,” said Omar Abdel-Mannan, MD, of Great Ormond Street Hospital in London. MRI activity continues among patients treated with DMTs, and the number of relapses is highest in the period following diagnosis. But because the effect of treatment on brain atrophy is greatest in the initial period of disease, “this time period may represent a critical therapeutic window for the use of highly effective therapies,” said Dr. Abdel-Mannan.
 

An examination of medical records

MS is much less prevalent among children than among adults. Compared with adults with MS, children with MS have a higher relapse rate and slower accumulation of disability. The individual response to DMTs is variable, said Dr. Abdel-Mannan. Furthermore, current standards of care for pediatric MS vary by center and are based on adult protocols.

Dr. Abdel-Mannan and colleagues conducted a retrospective study to evaluate the real-world effectiveness of the newer oral and infusion DMTs, compared with the older injectable DMTs, in children with relapsing-remitting MS. They examined data from seven tertiary pediatric neurology centers in the United Kingdom and identified patients under age 18 years with relapsing-remitting MS who were treated with DMTs between 2012 and 2018. The investigators reviewed clinical and paraclinical data retrospectively using electronic medical records. They compared patients’ ARR, new radiological activity, and Expanded Disability Status Scale score pretreatment and on treatment.

The researchers included 103 patients in their analysis. The population’s median age was 14 years. The ratio of girls to boys was approximately 3:1. Whites and other races/ethnicities accounted for approximately equal groups of patients. About one-third of patients presented with a clinically isolated syndrome (CIS) in the form of transverse myelitis or optic neuritis. Two-thirds presented with other CIS phenotypes. Almost all children had an abnormal MRI at onset.
 

Most patients initiated injectable DMTs

Of the 103 patients, 89 started treatment with an injectable (e.g., glatiramer or interferon) or an older DMT. Fourteen patients began treatment with a newer DMT (e.g., dimethyl fumarate, fingolimod, natalizumab, and alemtuzumab). Three of the 89 patients on an injectable DMT switched to another injectable DMT, and two of these patients later escalated to a newer DMT. Thirty-five of the 89 patients who initiated an injectable DMT were escalated immediately to a newer DMT. One of these patients later switched to another newer DMT. Two of the 14 patients who started on a newer DMT as their first drug switched to another newer DMT.

The investigators observed a reduction in ARR for all DMTs used during the study period. Nevertheless, a significant number of patients receiving injectable DMTs continued to relapse on treatment. Almost all patients receiving newer DMTs, however, had a reduction in relapses. When Dr. Abdel-Mannan and colleagues performed Kaplan–Meier survival analysis, they found that patients receiving newer DMTs had a longer time to first relapse and a longer time to switch treatment over 2 years, compared with patients receiving injectable DMTs. In addition, patients receiving newer DMTs had a longer time to develop new radiological activity, compared with patients receiving injectables. The analysis also indicated that the proportion of patients with new radiological activity was higher than the proportion who had clinical relapses and an Expanded Disability Status Scale score increase of more than 1 point over 2 years.

In all, 55 of the children receiving injectable DMTs and 18 of the patients receiving newer DMTs had side effects. The most commonly reported side effects were flulike symptoms and injection-site reactions. Five patients discontinued or switched their DMTs because of side effects. “Reassuringly, no pediatric-specific side effects were reported,” said Dr. Abdel-Mannan. The newer DMTs had similar short-term safety, tolerability, and side-effect profiles in these children as in adult patients.

The study was conducted on behalf of the UK Childhood Inflammatory Demyelination Network. Dr. Abdel-Mannan had no relevant disclosures.

egreb@mdedge.com

SOURCE: Abdel-Mannan O et al. CNS-ICNA 2020, Abstract PL10.

Among patients with pediatric-onset relapsing-remitting multiple sclerosis (MS), newer disease-modifying therapies (DMTs) reduce clinical and radiological disease activity more effectively than older injectable therapies. Nevertheless, all DMTs reduce children’s annualized relapse rate (ARR), according to results presented at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year.

“Our study adds weight to the argument for an imminent shift in clinical practice toward the use of newer, more efficacious DMTs in the first instance,” said Omar Abdel-Mannan, MD, of Great Ormond Street Hospital in London. MRI activity continues among patients treated with DMTs, and the number of relapses is highest in the period following diagnosis. But because the effect of treatment on brain atrophy is greatest in the initial period of disease, “this time period may represent a critical therapeutic window for the use of highly effective therapies,” said Dr. Abdel-Mannan.
 

An examination of medical records

MS is much less prevalent among children than among adults. Compared with adults with MS, children with MS have a higher relapse rate and slower accumulation of disability. The individual response to DMTs is variable, said Dr. Abdel-Mannan. Furthermore, current standards of care for pediatric MS vary by center and are based on adult protocols.

Dr. Abdel-Mannan and colleagues conducted a retrospective study to evaluate the real-world effectiveness of the newer oral and infusion DMTs, compared with the older injectable DMTs, in children with relapsing-remitting MS. They examined data from seven tertiary pediatric neurology centers in the United Kingdom and identified patients under age 18 years with relapsing-remitting MS who were treated with DMTs between 2012 and 2018. The investigators reviewed clinical and paraclinical data retrospectively using electronic medical records. They compared patients’ ARR, new radiological activity, and Expanded Disability Status Scale score pretreatment and on treatment.

The researchers included 103 patients in their analysis. The population’s median age was 14 years. The ratio of girls to boys was approximately 3:1. Whites and other races/ethnicities accounted for approximately equal groups of patients. About one-third of patients presented with a clinically isolated syndrome (CIS) in the form of transverse myelitis or optic neuritis. Two-thirds presented with other CIS phenotypes. Almost all children had an abnormal MRI at onset.
 

Most patients initiated injectable DMTs

Of the 103 patients, 89 started treatment with an injectable (e.g., glatiramer or interferon) or an older DMT. Fourteen patients began treatment with a newer DMT (e.g., dimethyl fumarate, fingolimod, natalizumab, and alemtuzumab). Three of the 89 patients on an injectable DMT switched to another injectable DMT, and two of these patients later escalated to a newer DMT. Thirty-five of the 89 patients who initiated an injectable DMT were escalated immediately to a newer DMT. One of these patients later switched to another newer DMT. Two of the 14 patients who started on a newer DMT as their first drug switched to another newer DMT.

The investigators observed a reduction in ARR for all DMTs used during the study period. Nevertheless, a significant number of patients receiving injectable DMTs continued to relapse on treatment. Almost all patients receiving newer DMTs, however, had a reduction in relapses. When Dr. Abdel-Mannan and colleagues performed Kaplan–Meier survival analysis, they found that patients receiving newer DMTs had a longer time to first relapse and a longer time to switch treatment over 2 years, compared with patients receiving injectable DMTs. In addition, patients receiving newer DMTs had a longer time to develop new radiological activity, compared with patients receiving injectables. The analysis also indicated that the proportion of patients with new radiological activity was higher than the proportion who had clinical relapses and an Expanded Disability Status Scale score increase of more than 1 point over 2 years.

In all, 55 of the children receiving injectable DMTs and 18 of the patients receiving newer DMTs had side effects. The most commonly reported side effects were flulike symptoms and injection-site reactions. Five patients discontinued or switched their DMTs because of side effects. “Reassuringly, no pediatric-specific side effects were reported,” said Dr. Abdel-Mannan. The newer DMTs had similar short-term safety, tolerability, and side-effect profiles in these children as in adult patients.

The study was conducted on behalf of the UK Childhood Inflammatory Demyelination Network. Dr. Abdel-Mannan had no relevant disclosures.

egreb@mdedge.com

SOURCE: Abdel-Mannan O et al. CNS-ICNA 2020, Abstract PL10.

Maintaining antiseizure medication in infants who have had acute symptomatic neonatal seizures has been standard practice, but a prospective, observational, comparative effectiveness study calls that practice into question, providing evidence that discontinuing therapy at discharge poses no harm to children and has no effect on the development of epilepsies.

“The balance of evidence supports discontinuing antiseizure medication after resolution of acute symptomatic neonatal seizures and before discharge home from the neonatal seizure admission,” said Hannah C. Glass, MDCM, MAS, of the University of California, San Francisco, Benioff Children’s Hospital, co-principal investigator, who presented results of the study at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Renee Shellhaas, MD, MS, clinical associate professor of pediatrics at C.S. Mott Children’s Hospital, University of Michigan, was the other co-principal investigator.

“Although other, smaller studies have suggested it is safe to discontinue antiseizure medication after resolution of acute symptomatic seizures, the practice of early discontinuation has been very variable and depends largely on individual provider preference,” Dr. Glass said in an interview. “In our study, two-thirds of newborns with acute symptomatic seizures were maintained on antiseizure medication at the time of hospital discharge. Thus, a change to early medication discontinuation represents a major shift.” 

The study evaluated 270 infants at nine centers enrolled in the Neonatal Seizure Registry and born from July 2015 through March 2018. Inclusion criteria were acute symptomatic seizures that occurred at up to 44 weeks postmenstrual age. In this cohort, 36% of patients had antiseizure medication discontinued after a median of 6 days; the remainder stayed on antiseizure medication after discharge at a median of 4 months.

The patients were followed for 2 years. The primary outcome was functional development measured by the Warner Initial Development Evaluation of Adaptive and Functional Skills (WIDEA-FS) assessment. The secondary outcome was epilepsy defined by International League Against Epilepsy (ILAE) criteria. Follow-up consisted of phone calls and chart reviews at 12, 18, and 24 months.

“The primary outcome, functional development, was not significantly different between those children who were maintained on antiseizure medication as compared with those who were discontinued,” Dr. Glass said.

After propensity adjustment, the discontinued ASM group had an estimated WIDEA-FS score 4 points higher on average, she said. “The confidence intervals met our a priori noninferiority limit, indicating no harm to neurodevelopment for discontinuing antiseizure medication before discharge home from the neonatal seizure admission,” Dr. Glass noted.

The study also found that 13% of all participants developed epilepsy at a median of 8 months. “There was no significant difference in the frequency or timing of epilepsy between the two groups,” she said.

“We conclude there is no clear rationale for antiseizure medication maintenance,” Dr. Glass said. “There is no benefit to neurodevelopment, it prolongs the exposure to potentially harmful antiseizure medications, it does not significantly delay the onset of epilepsy, and the earliest-onset epilepsies occur in spite of antiseizure medication.”

The Patient-Centered Outcomes Research Institute (PCORI) and Pediatric Epilepsy Research Foundation funded the study. Dr. Glass has no other financial relationships to disclose.

SOURCE: Glass HC et al. CNS-ICNA 2020. Presentation PL58.

Maintaining antiseizure medication in infants who have had acute symptomatic neonatal seizures has been standard practice, but a prospective, observational, comparative effectiveness study calls that practice into question, providing evidence that discontinuing therapy at discharge poses no harm to children and has no effect on the development of epilepsies.

“The balance of evidence supports discontinuing antiseizure medication after resolution of acute symptomatic neonatal seizures and before discharge home from the neonatal seizure admission,” said Hannah C. Glass, MDCM, MAS, of the University of California, San Francisco, Benioff Children’s Hospital, co-principal investigator, who presented results of the study at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Renee Shellhaas, MD, MS, clinical associate professor of pediatrics at C.S. Mott Children’s Hospital, University of Michigan, was the other co-principal investigator.

“Although other, smaller studies have suggested it is safe to discontinue antiseizure medication after resolution of acute symptomatic seizures, the practice of early discontinuation has been very variable and depends largely on individual provider preference,” Dr. Glass said in an interview. “In our study, two-thirds of newborns with acute symptomatic seizures were maintained on antiseizure medication at the time of hospital discharge. Thus, a change to early medication discontinuation represents a major shift.” 

The study evaluated 270 infants at nine centers enrolled in the Neonatal Seizure Registry and born from July 2015 through March 2018. Inclusion criteria were acute symptomatic seizures that occurred at up to 44 weeks postmenstrual age. In this cohort, 36% of patients had antiseizure medication discontinued after a median of 6 days; the remainder stayed on antiseizure medication after discharge at a median of 4 months.

The patients were followed for 2 years. The primary outcome was functional development measured by the Warner Initial Development Evaluation of Adaptive and Functional Skills (WIDEA-FS) assessment. The secondary outcome was epilepsy defined by International League Against Epilepsy (ILAE) criteria. Follow-up consisted of phone calls and chart reviews at 12, 18, and 24 months.

“The primary outcome, functional development, was not significantly different between those children who were maintained on antiseizure medication as compared with those who were discontinued,” Dr. Glass said.

After propensity adjustment, the discontinued ASM group had an estimated WIDEA-FS score 4 points higher on average, she said. “The confidence intervals met our a priori noninferiority limit, indicating no harm to neurodevelopment for discontinuing antiseizure medication before discharge home from the neonatal seizure admission,” Dr. Glass noted.

The study also found that 13% of all participants developed epilepsy at a median of 8 months. “There was no significant difference in the frequency or timing of epilepsy between the two groups,” she said.

“We conclude there is no clear rationale for antiseizure medication maintenance,” Dr. Glass said. “There is no benefit to neurodevelopment, it prolongs the exposure to potentially harmful antiseizure medications, it does not significantly delay the onset of epilepsy, and the earliest-onset epilepsies occur in spite of antiseizure medication.”

The Patient-Centered Outcomes Research Institute (PCORI) and Pediatric Epilepsy Research Foundation funded the study. Dr. Glass has no other financial relationships to disclose.

SOURCE: Glass HC et al. CNS-ICNA 2020. Presentation PL58.

Maintaining antiseizure medication in infants who have had acute symptomatic neonatal seizures has been standard practice, but a prospective, observational, comparative effectiveness study calls that practice into question, providing evidence that discontinuing therapy at discharge poses no harm to children and has no effect on the development of epilepsies.

“The balance of evidence supports discontinuing antiseizure medication after resolution of acute symptomatic neonatal seizures and before discharge home from the neonatal seizure admission,” said Hannah C. Glass, MDCM, MAS, of the University of California, San Francisco, Benioff Children’s Hospital, co-principal investigator, who presented results of the study at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Renee Shellhaas, MD, MS, clinical associate professor of pediatrics at C.S. Mott Children’s Hospital, University of Michigan, was the other co-principal investigator.

“Although other, smaller studies have suggested it is safe to discontinue antiseizure medication after resolution of acute symptomatic seizures, the practice of early discontinuation has been very variable and depends largely on individual provider preference,” Dr. Glass said in an interview. “In our study, two-thirds of newborns with acute symptomatic seizures were maintained on antiseizure medication at the time of hospital discharge. Thus, a change to early medication discontinuation represents a major shift.” 

The study evaluated 270 infants at nine centers enrolled in the Neonatal Seizure Registry and born from July 2015 through March 2018. Inclusion criteria were acute symptomatic seizures that occurred at up to 44 weeks postmenstrual age. In this cohort, 36% of patients had antiseizure medication discontinued after a median of 6 days; the remainder stayed on antiseizure medication after discharge at a median of 4 months.

The patients were followed for 2 years. The primary outcome was functional development measured by the Warner Initial Development Evaluation of Adaptive and Functional Skills (WIDEA-FS) assessment. The secondary outcome was epilepsy defined by International League Against Epilepsy (ILAE) criteria. Follow-up consisted of phone calls and chart reviews at 12, 18, and 24 months.

“The primary outcome, functional development, was not significantly different between those children who were maintained on antiseizure medication as compared with those who were discontinued,” Dr. Glass said.

After propensity adjustment, the discontinued ASM group had an estimated WIDEA-FS score 4 points higher on average, she said. “The confidence intervals met our a priori noninferiority limit, indicating no harm to neurodevelopment for discontinuing antiseizure medication before discharge home from the neonatal seizure admission,” Dr. Glass noted.

The study also found that 13% of all participants developed epilepsy at a median of 8 months. “There was no significant difference in the frequency or timing of epilepsy between the two groups,” she said.

“We conclude there is no clear rationale for antiseizure medication maintenance,” Dr. Glass said. “There is no benefit to neurodevelopment, it prolongs the exposure to potentially harmful antiseizure medications, it does not significantly delay the onset of epilepsy, and the earliest-onset epilepsies occur in spite of antiseizure medication.”

The Patient-Centered Outcomes Research Institute (PCORI) and Pediatric Epilepsy Research Foundation funded the study. Dr. Glass has no other financial relationships to disclose.

SOURCE: Glass HC et al. CNS-ICNA 2020. Presentation PL58.

Improved molecular characterization of mixed glioneuronal and neuronal tumors is driving the World Health Organization to update its classification system for pediatric brain tumors, and that will have far-reaching implications for how clinicians diagnose and manage these rare and often debilitating malignancies, a leading European researcher reported at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year.

“These pediatric neuronal/glioneuronal tumors are quite heterogeneous in terms of the number of different tumors and subclasses of tumors going into these groups, but they have some molecular features in common,” said David T.W. Jones, PhD, of Hopp Children’s Cancer Center in Heidelberg, Germany. “Together they represent quite a sizable portion of all childhood brain tumors, so it’s important to recognize and understand them.”

Dr. Jones noted that updated WHO classifications would add six new descriptions to the category of mixed glioneuronal tumors and one to the list of neuronal tumors. A working group of the Consortium to Inform Molecular and Practical Approaches to CNS Tumor Taxonomy, known as cIMPACT-NOW, has recommended the expanded classifications for central nervous system tumors.

“The molecular understandings of pediatric neuro-glial tumors are critical in their management,” Roger Packer, MD, senior vice president of the Center for Neuroscience and Behavioral Health at Children’s National in Washington, said in an interview, especially as treatments targeting specific molecular structures emerge. “For those with tumors not amenable to safe, total resections, there’s little evidence that radiation or chemotherapy are effective, and molecular-targeted therapy, guided by the molecular genetic composition, increases the safe use of these new agents.”

Dr. Jones noted that “as a minimum” molecular diagnostics of pediatric low-grade glioneuronal and neuronal tumors should include a BRAF gene mutation and fusion status, as well as FGFR1 mutation plus fusion or rearrangement status.

“Ideally,” he added, “it should also have a broader copy number profile, whether that’s based on sequencing or SNP arrays or DNA methylation rate, a global DNA methylation profile to get those global molecular patterns, and also wider gene and RNA sequence to pick up some of those rarer alterations that may not be covered by targeted BRAF and FGFR1 mutations.”

The updated tumor classification will evolve to include novel tumor classes, as well as links or overlaps between the tumor classes and their characteristic underlying kinetic alterations, he noted. “Some of these profiling measures will actually be required to generate a fully WHO-compatible pathological diagnosis,” Dr. Jones said.

“This group of tumors are now just better molecularly characterized than it was 5 years ago, so in the last few years we’ve really made tremendous progress in understanding what alterations are driving some of these tumors,” he said. “That knowledge is now providing a basis for improved diagnosis and also for starting to plan more targeted treatment strategies.”

But, he added, there’s still a lot to learn about how these oncogenic mechanisms drive tumor pathogenesis. “What is the clinical costs when we really start getting down into defining these distinct molecular groups?” he said. “What are their different responses to treatment depending on different levels, where the MEKi [mitogen-activated protein kinase inhibitor] pathway might be activated and, for example, response to treatment of different subclasses of one tumor?”

Large, collaborative clinical studies will be needed to get those answers, he said.

“There are certainly some therapeutic opportunities arising in this group of tumors now, but in order to really translate those into a clinical benefit, we’re really going to need some careful planning of international studies because of the relative rarity of some of these groups,” he said.

Dr. Jones has no relevant financial relationships to disclose.

Improved molecular characterization of mixed glioneuronal and neuronal tumors is driving the World Health Organization to update its classification system for pediatric brain tumors, and that will have far-reaching implications for how clinicians diagnose and manage these rare and often debilitating malignancies, a leading European researcher reported at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year.

“These pediatric neuronal/glioneuronal tumors are quite heterogeneous in terms of the number of different tumors and subclasses of tumors going into these groups, but they have some molecular features in common,” said David T.W. Jones, PhD, of Hopp Children’s Cancer Center in Heidelberg, Germany. “Together they represent quite a sizable portion of all childhood brain tumors, so it’s important to recognize and understand them.”

Dr. Jones noted that updated WHO classifications would add six new descriptions to the category of mixed glioneuronal tumors and one to the list of neuronal tumors. A working group of the Consortium to Inform Molecular and Practical Approaches to CNS Tumor Taxonomy, known as cIMPACT-NOW, has recommended the expanded classifications for central nervous system tumors.

“The molecular understandings of pediatric neuro-glial tumors are critical in their management,” Roger Packer, MD, senior vice president of the Center for Neuroscience and Behavioral Health at Children’s National in Washington, said in an interview, especially as treatments targeting specific molecular structures emerge. “For those with tumors not amenable to safe, total resections, there’s little evidence that radiation or chemotherapy are effective, and molecular-targeted therapy, guided by the molecular genetic composition, increases the safe use of these new agents.”

Dr. Jones noted that “as a minimum” molecular diagnostics of pediatric low-grade glioneuronal and neuronal tumors should include a BRAF gene mutation and fusion status, as well as FGFR1 mutation plus fusion or rearrangement status.

“Ideally,” he added, “it should also have a broader copy number profile, whether that’s based on sequencing or SNP arrays or DNA methylation rate, a global DNA methylation profile to get those global molecular patterns, and also wider gene and RNA sequence to pick up some of those rarer alterations that may not be covered by targeted BRAF and FGFR1 mutations.”

The updated tumor classification will evolve to include novel tumor classes, as well as links or overlaps between the tumor classes and their characteristic underlying kinetic alterations, he noted. “Some of these profiling measures will actually be required to generate a fully WHO-compatible pathological diagnosis,” Dr. Jones said.

“This group of tumors are now just better molecularly characterized than it was 5 years ago, so in the last few years we’ve really made tremendous progress in understanding what alterations are driving some of these tumors,” he said. “That knowledge is now providing a basis for improved diagnosis and also for starting to plan more targeted treatment strategies.”

But, he added, there’s still a lot to learn about how these oncogenic mechanisms drive tumor pathogenesis. “What is the clinical costs when we really start getting down into defining these distinct molecular groups?” he said. “What are their different responses to treatment depending on different levels, where the MEKi [mitogen-activated protein kinase inhibitor] pathway might be activated and, for example, response to treatment of different subclasses of one tumor?”

Large, collaborative clinical studies will be needed to get those answers, he said.

“There are certainly some therapeutic opportunities arising in this group of tumors now, but in order to really translate those into a clinical benefit, we’re really going to need some careful planning of international studies because of the relative rarity of some of these groups,” he said.

Dr. Jones has no relevant financial relationships to disclose.

Improved molecular characterization of mixed glioneuronal and neuronal tumors is driving the World Health Organization to update its classification system for pediatric brain tumors, and that will have far-reaching implications for how clinicians diagnose and manage these rare and often debilitating malignancies, a leading European researcher reported at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year.

“These pediatric neuronal/glioneuronal tumors are quite heterogeneous in terms of the number of different tumors and subclasses of tumors going into these groups, but they have some molecular features in common,” said David T.W. Jones, PhD, of Hopp Children’s Cancer Center in Heidelberg, Germany. “Together they represent quite a sizable portion of all childhood brain tumors, so it’s important to recognize and understand them.”

Dr. Jones noted that updated WHO classifications would add six new descriptions to the category of mixed glioneuronal tumors and one to the list of neuronal tumors. A working group of the Consortium to Inform Molecular and Practical Approaches to CNS Tumor Taxonomy, known as cIMPACT-NOW, has recommended the expanded classifications for central nervous system tumors.

“The molecular understandings of pediatric neuro-glial tumors are critical in their management,” Roger Packer, MD, senior vice president of the Center for Neuroscience and Behavioral Health at Children’s National in Washington, said in an interview, especially as treatments targeting specific molecular structures emerge. “For those with tumors not amenable to safe, total resections, there’s little evidence that radiation or chemotherapy are effective, and molecular-targeted therapy, guided by the molecular genetic composition, increases the safe use of these new agents.”

Dr. Jones noted that “as a minimum” molecular diagnostics of pediatric low-grade glioneuronal and neuronal tumors should include a BRAF gene mutation and fusion status, as well as FGFR1 mutation plus fusion or rearrangement status.

“Ideally,” he added, “it should also have a broader copy number profile, whether that’s based on sequencing or SNP arrays or DNA methylation rate, a global DNA methylation profile to get those global molecular patterns, and also wider gene and RNA sequence to pick up some of those rarer alterations that may not be covered by targeted BRAF and FGFR1 mutations.”

The updated tumor classification will evolve to include novel tumor classes, as well as links or overlaps between the tumor classes and their characteristic underlying kinetic alterations, he noted. “Some of these profiling measures will actually be required to generate a fully WHO-compatible pathological diagnosis,” Dr. Jones said.

“This group of tumors are now just better molecularly characterized than it was 5 years ago, so in the last few years we’ve really made tremendous progress in understanding what alterations are driving some of these tumors,” he said. “That knowledge is now providing a basis for improved diagnosis and also for starting to plan more targeted treatment strategies.”

But, he added, there’s still a lot to learn about how these oncogenic mechanisms drive tumor pathogenesis. “What is the clinical costs when we really start getting down into defining these distinct molecular groups?” he said. “What are their different responses to treatment depending on different levels, where the MEKi [mitogen-activated protein kinase inhibitor] pathway might be activated and, for example, response to treatment of different subclasses of one tumor?”

Large, collaborative clinical studies will be needed to get those answers, he said.

“There are certainly some therapeutic opportunities arising in this group of tumors now, but in order to really translate those into a clinical benefit, we’re really going to need some careful planning of international studies because of the relative rarity of some of these groups,” he said.

Dr. Jones has no relevant financial relationships to disclose.

Acute flaccid myelitis (AFM), a polio-like neuroinfectious disorder, is misdiagnosed in the majority of cases, and that can result in loss of valuable time to admit patients and begin treatment to get ahead of the virus that may cause the disease.

At the 2020 CNS-ICNA Conjoint Meeting, held virtually this year, Leslie H. Hayes, MD, of Boston Children’s Hospital presented findings of a retrospective case series from 13 institutions in the United States and Canada that determined 78% of patients eventually found to have AFM were initially misdiagnosed. About 62% were given an alternate diagnosis or multiple diagnoses, and 60% did not get a referral for further care or evaluation. The study included 175 children aged 18 years and younger when symptoms first appeared from 2014 to 2018 and who met the Centers for Disease Control and Prevention case definition of AFM.

“As it becomes more evident that AFM outbreaks are driven by enterovirus infections, treatments targeting the viral infection are likely to be most effective very early in the course of disease, necessitating a precise and early diagnosis,” Dr. Hayes said. “Thus awareness is needed to help recognize the signs of symptoms of AFM, particularly among frontline clinicians.”

One reason for misdiagnosis is that AFM has features that overlap with other neuroinflammatory disorders, she said. “In many cases the patients are misdiagnosed as having benign or self-limiting processes that would not prompt the same monitoring and level of care.”

Numbness and prodromal illnesses were associated with misdiagnosis, she said, but otherwise most presenting symptoms were similar between the misdiagnosed and correctly diagnosed patients.

Neurologic disorders with similar features to AFM that the study identified were Guillain-Barré syndrome, spinal cord pathologies such as transverse myelitis, brain pathologies including acute disseminating encephalomyelitis, acute inclusion body encephalitis and stroke, and other neuroinflammatory conditions.

“There were also many patients diagnosed as having processes that in many cases would not prompt inpatient admission, would not involve neurology consultation, and would not be treated in a similar fashion to AFM,” Dr. Hayes said.

Those diagnoses included plexopathy, neuritis, Bell’s palsy, meningoencephalitis, nonspecific infectious illness or parainfectious autoimmune disease, or musculoskeletal problems including toxic or transient synovitis, myositis, fracture or sprain, or torticollis.

“We identified preceding illness and numbness as two features associated with misdiagnosis,” Dr. Hayes said.

“We evaluated illness severity by evaluating the need for invasive and noninvasive ventilation and found that, while not statistically significant, misdiagnosed patients had a trend toward higher need for such respiratory support,” she noted. Specifically, 31.6% of misdiagnosed patients required noninvasive ventilation versus 15.8% of promptly diagnosed patients (P = .06).

Dr. Hayes characterized the rates of ICU admissions between the two groups as not statistically significant: 52.5% and 36.8% for the misdiagnosed and promptly diagnosed groups, respectively (P = .1).

Both groups of patients received intravenous immunoglobulin in similar rates (77.9% and 81.6%, respectively, P = .63), but the misdiagnosed patients were much more likely to receive steroids, 68.2% versus 44.7% (P = .008). That’s likely because steroids are the standard treatment for the neuroinflammatory disorders that they were misdiagnosed with, Dr. Hayes said.

Timely diagnosis and treatment was more of an issue for the misdiagnosed patients; their diagnosis was made on average 5 days after the onset of symptoms versus 3 days (P < .001). “We found that time to treatment, particularly time to IVIg, was significantly longer in the misdiagnosed group,” Dr. Hayes said, at 5 versus 2 days (P < .001).

Dr. Hayes has no relevant financial relationships to disclose.

Acute flaccid myelitis (AFM), a polio-like neuroinfectious disorder, is misdiagnosed in the majority of cases, and that can result in loss of valuable time to admit patients and begin treatment to get ahead of the virus that may cause the disease.

At the 2020 CNS-ICNA Conjoint Meeting, held virtually this year, Leslie H. Hayes, MD, of Boston Children’s Hospital presented findings of a retrospective case series from 13 institutions in the United States and Canada that determined 78% of patients eventually found to have AFM were initially misdiagnosed. About 62% were given an alternate diagnosis or multiple diagnoses, and 60% did not get a referral for further care or evaluation. The study included 175 children aged 18 years and younger when symptoms first appeared from 2014 to 2018 and who met the Centers for Disease Control and Prevention case definition of AFM.

“As it becomes more evident that AFM outbreaks are driven by enterovirus infections, treatments targeting the viral infection are likely to be most effective very early in the course of disease, necessitating a precise and early diagnosis,” Dr. Hayes said. “Thus awareness is needed to help recognize the signs of symptoms of AFM, particularly among frontline clinicians.”

One reason for misdiagnosis is that AFM has features that overlap with other neuroinflammatory disorders, she said. “In many cases the patients are misdiagnosed as having benign or self-limiting processes that would not prompt the same monitoring and level of care.”

Numbness and prodromal illnesses were associated with misdiagnosis, she said, but otherwise most presenting symptoms were similar between the misdiagnosed and correctly diagnosed patients.

Neurologic disorders with similar features to AFM that the study identified were Guillain-Barré syndrome, spinal cord pathologies such as transverse myelitis, brain pathologies including acute disseminating encephalomyelitis, acute inclusion body encephalitis and stroke, and other neuroinflammatory conditions.

“There were also many patients diagnosed as having processes that in many cases would not prompt inpatient admission, would not involve neurology consultation, and would not be treated in a similar fashion to AFM,” Dr. Hayes said.

Those diagnoses included plexopathy, neuritis, Bell’s palsy, meningoencephalitis, nonspecific infectious illness or parainfectious autoimmune disease, or musculoskeletal problems including toxic or transient synovitis, myositis, fracture or sprain, or torticollis.

“We identified preceding illness and numbness as two features associated with misdiagnosis,” Dr. Hayes said.

“We evaluated illness severity by evaluating the need for invasive and noninvasive ventilation and found that, while not statistically significant, misdiagnosed patients had a trend toward higher need for such respiratory support,” she noted. Specifically, 31.6% of misdiagnosed patients required noninvasive ventilation versus 15.8% of promptly diagnosed patients (P = .06).

Dr. Hayes characterized the rates of ICU admissions between the two groups as not statistically significant: 52.5% and 36.8% for the misdiagnosed and promptly diagnosed groups, respectively (P = .1).

Both groups of patients received intravenous immunoglobulin in similar rates (77.9% and 81.6%, respectively, P = .63), but the misdiagnosed patients were much more likely to receive steroids, 68.2% versus 44.7% (P = .008). That’s likely because steroids are the standard treatment for the neuroinflammatory disorders that they were misdiagnosed with, Dr. Hayes said.

Timely diagnosis and treatment was more of an issue for the misdiagnosed patients; their diagnosis was made on average 5 days after the onset of symptoms versus 3 days (P < .001). “We found that time to treatment, particularly time to IVIg, was significantly longer in the misdiagnosed group,” Dr. Hayes said, at 5 versus 2 days (P < .001).

Dr. Hayes has no relevant financial relationships to disclose.

Acute flaccid myelitis (AFM), a polio-like neuroinfectious disorder, is misdiagnosed in the majority of cases, and that can result in loss of valuable time to admit patients and begin treatment to get ahead of the virus that may cause the disease.

At the 2020 CNS-ICNA Conjoint Meeting, held virtually this year, Leslie H. Hayes, MD, of Boston Children’s Hospital presented findings of a retrospective case series from 13 institutions in the United States and Canada that determined 78% of patients eventually found to have AFM were initially misdiagnosed. About 62% were given an alternate diagnosis or multiple diagnoses, and 60% did not get a referral for further care or evaluation. The study included 175 children aged 18 years and younger when symptoms first appeared from 2014 to 2018 and who met the Centers for Disease Control and Prevention case definition of AFM.

“As it becomes more evident that AFM outbreaks are driven by enterovirus infections, treatments targeting the viral infection are likely to be most effective very early in the course of disease, necessitating a precise and early diagnosis,” Dr. Hayes said. “Thus awareness is needed to help recognize the signs of symptoms of AFM, particularly among frontline clinicians.”

One reason for misdiagnosis is that AFM has features that overlap with other neuroinflammatory disorders, she said. “In many cases the patients are misdiagnosed as having benign or self-limiting processes that would not prompt the same monitoring and level of care.”

Numbness and prodromal illnesses were associated with misdiagnosis, she said, but otherwise most presenting symptoms were similar between the misdiagnosed and correctly diagnosed patients.

Neurologic disorders with similar features to AFM that the study identified were Guillain-Barré syndrome, spinal cord pathologies such as transverse myelitis, brain pathologies including acute disseminating encephalomyelitis, acute inclusion body encephalitis and stroke, and other neuroinflammatory conditions.

“There were also many patients diagnosed as having processes that in many cases would not prompt inpatient admission, would not involve neurology consultation, and would not be treated in a similar fashion to AFM,” Dr. Hayes said.

Those diagnoses included plexopathy, neuritis, Bell’s palsy, meningoencephalitis, nonspecific infectious illness or parainfectious autoimmune disease, or musculoskeletal problems including toxic or transient synovitis, myositis, fracture or sprain, or torticollis.

“We identified preceding illness and numbness as two features associated with misdiagnosis,” Dr. Hayes said.

“We evaluated illness severity by evaluating the need for invasive and noninvasive ventilation and found that, while not statistically significant, misdiagnosed patients had a trend toward higher need for such respiratory support,” she noted. Specifically, 31.6% of misdiagnosed patients required noninvasive ventilation versus 15.8% of promptly diagnosed patients (P = .06).

Dr. Hayes characterized the rates of ICU admissions between the two groups as not statistically significant: 52.5% and 36.8% for the misdiagnosed and promptly diagnosed groups, respectively (P = .1).

Both groups of patients received intravenous immunoglobulin in similar rates (77.9% and 81.6%, respectively, P = .63), but the misdiagnosed patients were much more likely to receive steroids, 68.2% versus 44.7% (P = .008). That’s likely because steroids are the standard treatment for the neuroinflammatory disorders that they were misdiagnosed with, Dr. Hayes said.

Timely diagnosis and treatment was more of an issue for the misdiagnosed patients; their diagnosis was made on average 5 days after the onset of symptoms versus 3 days (P < .001). “We found that time to treatment, particularly time to IVIg, was significantly longer in the misdiagnosed group,” Dr. Hayes said, at 5 versus 2 days (P < .001).

Dr. Hayes has no relevant financial relationships to disclose.

Among children with persistent postconcussion symptoms, poor recovery at 10 weeks is associated with higher cerebral blood flow at 4-6 weeks, according to a study presented at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Furthermore, cerebral blood flow at 4-6 weeks predicts recovery during the next 4 weeks in 77% of children.

“This is the first study to examine cerebral blood flow changes in children with persistent postconcussion symptoms,” said Karen Barlow, MBChB, associate professor of biomedical sciences at the University of Queensland in St. Lucia, Australia. “Our findings support the link between neurovascular unit dysfunction and persistent postconcussion symptoms in children, potentially because of injury or dysfunction in the GABAergic interneurons.”
 

Quantifying cerebral tissue perfusion

At least 25% of children with concussion have persistent postconcussion symptoms at 1 month post injury. Understanding the factors that influence the speed of recovery may help clarify the biology of postconcussion symptoms and suggest new treatments. In previous research, Dr. Barlow and colleagues found that children with early recovery (i.e., recovery by 4 weeks post injury) have decreases in cerebral blood flow, when compared with normal children. Children with persistent symptoms, however, have increases in cerebral blood flow. Dr. Barlow and colleagues conducted a new study to examine how cerebral blood flow changes in children with persistent postconcussion symptoms.

The investigators recruited participants through the randomized controlled Play Game trial, which examined melatonin as a treatment for persistent postconcussion symptoms. Among the exclusion criteria were history of assault, drug or alcohol use, significant past medical or psychiatric history, concussion within the previous 3 months, and use of psychoactive medications.

Children entered the study at 4-8 weeks after injury and received treatment for 4 weeks. Participants underwent 3-D pseudo-continuous arterial spin–labeled MRI before and after the treatment period (i.e., at 5 and 10 weeks post injury). This imaging technique provides a quantitative assessment of cerebral tissue perfusion. “You can do it without manipulating the cerebral circulation, making it particularly useful for research and in children,” said Dr. Barlow.

She and her colleagues evaluated recovery using the Post-Concussion Symptom Inventory. They defined good recovery as a total score at or below baseline at 10 weeks post injury. They considered any children who did not meet this criterion to have poor recovery.
 

Speed of blood-flow change varied

In all, 124 children were eligible for the study, and 76 had MRIs at both time points. Fourteen participants were excluded because of motion artifacts, slice truncation, and normalization failure. The population’s average age was approximately 14 years. About half of participants were males. The first MRI was performed at 37 days post injury, and the second MRI at around 70 days post injury. Twenty-three children had good recovery.

Children with poor recovery at 10 weeks had higher relative cerebral blood flow, compared with children with good recovery. Treatment group, age, and sex did not affect the changes in relative cerebral blood flow over time. Dr. Barlow and colleagues also measured mean total gray matter cerebral blood flow. Children with poor recovery had higher cerebral blood flow at 5 and 10 weeks post injury, compared with children with good recovery. In addition, cerebral blood flow changed more slowly in participants with poor recovery, compared with those with good recovery. Logistic regression analysis indicated that the mean absolute gray matter cerebral blood flow at 4-6 weeks post injury significantly predicted which children would recover by 10 weeks post injury, with an area under the receiver operating characteristic curve of 77%.

Funders for the study included Alberta Children’s Hospital, the Canadian Institutes of Health Research, and the University of Calgary. Dr. Barlow had no disclosures or conflicts of interest.

egreb@mdedge.com

SOURCE: Barlow K et al. CNS-ICNA 2020. Abstract PL100.

Among children with persistent postconcussion symptoms, poor recovery at 10 weeks is associated with higher cerebral blood flow at 4-6 weeks, according to a study presented at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Furthermore, cerebral blood flow at 4-6 weeks predicts recovery during the next 4 weeks in 77% of children.

“This is the first study to examine cerebral blood flow changes in children with persistent postconcussion symptoms,” said Karen Barlow, MBChB, associate professor of biomedical sciences at the University of Queensland in St. Lucia, Australia. “Our findings support the link between neurovascular unit dysfunction and persistent postconcussion symptoms in children, potentially because of injury or dysfunction in the GABAergic interneurons.”
 

Quantifying cerebral tissue perfusion

At least 25% of children with concussion have persistent postconcussion symptoms at 1 month post injury. Understanding the factors that influence the speed of recovery may help clarify the biology of postconcussion symptoms and suggest new treatments. In previous research, Dr. Barlow and colleagues found that children with early recovery (i.e., recovery by 4 weeks post injury) have decreases in cerebral blood flow, when compared with normal children. Children with persistent symptoms, however, have increases in cerebral blood flow. Dr. Barlow and colleagues conducted a new study to examine how cerebral blood flow changes in children with persistent postconcussion symptoms.

The investigators recruited participants through the randomized controlled Play Game trial, which examined melatonin as a treatment for persistent postconcussion symptoms. Among the exclusion criteria were history of assault, drug or alcohol use, significant past medical or psychiatric history, concussion within the previous 3 months, and use of psychoactive medications.

Children entered the study at 4-8 weeks after injury and received treatment for 4 weeks. Participants underwent 3-D pseudo-continuous arterial spin–labeled MRI before and after the treatment period (i.e., at 5 and 10 weeks post injury). This imaging technique provides a quantitative assessment of cerebral tissue perfusion. “You can do it without manipulating the cerebral circulation, making it particularly useful for research and in children,” said Dr. Barlow.

She and her colleagues evaluated recovery using the Post-Concussion Symptom Inventory. They defined good recovery as a total score at or below baseline at 10 weeks post injury. They considered any children who did not meet this criterion to have poor recovery.
 

Speed of blood-flow change varied

In all, 124 children were eligible for the study, and 76 had MRIs at both time points. Fourteen participants were excluded because of motion artifacts, slice truncation, and normalization failure. The population’s average age was approximately 14 years. About half of participants were males. The first MRI was performed at 37 days post injury, and the second MRI at around 70 days post injury. Twenty-three children had good recovery.

Children with poor recovery at 10 weeks had higher relative cerebral blood flow, compared with children with good recovery. Treatment group, age, and sex did not affect the changes in relative cerebral blood flow over time. Dr. Barlow and colleagues also measured mean total gray matter cerebral blood flow. Children with poor recovery had higher cerebral blood flow at 5 and 10 weeks post injury, compared with children with good recovery. In addition, cerebral blood flow changed more slowly in participants with poor recovery, compared with those with good recovery. Logistic regression analysis indicated that the mean absolute gray matter cerebral blood flow at 4-6 weeks post injury significantly predicted which children would recover by 10 weeks post injury, with an area under the receiver operating characteristic curve of 77%.

Funders for the study included Alberta Children’s Hospital, the Canadian Institutes of Health Research, and the University of Calgary. Dr. Barlow had no disclosures or conflicts of interest.

egreb@mdedge.com

SOURCE: Barlow K et al. CNS-ICNA 2020. Abstract PL100.

Among children with persistent postconcussion symptoms, poor recovery at 10 weeks is associated with higher cerebral blood flow at 4-6 weeks, according to a study presented at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Furthermore, cerebral blood flow at 4-6 weeks predicts recovery during the next 4 weeks in 77% of children.

“This is the first study to examine cerebral blood flow changes in children with persistent postconcussion symptoms,” said Karen Barlow, MBChB, associate professor of biomedical sciences at the University of Queensland in St. Lucia, Australia. “Our findings support the link between neurovascular unit dysfunction and persistent postconcussion symptoms in children, potentially because of injury or dysfunction in the GABAergic interneurons.”
 

Quantifying cerebral tissue perfusion

At least 25% of children with concussion have persistent postconcussion symptoms at 1 month post injury. Understanding the factors that influence the speed of recovery may help clarify the biology of postconcussion symptoms and suggest new treatments. In previous research, Dr. Barlow and colleagues found that children with early recovery (i.e., recovery by 4 weeks post injury) have decreases in cerebral blood flow, when compared with normal children. Children with persistent symptoms, however, have increases in cerebral blood flow. Dr. Barlow and colleagues conducted a new study to examine how cerebral blood flow changes in children with persistent postconcussion symptoms.

The investigators recruited participants through the randomized controlled Play Game trial, which examined melatonin as a treatment for persistent postconcussion symptoms. Among the exclusion criteria were history of assault, drug or alcohol use, significant past medical or psychiatric history, concussion within the previous 3 months, and use of psychoactive medications.

Children entered the study at 4-8 weeks after injury and received treatment for 4 weeks. Participants underwent 3-D pseudo-continuous arterial spin–labeled MRI before and after the treatment period (i.e., at 5 and 10 weeks post injury). This imaging technique provides a quantitative assessment of cerebral tissue perfusion. “You can do it without manipulating the cerebral circulation, making it particularly useful for research and in children,” said Dr. Barlow.

She and her colleagues evaluated recovery using the Post-Concussion Symptom Inventory. They defined good recovery as a total score at or below baseline at 10 weeks post injury. They considered any children who did not meet this criterion to have poor recovery.
 

Speed of blood-flow change varied

In all, 124 children were eligible for the study, and 76 had MRIs at both time points. Fourteen participants were excluded because of motion artifacts, slice truncation, and normalization failure. The population’s average age was approximately 14 years. About half of participants were males. The first MRI was performed at 37 days post injury, and the second MRI at around 70 days post injury. Twenty-three children had good recovery.

Children with poor recovery at 10 weeks had higher relative cerebral blood flow, compared with children with good recovery. Treatment group, age, and sex did not affect the changes in relative cerebral blood flow over time. Dr. Barlow and colleagues also measured mean total gray matter cerebral blood flow. Children with poor recovery had higher cerebral blood flow at 5 and 10 weeks post injury, compared with children with good recovery. In addition, cerebral blood flow changed more slowly in participants with poor recovery, compared with those with good recovery. Logistic regression analysis indicated that the mean absolute gray matter cerebral blood flow at 4-6 weeks post injury significantly predicted which children would recover by 10 weeks post injury, with an area under the receiver operating characteristic curve of 77%.

Funders for the study included Alberta Children’s Hospital, the Canadian Institutes of Health Research, and the University of Calgary. Dr. Barlow had no disclosures or conflicts of interest.

egreb@mdedge.com

SOURCE: Barlow K et al. CNS-ICNA 2020. Abstract PL100.

Nusinersen provides continued, long-term benefits to infants with spinal muscular atrophy (SMA) who begin treatment before symptom onset, according to an analysis presented at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year.

“Children are developing in a manner more consistent with normal development than that expected for children with two and three SMN2 gene copies,” said Russell Chin, MD, a neurologist at New York–Presbyterian Hospital. “These data demonstrate the durability of effect over a median of 3.8 years of follow-up, with children aged 2.8-4.8 years at the last visit.”

Many participants in the study achieved motor milestones within normal time limits, and no participant lost any major motor milestones. The investigators did not identify any new safety concerns during a maximum of 4.7 years of follow-up. They will follow participants until they reach approximately 8 years of age.
 

An ongoing open-label study

Dr. Chin presented interim results of the ongoing NURTURE study, which is examining the efficacy and safety of intrathecal nusinersen when administered to presymptomatic infants with SMA. The open-label, single-arm, phase 2 study is being conducted in various countries. Eligible participants were 6 weeks old or younger at first dose and had two or three copies of SMN2. The primary end point of NURTURE is time to death or respiratory intervention (i.e., invasive or noninvasive ventilation for 6 or more hours per day continuously for 7 or more days or tracheostomy). The natural history of SMA type 1 indicates that the median age at death or requirement for ventilation support is 13.5 months.

The investigators enrolled 25 infants: 15 with two copies of the gene and 10 with three copies. At the February 2020 interim analysis, participants had been in the study for 3.8 years and were aged 2.8-4.8 years at the last visit. No children had discontinued treatment or withdrawn from the study. All participants are alive, and four participants (all of whom have two copies of SMN2) required respiratory intervention. The latter children initiated respiratory support during an acute reversible illness. No subjects have required permanent ventilation, which the investigators define as ventilation for 16 or more hours per day for more than 21 days in the absence of an acute reversible event, or tracheostomy.
 

Treatment improved motor development

Approximately 84% of children achieved a maximum score on the Children’s Hospital of Philadelphia Infant Test of Neuromuscular Disorders (CHOP INTEND) scale. The population’s mean CHOP INTEND score increased steadily from baseline and stabilized at approximately the maximum score of 64. The population’s mean change in CHOP INTEND score from baseline to last visit was 13.6 points. The mean score at last visit was 62.0 among patients with two copies of SMN2 and 63.4 among patients with three copies. In addition, the time to first achievement of maximum CHOP INTEND score was shorter in participants with three copies of SMN2, compared with those with two. Four participants with two copies of the gene have not yet achieved a maximum CHOP INTEND score.

Many of the children in the study achieved World Health Organization motor milestones within time frames consistent with normal development. About 84% of participants became able to sit without support within the normal time frame in healthy children. Approximately 60% of children achieved walking with assistance within the normal window, and 64% achieved walking alone within the normal window. Of 25 participants, 24 are walking with assistance, and 22 of 25 (88%) can walk alone. Dr. Chin and colleagues observed that lower levels of phosphorylated neurofilament heavy chain in plasma and cerebrospinal fluid on treatment at day 64 were significantly correlated with higher total score on the Hammersmith Infant Neurological Examination at day 302 and with earlier achievement of the WHO milestone walking alone.

Nusinersen and lumbar puncture were well tolerated. No children discontinued treatment or withdrew from the study because of an adverse event. The investigators did not consider any adverse events or serious adverse events to be related to the study drug. They also did not observe any clinically relevant trends related to nusinersen in hematology, blood chemistry, urinalysis, coagulation, vital signs, or ECGs.

Dr. Chin is an employee of and holds stock in Biogen, which manufactures nusinersen and is sponsoring the study.

egreb@mdedge.com

SOURCE: Chin R et al. CNS-ICNA 2020, Abstract PL78.

Nusinersen provides continued, long-term benefits to infants with spinal muscular atrophy (SMA) who begin treatment before symptom onset, according to an analysis presented at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year.

“Children are developing in a manner more consistent with normal development than that expected for children with two and three SMN2 gene copies,” said Russell Chin, MD, a neurologist at New York–Presbyterian Hospital. “These data demonstrate the durability of effect over a median of 3.8 years of follow-up, with children aged 2.8-4.8 years at the last visit.”

Many participants in the study achieved motor milestones within normal time limits, and no participant lost any major motor milestones. The investigators did not identify any new safety concerns during a maximum of 4.7 years of follow-up. They will follow participants until they reach approximately 8 years of age.
 

An ongoing open-label study

Dr. Chin presented interim results of the ongoing NURTURE study, which is examining the efficacy and safety of intrathecal nusinersen when administered to presymptomatic infants with SMA. The open-label, single-arm, phase 2 study is being conducted in various countries. Eligible participants were 6 weeks old or younger at first dose and had two or three copies of SMN2. The primary end point of NURTURE is time to death or respiratory intervention (i.e., invasive or noninvasive ventilation for 6 or more hours per day continuously for 7 or more days or tracheostomy). The natural history of SMA type 1 indicates that the median age at death or requirement for ventilation support is 13.5 months.

The investigators enrolled 25 infants: 15 with two copies of the gene and 10 with three copies. At the February 2020 interim analysis, participants had been in the study for 3.8 years and were aged 2.8-4.8 years at the last visit. No children had discontinued treatment or withdrawn from the study. All participants are alive, and four participants (all of whom have two copies of SMN2) required respiratory intervention. The latter children initiated respiratory support during an acute reversible illness. No subjects have required permanent ventilation, which the investigators define as ventilation for 16 or more hours per day for more than 21 days in the absence of an acute reversible event, or tracheostomy.
 

Treatment improved motor development

Approximately 84% of children achieved a maximum score on the Children’s Hospital of Philadelphia Infant Test of Neuromuscular Disorders (CHOP INTEND) scale. The population’s mean CHOP INTEND score increased steadily from baseline and stabilized at approximately the maximum score of 64. The population’s mean change in CHOP INTEND score from baseline to last visit was 13.6 points. The mean score at last visit was 62.0 among patients with two copies of SMN2 and 63.4 among patients with three copies. In addition, the time to first achievement of maximum CHOP INTEND score was shorter in participants with three copies of SMN2, compared with those with two. Four participants with two copies of the gene have not yet achieved a maximum CHOP INTEND score.

Many of the children in the study achieved World Health Organization motor milestones within time frames consistent with normal development. About 84% of participants became able to sit without support within the normal time frame in healthy children. Approximately 60% of children achieved walking with assistance within the normal window, and 64% achieved walking alone within the normal window. Of 25 participants, 24 are walking with assistance, and 22 of 25 (88%) can walk alone. Dr. Chin and colleagues observed that lower levels of phosphorylated neurofilament heavy chain in plasma and cerebrospinal fluid on treatment at day 64 were significantly correlated with higher total score on the Hammersmith Infant Neurological Examination at day 302 and with earlier achievement of the WHO milestone walking alone.

Nusinersen and lumbar puncture were well tolerated. No children discontinued treatment or withdrew from the study because of an adverse event. The investigators did not consider any adverse events or serious adverse events to be related to the study drug. They also did not observe any clinically relevant trends related to nusinersen in hematology, blood chemistry, urinalysis, coagulation, vital signs, or ECGs.

Dr. Chin is an employee of and holds stock in Biogen, which manufactures nusinersen and is sponsoring the study.

egreb@mdedge.com

SOURCE: Chin R et al. CNS-ICNA 2020, Abstract PL78.

Nusinersen provides continued, long-term benefits to infants with spinal muscular atrophy (SMA) who begin treatment before symptom onset, according to an analysis presented at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year.

“Children are developing in a manner more consistent with normal development than that expected for children with two and three SMN2 gene copies,” said Russell Chin, MD, a neurologist at New York–Presbyterian Hospital. “These data demonstrate the durability of effect over a median of 3.8 years of follow-up, with children aged 2.8-4.8 years at the last visit.”

Many participants in the study achieved motor milestones within normal time limits, and no participant lost any major motor milestones. The investigators did not identify any new safety concerns during a maximum of 4.7 years of follow-up. They will follow participants until they reach approximately 8 years of age.
 

An ongoing open-label study

Dr. Chin presented interim results of the ongoing NURTURE study, which is examining the efficacy and safety of intrathecal nusinersen when administered to presymptomatic infants with SMA. The open-label, single-arm, phase 2 study is being conducted in various countries. Eligible participants were 6 weeks old or younger at first dose and had two or three copies of SMN2. The primary end point of NURTURE is time to death or respiratory intervention (i.e., invasive or noninvasive ventilation for 6 or more hours per day continuously for 7 or more days or tracheostomy). The natural history of SMA type 1 indicates that the median age at death or requirement for ventilation support is 13.5 months.

The investigators enrolled 25 infants: 15 with two copies of the gene and 10 with three copies. At the February 2020 interim analysis, participants had been in the study for 3.8 years and were aged 2.8-4.8 years at the last visit. No children had discontinued treatment or withdrawn from the study. All participants are alive, and four participants (all of whom have two copies of SMN2) required respiratory intervention. The latter children initiated respiratory support during an acute reversible illness. No subjects have required permanent ventilation, which the investigators define as ventilation for 16 or more hours per day for more than 21 days in the absence of an acute reversible event, or tracheostomy.
 

Treatment improved motor development

Approximately 84% of children achieved a maximum score on the Children’s Hospital of Philadelphia Infant Test of Neuromuscular Disorders (CHOP INTEND) scale. The population’s mean CHOP INTEND score increased steadily from baseline and stabilized at approximately the maximum score of 64. The population’s mean change in CHOP INTEND score from baseline to last visit was 13.6 points. The mean score at last visit was 62.0 among patients with two copies of SMN2 and 63.4 among patients with three copies. In addition, the time to first achievement of maximum CHOP INTEND score was shorter in participants with three copies of SMN2, compared with those with two. Four participants with two copies of the gene have not yet achieved a maximum CHOP INTEND score.

Many of the children in the study achieved World Health Organization motor milestones within time frames consistent with normal development. About 84% of participants became able to sit without support within the normal time frame in healthy children. Approximately 60% of children achieved walking with assistance within the normal window, and 64% achieved walking alone within the normal window. Of 25 participants, 24 are walking with assistance, and 22 of 25 (88%) can walk alone. Dr. Chin and colleagues observed that lower levels of phosphorylated neurofilament heavy chain in plasma and cerebrospinal fluid on treatment at day 64 were significantly correlated with higher total score on the Hammersmith Infant Neurological Examination at day 302 and with earlier achievement of the WHO milestone walking alone.

Nusinersen and lumbar puncture were well tolerated. No children discontinued treatment or withdrew from the study because of an adverse event. The investigators did not consider any adverse events or serious adverse events to be related to the study drug. They also did not observe any clinically relevant trends related to nusinersen in hematology, blood chemistry, urinalysis, coagulation, vital signs, or ECGs.

Dr. Chin is an employee of and holds stock in Biogen, which manufactures nusinersen and is sponsoring the study.

egreb@mdedge.com

SOURCE: Chin R et al. CNS-ICNA 2020, Abstract PL78.

Two recently completed analyses of highly purified cannabidiol (CBD) used to reduce seizures in Lennox Gastaut syndrome (LGS) have shown the formulation as an add-on treatment is effective in reducing seizures out to 3 years but that it can also cause thrombocytopenia in children on concurrent valproic acid therapy.

At the 2020 CNS-ICNA Conjoint Meeting, held virtually this year, Anul Patel, MD, section chief of Pediatric neurology at Nationwide Children’s and associate professor of clinical pediatrics and neurology at the Ohio State University, both in Columbus, Ohio, reported 156-week results of an open-label extension trial called GWPCARE5 that showed patients with LGS taking Epidiolex had a 60% or greater average reduction in seizures, compared with baseline. Epidiolex, a highly purified form of CBD, was approved by the Food and Drug Administration in 2018 for LGS and Dravet syndrome.

In a separate presentation, Nancy A. McNamara, MD, an assistant professor at the C.S. Mott Children’s Hospital at the University of Michigan, Ann Arbor, said that more than one-third of patients taking both Epidiolex and valproic acid (VPA) developed thrombocytopenia after starting CBD therapy. The single-center chart review she reported on included 83 patients.

Daniel Friedman, MD, an epilepsy specialist at New York University who’s researched CBD in children with autism spectrum disorder, said, “These studies show that, while purified CBD has durable effects on the most disabling seizures in children and adults with LGS, like all treatments, it is not without risks that warrant attention and monitoring.” 
 

Open-label extension study

The open-label extension study included 366 patients who participated in the two previous clinical trials. They were given varying doses of CBD titrated over 2 weeks with 20 mg/kg as the target dose, Dr. Patel said. The most common concurrent therapies they were taking were clobazam, valproate or VPA, lamotrigine, levetiracetam, and rufinamide. At weeks 145-156, 67% of patients had a 50% or greater reduction in seizures, 44% had a 75% or greater reduction, and 9% stopped having seizures altogether, Dr. Patel said.

“CBD treatment had a similar safety profile to what was observed in the completed parent randomized clinical trials,” Dr. Patel said. “Sustained reductions in drop and total seizures were observed up to the 156-week follow-up point. So these results demonstrate the potential long-term benefits of CBD treatment for patients with LGS as it relates to reduction of their seizures.”

Adverse event profiles in this analysis were similar to previous clinical trials, he noted. The three most common adverse events were diarrhea (38%), convulsion (38%) and pyrexia (34%), but high percentages of those adverse events resolved during follow-up: 78%, 80%, and 96%, respectively.

Dr. Patel also noted that 31% of patients had elevated liver enzymes (alanine aminotransferase or aspartate aminotransferase), but most of these patients – 78 of 113, or 69% – were on concomitant VPA. “Importantly, no patient met the standard criteria for severe drug-induced liver injury, known as Hy’s law,” he said.

Retention rates for patients were 81% at 1 year, 69% at 2 years and 65% at 3 years, Dr. Patel said.
 

“An urgent systemic review”

Dr. McNamara’s research drilled down into the interaction of CBD and VPA. “Over the past several months we have made observations that several patients that had been started on CBD, also known as Epidiolex, had developed thrombocytopenia, some of which were symptomatic,” she said. Symptoms included hematuria, easy bruising, and gingival bleeding.

That prompted what Dr. McNamara called “an urgent systemic review” of all patients on CBD. Of 83 patients started on CBD for LGS from January to August 2019, 9 (11%) developed thrombocytopenia. “All of these patients were on concurrent VPA and no patients started on CBD without VPA developed thrombocytopenia,” she said. In all, 23 patients were taking CBD concurrently with VPA. Four of nine cases were symptomatic.

“The thrombocytopenia was reversible in all patients with reduction of medication and one patient recovered spontaneously without intervention,” Dr. McNamara noted.

“This was an important finding because this was not something that had come out of the clinical trials prior to FDA approval,” Dr. McNamara said. “This requires closer monitoring for patients who are started on CBD who are already on VPA.”

Of the 23 patients taking concurrent VPA, 10 had low platelet counts after starting CBD. In six patients, platelet counts dropped from normal before CBD therapy to low afterward.

The study used a McNemar test to determine if an observed adverse event occurred by chance or was related to starting a drug, which yielded a P value of .125, Dr. McNamara said. “While this did not achieve statistical significance, we suggest that prescribers closely monitor platelet levels after starting CBD, particularly when a patient is also on concurrent VPA,” she said.

Her group obtained a complete blood count at baseline and then at 1, 3, and 6 months after starting the patient on CBD, along with evaluation of alanine aminotransferase and aspartate aminotransferase. “We believe that this is helpful because most of the patients that develop low platelets did so within 3 months of starting cannabidiol,” Dr. McNamara said.

She acknowledged the limits of the single-center study. “Future research will need to be done with larger cohorts with standardized surveillance labs,” she said in an interview.

Dr. Patel disclosed financial relationships with GW Research and Greenwich Biosciences. Dr. McNamara has no relevant disclosures.

Two recently completed analyses of highly purified cannabidiol (CBD) used to reduce seizures in Lennox Gastaut syndrome (LGS) have shown the formulation as an add-on treatment is effective in reducing seizures out to 3 years but that it can also cause thrombocytopenia in children on concurrent valproic acid therapy.

At the 2020 CNS-ICNA Conjoint Meeting, held virtually this year, Anul Patel, MD, section chief of Pediatric neurology at Nationwide Children’s and associate professor of clinical pediatrics and neurology at the Ohio State University, both in Columbus, Ohio, reported 156-week results of an open-label extension trial called GWPCARE5 that showed patients with LGS taking Epidiolex had a 60% or greater average reduction in seizures, compared with baseline. Epidiolex, a highly purified form of CBD, was approved by the Food and Drug Administration in 2018 for LGS and Dravet syndrome.

In a separate presentation, Nancy A. McNamara, MD, an assistant professor at the C.S. Mott Children’s Hospital at the University of Michigan, Ann Arbor, said that more than one-third of patients taking both Epidiolex and valproic acid (VPA) developed thrombocytopenia after starting CBD therapy. The single-center chart review she reported on included 83 patients.

Daniel Friedman, MD, an epilepsy specialist at New York University who’s researched CBD in children with autism spectrum disorder, said, “These studies show that, while purified CBD has durable effects on the most disabling seizures in children and adults with LGS, like all treatments, it is not without risks that warrant attention and monitoring.” 
 

Open-label extension study

The open-label extension study included 366 patients who participated in the two previous clinical trials. They were given varying doses of CBD titrated over 2 weeks with 20 mg/kg as the target dose, Dr. Patel said. The most common concurrent therapies they were taking were clobazam, valproate or VPA, lamotrigine, levetiracetam, and rufinamide. At weeks 145-156, 67% of patients had a 50% or greater reduction in seizures, 44% had a 75% or greater reduction, and 9% stopped having seizures altogether, Dr. Patel said.

“CBD treatment had a similar safety profile to what was observed in the completed parent randomized clinical trials,” Dr. Patel said. “Sustained reductions in drop and total seizures were observed up to the 156-week follow-up point. So these results demonstrate the potential long-term benefits of CBD treatment for patients with LGS as it relates to reduction of their seizures.”

Adverse event profiles in this analysis were similar to previous clinical trials, he noted. The three most common adverse events were diarrhea (38%), convulsion (38%) and pyrexia (34%), but high percentages of those adverse events resolved during follow-up: 78%, 80%, and 96%, respectively.

Dr. Patel also noted that 31% of patients had elevated liver enzymes (alanine aminotransferase or aspartate aminotransferase), but most of these patients – 78 of 113, or 69% – were on concomitant VPA. “Importantly, no patient met the standard criteria for severe drug-induced liver injury, known as Hy’s law,” he said.

Retention rates for patients were 81% at 1 year, 69% at 2 years and 65% at 3 years, Dr. Patel said.
 

“An urgent systemic review”

Dr. McNamara’s research drilled down into the interaction of CBD and VPA. “Over the past several months we have made observations that several patients that had been started on CBD, also known as Epidiolex, had developed thrombocytopenia, some of which were symptomatic,” she said. Symptoms included hematuria, easy bruising, and gingival bleeding.

That prompted what Dr. McNamara called “an urgent systemic review” of all patients on CBD. Of 83 patients started on CBD for LGS from January to August 2019, 9 (11%) developed thrombocytopenia. “All of these patients were on concurrent VPA and no patients started on CBD without VPA developed thrombocytopenia,” she said. In all, 23 patients were taking CBD concurrently with VPA. Four of nine cases were symptomatic.

“The thrombocytopenia was reversible in all patients with reduction of medication and one patient recovered spontaneously without intervention,” Dr. McNamara noted.

“This was an important finding because this was not something that had come out of the clinical trials prior to FDA approval,” Dr. McNamara said. “This requires closer monitoring for patients who are started on CBD who are already on VPA.”

Of the 23 patients taking concurrent VPA, 10 had low platelet counts after starting CBD. In six patients, platelet counts dropped from normal before CBD therapy to low afterward.

The study used a McNemar test to determine if an observed adverse event occurred by chance or was related to starting a drug, which yielded a P value of .125, Dr. McNamara said. “While this did not achieve statistical significance, we suggest that prescribers closely monitor platelet levels after starting CBD, particularly when a patient is also on concurrent VPA,” she said.

Her group obtained a complete blood count at baseline and then at 1, 3, and 6 months after starting the patient on CBD, along with evaluation of alanine aminotransferase and aspartate aminotransferase. “We believe that this is helpful because most of the patients that develop low platelets did so within 3 months of starting cannabidiol,” Dr. McNamara said.

She acknowledged the limits of the single-center study. “Future research will need to be done with larger cohorts with standardized surveillance labs,” she said in an interview.

Dr. Patel disclosed financial relationships with GW Research and Greenwich Biosciences. Dr. McNamara has no relevant disclosures.

Two recently completed analyses of highly purified cannabidiol (CBD) used to reduce seizures in Lennox Gastaut syndrome (LGS) have shown the formulation as an add-on treatment is effective in reducing seizures out to 3 years but that it can also cause thrombocytopenia in children on concurrent valproic acid therapy.

At the 2020 CNS-ICNA Conjoint Meeting, held virtually this year, Anul Patel, MD, section chief of Pediatric neurology at Nationwide Children’s and associate professor of clinical pediatrics and neurology at the Ohio State University, both in Columbus, Ohio, reported 156-week results of an open-label extension trial called GWPCARE5 that showed patients with LGS taking Epidiolex had a 60% or greater average reduction in seizures, compared with baseline. Epidiolex, a highly purified form of CBD, was approved by the Food and Drug Administration in 2018 for LGS and Dravet syndrome.

In a separate presentation, Nancy A. McNamara, MD, an assistant professor at the C.S. Mott Children’s Hospital at the University of Michigan, Ann Arbor, said that more than one-third of patients taking both Epidiolex and valproic acid (VPA) developed thrombocytopenia after starting CBD therapy. The single-center chart review she reported on included 83 patients.

Daniel Friedman, MD, an epilepsy specialist at New York University who’s researched CBD in children with autism spectrum disorder, said, “These studies show that, while purified CBD has durable effects on the most disabling seizures in children and adults with LGS, like all treatments, it is not without risks that warrant attention and monitoring.” 
 

Open-label extension study

The open-label extension study included 366 patients who participated in the two previous clinical trials. They were given varying doses of CBD titrated over 2 weeks with 20 mg/kg as the target dose, Dr. Patel said. The most common concurrent therapies they were taking were clobazam, valproate or VPA, lamotrigine, levetiracetam, and rufinamide. At weeks 145-156, 67% of patients had a 50% or greater reduction in seizures, 44% had a 75% or greater reduction, and 9% stopped having seizures altogether, Dr. Patel said.

“CBD treatment had a similar safety profile to what was observed in the completed parent randomized clinical trials,” Dr. Patel said. “Sustained reductions in drop and total seizures were observed up to the 156-week follow-up point. So these results demonstrate the potential long-term benefits of CBD treatment for patients with LGS as it relates to reduction of their seizures.”

Adverse event profiles in this analysis were similar to previous clinical trials, he noted. The three most common adverse events were diarrhea (38%), convulsion (38%) and pyrexia (34%), but high percentages of those adverse events resolved during follow-up: 78%, 80%, and 96%, respectively.

Dr. Patel also noted that 31% of patients had elevated liver enzymes (alanine aminotransferase or aspartate aminotransferase), but most of these patients – 78 of 113, or 69% – were on concomitant VPA. “Importantly, no patient met the standard criteria for severe drug-induced liver injury, known as Hy’s law,” he said.

Retention rates for patients were 81% at 1 year, 69% at 2 years and 65% at 3 years, Dr. Patel said.
 

“An urgent systemic review”

Dr. McNamara’s research drilled down into the interaction of CBD and VPA. “Over the past several months we have made observations that several patients that had been started on CBD, also known as Epidiolex, had developed thrombocytopenia, some of which were symptomatic,” she said. Symptoms included hematuria, easy bruising, and gingival bleeding.

That prompted what Dr. McNamara called “an urgent systemic review” of all patients on CBD. Of 83 patients started on CBD for LGS from January to August 2019, 9 (11%) developed thrombocytopenia. “All of these patients were on concurrent VPA and no patients started on CBD without VPA developed thrombocytopenia,” she said. In all, 23 patients were taking CBD concurrently with VPA. Four of nine cases were symptomatic.

“The thrombocytopenia was reversible in all patients with reduction of medication and one patient recovered spontaneously without intervention,” Dr. McNamara noted.

“This was an important finding because this was not something that had come out of the clinical trials prior to FDA approval,” Dr. McNamara said. “This requires closer monitoring for patients who are started on CBD who are already on VPA.”

Of the 23 patients taking concurrent VPA, 10 had low platelet counts after starting CBD. In six patients, platelet counts dropped from normal before CBD therapy to low afterward.

The study used a McNemar test to determine if an observed adverse event occurred by chance or was related to starting a drug, which yielded a P value of .125, Dr. McNamara said. “While this did not achieve statistical significance, we suggest that prescribers closely monitor platelet levels after starting CBD, particularly when a patient is also on concurrent VPA,” she said.

Her group obtained a complete blood count at baseline and then at 1, 3, and 6 months after starting the patient on CBD, along with evaluation of alanine aminotransferase and aspartate aminotransferase. “We believe that this is helpful because most of the patients that develop low platelets did so within 3 months of starting cannabidiol,” Dr. McNamara said.

She acknowledged the limits of the single-center study. “Future research will need to be done with larger cohorts with standardized surveillance labs,” she said in an interview.

Dr. Patel disclosed financial relationships with GW Research and Greenwich Biosciences. Dr. McNamara has no relevant disclosures.