TBD Meeting (4714-21)

Omaveloxolone, an activator of the protein Nrf2 that protects against inflammation, has shown a potentially beneficial effect in slowing the progression of Friedreich’s ataxia out to more than 2 years, according to results of a clinical trial presented as a late-breaking abstract at the International Congress of Parkinson’s Disease and Movement Disorders.

The study, labeled the Delayed-Start Study, is an extension study of the two-part MOXIE phase 2 trial of omaveloxolone.

“This study shows two things,” said David Lynch, MD, PhD, of Children’s Hospital of Philadelphia. “It doesn’t matter when you started omaveloxolone for you to see a benefit; and that the benefit that the active group saw in the first part of the study was maintained as they went into the delayed-start part. So in fact omaveloxolone does modify the long-term behavior of the disease.”

Friedreich’s ataxia only affects about 22,000 people worldwide, and children typically present between the ages of 5 and 15, Dr. Lynch said.

The extension study included 73 patients who completed either of the first two parts of the MOXIe trial. The MOXIe trial randomized patients on a 3:1 basis to either omaveloxolone 2.5-300 mg or placebo for 12 weeks in the first part. The second part was a double-blind trial of 103 patients randomized on a 1:1 basis to 150 mg omaveloxolone or placebo for 48 weeks. Participants had a baseline modified Friedreich’s ataxia scale (mFARS) of 20-80 and were aged 16-40 years.

Patients in the extension study did not have severe pes cavus. The extension study was a 72-week evaluation of patients who were in either the treatment or placebo groups in the first two parts. There was a 4-week off-treatment period between the end of MOXIe part 2 and the beginning of the extension study, in which all patients received omaveloxolone.

At the end of the placebo-controlled study, patients taking omaveloxolone showed a –2.18-point (±0.96) difference in improvement in mFARS score (P = .027), compared with the placebo group, which was preserved at the end of the delayed-start period, with a –2.92-point (±2.13) improvement (P = .179), Dr. Lynch said.

In the extension study, former placebo patients who went on omaveloxolone had annualized mFARS slopes similar to the previously treated patients – 0.29 (±0.68) and 0.17 (±0.61), respectively (P = .85) – from weeks 48 to 144, Dr. Lynch said.

“This study showed that, when analyzed in a delayed-start fashion, it does not matter when you start omaveloxolone to see a benefit: Each cohort benefited almost equally once they started the drug,” Dr. Lynch said in an interview. “Also, in both groups, once they started omaveloxolone, they changed slower than people in natural history studies.”
 

A clinically meaningful difference?

Reached for comment, Massimo Pandolfo, MD, a neurologist at McGill University, Montreal, noted that the Delayed-Start Study included only patients without pes cavus, an indication that the patients had less severe disease. “It would be important to see how overall patients with Friedreich’s ataxia would have responded to the medication without this kind of selection,” Dr. Pandolfo said in an interview.

He also noted that the seemingly modest improvement in mFARS score could be an issue. “It’s a very difficult question: What is a clinically meaningful difference in this kind of rating scale? I would argue that probably 2 points is not a huge difference by itself, but it may be meaningful and one indicator of that is that if it was accompanied by also a significant difference in activities of daily living scale.”

In any event, Dr. Pandolfo said this is the first medication for Friedreich’s ataxia that has “survived” a randomized clinical trial.

Dr. Lynch said the study sponsor, Reata, may prepare a new drug application for omaveloxolone in patients ages 16 and older. “That would leave a need for investigation in younger FA patients.”

Dr. Lynch disclosed that his institution receives a grant from trial sponsor Reata to conduct the MOXIe trial. Dr. Pandolfo reports financial relationships with Design Therapeutics, Exicure and Voyager Therapeutics.
 

Omaveloxolone, an activator of the protein Nrf2 that protects against inflammation, has shown a potentially beneficial effect in slowing the progression of Friedreich’s ataxia out to more than 2 years, according to results of a clinical trial presented as a late-breaking abstract at the International Congress of Parkinson’s Disease and Movement Disorders.

The study, labeled the Delayed-Start Study, is an extension study of the two-part MOXIE phase 2 trial of omaveloxolone.

“This study shows two things,” said David Lynch, MD, PhD, of Children’s Hospital of Philadelphia. “It doesn’t matter when you started omaveloxolone for you to see a benefit; and that the benefit that the active group saw in the first part of the study was maintained as they went into the delayed-start part. So in fact omaveloxolone does modify the long-term behavior of the disease.”

Friedreich’s ataxia only affects about 22,000 people worldwide, and children typically present between the ages of 5 and 15, Dr. Lynch said.

The extension study included 73 patients who completed either of the first two parts of the MOXIe trial. The MOXIe trial randomized patients on a 3:1 basis to either omaveloxolone 2.5-300 mg or placebo for 12 weeks in the first part. The second part was a double-blind trial of 103 patients randomized on a 1:1 basis to 150 mg omaveloxolone or placebo for 48 weeks. Participants had a baseline modified Friedreich’s ataxia scale (mFARS) of 20-80 and were aged 16-40 years.

Patients in the extension study did not have severe pes cavus. The extension study was a 72-week evaluation of patients who were in either the treatment or placebo groups in the first two parts. There was a 4-week off-treatment period between the end of MOXIe part 2 and the beginning of the extension study, in which all patients received omaveloxolone.

At the end of the placebo-controlled study, patients taking omaveloxolone showed a –2.18-point (±0.96) difference in improvement in mFARS score (P = .027), compared with the placebo group, which was preserved at the end of the delayed-start period, with a –2.92-point (±2.13) improvement (P = .179), Dr. Lynch said.

In the extension study, former placebo patients who went on omaveloxolone had annualized mFARS slopes similar to the previously treated patients – 0.29 (±0.68) and 0.17 (±0.61), respectively (P = .85) – from weeks 48 to 144, Dr. Lynch said.

“This study showed that, when analyzed in a delayed-start fashion, it does not matter when you start omaveloxolone to see a benefit: Each cohort benefited almost equally once they started the drug,” Dr. Lynch said in an interview. “Also, in both groups, once they started omaveloxolone, they changed slower than people in natural history studies.”
 

A clinically meaningful difference?

Reached for comment, Massimo Pandolfo, MD, a neurologist at McGill University, Montreal, noted that the Delayed-Start Study included only patients without pes cavus, an indication that the patients had less severe disease. “It would be important to see how overall patients with Friedreich’s ataxia would have responded to the medication without this kind of selection,” Dr. Pandolfo said in an interview.

He also noted that the seemingly modest improvement in mFARS score could be an issue. “It’s a very difficult question: What is a clinically meaningful difference in this kind of rating scale? I would argue that probably 2 points is not a huge difference by itself, but it may be meaningful and one indicator of that is that if it was accompanied by also a significant difference in activities of daily living scale.”

In any event, Dr. Pandolfo said this is the first medication for Friedreich’s ataxia that has “survived” a randomized clinical trial.

Dr. Lynch said the study sponsor, Reata, may prepare a new drug application for omaveloxolone in patients ages 16 and older. “That would leave a need for investigation in younger FA patients.”

Dr. Lynch disclosed that his institution receives a grant from trial sponsor Reata to conduct the MOXIe trial. Dr. Pandolfo reports financial relationships with Design Therapeutics, Exicure and Voyager Therapeutics.
 

Omaveloxolone, an activator of the protein Nrf2 that protects against inflammation, has shown a potentially beneficial effect in slowing the progression of Friedreich’s ataxia out to more than 2 years, according to results of a clinical trial presented as a late-breaking abstract at the International Congress of Parkinson’s Disease and Movement Disorders.

The study, labeled the Delayed-Start Study, is an extension study of the two-part MOXIE phase 2 trial of omaveloxolone.

“This study shows two things,” said David Lynch, MD, PhD, of Children’s Hospital of Philadelphia. “It doesn’t matter when you started omaveloxolone for you to see a benefit; and that the benefit that the active group saw in the first part of the study was maintained as they went into the delayed-start part. So in fact omaveloxolone does modify the long-term behavior of the disease.”

Friedreich’s ataxia only affects about 22,000 people worldwide, and children typically present between the ages of 5 and 15, Dr. Lynch said.

The extension study included 73 patients who completed either of the first two parts of the MOXIe trial. The MOXIe trial randomized patients on a 3:1 basis to either omaveloxolone 2.5-300 mg or placebo for 12 weeks in the first part. The second part was a double-blind trial of 103 patients randomized on a 1:1 basis to 150 mg omaveloxolone or placebo for 48 weeks. Participants had a baseline modified Friedreich’s ataxia scale (mFARS) of 20-80 and were aged 16-40 years.

Patients in the extension study did not have severe pes cavus. The extension study was a 72-week evaluation of patients who were in either the treatment or placebo groups in the first two parts. There was a 4-week off-treatment period between the end of MOXIe part 2 and the beginning of the extension study, in which all patients received omaveloxolone.

At the end of the placebo-controlled study, patients taking omaveloxolone showed a –2.18-point (±0.96) difference in improvement in mFARS score (P = .027), compared with the placebo group, which was preserved at the end of the delayed-start period, with a –2.92-point (±2.13) improvement (P = .179), Dr. Lynch said.

In the extension study, former placebo patients who went on omaveloxolone had annualized mFARS slopes similar to the previously treated patients – 0.29 (±0.68) and 0.17 (±0.61), respectively (P = .85) – from weeks 48 to 144, Dr. Lynch said.

“This study showed that, when analyzed in a delayed-start fashion, it does not matter when you start omaveloxolone to see a benefit: Each cohort benefited almost equally once they started the drug,” Dr. Lynch said in an interview. “Also, in both groups, once they started omaveloxolone, they changed slower than people in natural history studies.”
 

A clinically meaningful difference?

Reached for comment, Massimo Pandolfo, MD, a neurologist at McGill University, Montreal, noted that the Delayed-Start Study included only patients without pes cavus, an indication that the patients had less severe disease. “It would be important to see how overall patients with Friedreich’s ataxia would have responded to the medication without this kind of selection,” Dr. Pandolfo said in an interview.

He also noted that the seemingly modest improvement in mFARS score could be an issue. “It’s a very difficult question: What is a clinically meaningful difference in this kind of rating scale? I would argue that probably 2 points is not a huge difference by itself, but it may be meaningful and one indicator of that is that if it was accompanied by also a significant difference in activities of daily living scale.”

In any event, Dr. Pandolfo said this is the first medication for Friedreich’s ataxia that has “survived” a randomized clinical trial.

Dr. Lynch said the study sponsor, Reata, may prepare a new drug application for omaveloxolone in patients ages 16 and older. “That would leave a need for investigation in younger FA patients.”

Dr. Lynch disclosed that his institution receives a grant from trial sponsor Reata to conduct the MOXIe trial. Dr. Pandolfo reports financial relationships with Design Therapeutics, Exicure and Voyager Therapeutics.
 

Before getting to work on developing guidelines for genetic testing in Parkinson’s disease, a task force of the Movement Disorders Society surveyed members worldwide to identify concerns they have about using genetic testing in practice. In results presented as a late-breaking abstract at the International Congress of Parkinson’s Disease and Movement Disorders, the survey found that clinicians have concerns about test costs, availability of genetic counseling and finding the time for both testing and genetic counseling, among a host of others.

“Some of the major outstanding issues are the clinical actionability of genetic testing – and this was highlighted by some survey participants,” senior study author Rachel Saunders-Pullman, MD, MPH, professor of neurology at the Icahn School of Medicine at Mount Sinai, New York, said in an interview. The issue is “dynamic,” and will change even more radically when genetic therapies for Parkinson’s disease become available. “It is planned that, in the development of the MDS Task Force guidelines, scenarios which outline the changes in consideration of testing will depend on the availability of clinically actionable data,” she said.
 

Barriers to genetic testing

The MDS Task Force for Genetic Testing in Parkinson Disease conducted the survey, completed online by 568 MDS members. Respondents were from the four regions from which the MDS draws members: Africa, Europe, Asia/Oceania, and Pan-America. Half of the respondents considered themselves movement disorder specialists and 31% as general neurologists, said Maggie Markgraf, research coordinator at Mount Sinai Beth Israel in New York, who presented the survey findings.

Barriers to genetic testing that the clinicians cited included cost (57%), lack of availability of genetic counseling (37%), time for testing (20%) or time for counseling (17%). About 14%also cited a lack of knowledge, and only 8.5 % said they saw no barriers for genetic testing. Other concerns included a lack of therapeutic options if tests are positive and low overall positivity rates.

“Perceived barriers for general neurologists differed slightly, with limited knowledge being the most widely reported barrier, followed closely by cost and access to testing and genetic counseling,” Ms. Markgraf said.

Respondents were also asked to identify what they thought their patients perceived as barriers to genetic testing. The major one was cost (65%), followed by limited knowledge about genetics (43%), lack of access to genetic counseling (34%), and lack of access to testing separate from cost (30%). “Across all MDS regions, the perceived level of a patient’s knowledge about genetic testing is considered to be exceedingly low,” Ms. Markgraf said.

Europe had the highest availability to genetic tests, with 41.8% saying they’re accessible to general neurologists, followed by Asia/Oceania (31%) and Pan-America (30%).

“The area of most unmet need when it comes to PD genetic testing was cost for each MDS region, although the intertwined issue of access was also high, and over 50% reported that knowledge was an unmet need in their region,” Dr. Saunders-Pullman said.

Insurance coverage was another issue the survey respondents identified. In Europe, 53.6% said insurance or government programs cover genetic testing for PD, while only 14% in Pan-America and 10.3% in Asia/Oceania (and 0% in Africa) said such coverage was available.

“While there are limitations to this study, greater awareness of availability and barriers to genetic testing and counseling across different regions, as well as disparities among regions, will help inform development of the MDS Task Force guidelines,” Dr. Saunders-Pullman said.
 

Unmet needs

Connie Marras, MD, PhD, a professor of neurology at the University of Toronto, noted the survey suggested neurologists exhibit a “lack of comfort or lack of time” with genetic testing and counseling for Parkinson’s disease. “Even if we make genetic testing more widely available, we need health care providers that are comfortable and available to counsel patients before and after the testing, and clearly these are unmet needs,” Dr. Marras said in an interview.

“To date, pharmacologic treatment of Parkinson’s disease did not depend on genetics,” Dr. Marras said. “This may well change in the near future with treatments specifically targeting mechanisms related to two of the most common genetic risk factors for PD: LRRK2 and GBA gene variants being in clinical trials.” These developments may soon raise the urgency to reduce barriers to genetic testing.

Dr. Saunders-Pullman and Dr. Marras have no relevant relationships to disclose.

Before getting to work on developing guidelines for genetic testing in Parkinson’s disease, a task force of the Movement Disorders Society surveyed members worldwide to identify concerns they have about using genetic testing in practice. In results presented as a late-breaking abstract at the International Congress of Parkinson’s Disease and Movement Disorders, the survey found that clinicians have concerns about test costs, availability of genetic counseling and finding the time for both testing and genetic counseling, among a host of others.

“Some of the major outstanding issues are the clinical actionability of genetic testing – and this was highlighted by some survey participants,” senior study author Rachel Saunders-Pullman, MD, MPH, professor of neurology at the Icahn School of Medicine at Mount Sinai, New York, said in an interview. The issue is “dynamic,” and will change even more radically when genetic therapies for Parkinson’s disease become available. “It is planned that, in the development of the MDS Task Force guidelines, scenarios which outline the changes in consideration of testing will depend on the availability of clinically actionable data,” she said.
 

Barriers to genetic testing

The MDS Task Force for Genetic Testing in Parkinson Disease conducted the survey, completed online by 568 MDS members. Respondents were from the four regions from which the MDS draws members: Africa, Europe, Asia/Oceania, and Pan-America. Half of the respondents considered themselves movement disorder specialists and 31% as general neurologists, said Maggie Markgraf, research coordinator at Mount Sinai Beth Israel in New York, who presented the survey findings.

Barriers to genetic testing that the clinicians cited included cost (57%), lack of availability of genetic counseling (37%), time for testing (20%) or time for counseling (17%). About 14%also cited a lack of knowledge, and only 8.5 % said they saw no barriers for genetic testing. Other concerns included a lack of therapeutic options if tests are positive and low overall positivity rates.

“Perceived barriers for general neurologists differed slightly, with limited knowledge being the most widely reported barrier, followed closely by cost and access to testing and genetic counseling,” Ms. Markgraf said.

Respondents were also asked to identify what they thought their patients perceived as barriers to genetic testing. The major one was cost (65%), followed by limited knowledge about genetics (43%), lack of access to genetic counseling (34%), and lack of access to testing separate from cost (30%). “Across all MDS regions, the perceived level of a patient’s knowledge about genetic testing is considered to be exceedingly low,” Ms. Markgraf said.

Europe had the highest availability to genetic tests, with 41.8% saying they’re accessible to general neurologists, followed by Asia/Oceania (31%) and Pan-America (30%).

“The area of most unmet need when it comes to PD genetic testing was cost for each MDS region, although the intertwined issue of access was also high, and over 50% reported that knowledge was an unmet need in their region,” Dr. Saunders-Pullman said.

Insurance coverage was another issue the survey respondents identified. In Europe, 53.6% said insurance or government programs cover genetic testing for PD, while only 14% in Pan-America and 10.3% in Asia/Oceania (and 0% in Africa) said such coverage was available.

“While there are limitations to this study, greater awareness of availability and barriers to genetic testing and counseling across different regions, as well as disparities among regions, will help inform development of the MDS Task Force guidelines,” Dr. Saunders-Pullman said.
 

Unmet needs

Connie Marras, MD, PhD, a professor of neurology at the University of Toronto, noted the survey suggested neurologists exhibit a “lack of comfort or lack of time” with genetic testing and counseling for Parkinson’s disease. “Even if we make genetic testing more widely available, we need health care providers that are comfortable and available to counsel patients before and after the testing, and clearly these are unmet needs,” Dr. Marras said in an interview.

“To date, pharmacologic treatment of Parkinson’s disease did not depend on genetics,” Dr. Marras said. “This may well change in the near future with treatments specifically targeting mechanisms related to two of the most common genetic risk factors for PD: LRRK2 and GBA gene variants being in clinical trials.” These developments may soon raise the urgency to reduce barriers to genetic testing.

Dr. Saunders-Pullman and Dr. Marras have no relevant relationships to disclose.

Before getting to work on developing guidelines for genetic testing in Parkinson’s disease, a task force of the Movement Disorders Society surveyed members worldwide to identify concerns they have about using genetic testing in practice. In results presented as a late-breaking abstract at the International Congress of Parkinson’s Disease and Movement Disorders, the survey found that clinicians have concerns about test costs, availability of genetic counseling and finding the time for both testing and genetic counseling, among a host of others.

“Some of the major outstanding issues are the clinical actionability of genetic testing – and this was highlighted by some survey participants,” senior study author Rachel Saunders-Pullman, MD, MPH, professor of neurology at the Icahn School of Medicine at Mount Sinai, New York, said in an interview. The issue is “dynamic,” and will change even more radically when genetic therapies for Parkinson’s disease become available. “It is planned that, in the development of the MDS Task Force guidelines, scenarios which outline the changes in consideration of testing will depend on the availability of clinically actionable data,” she said.
 

Barriers to genetic testing

The MDS Task Force for Genetic Testing in Parkinson Disease conducted the survey, completed online by 568 MDS members. Respondents were from the four regions from which the MDS draws members: Africa, Europe, Asia/Oceania, and Pan-America. Half of the respondents considered themselves movement disorder specialists and 31% as general neurologists, said Maggie Markgraf, research coordinator at Mount Sinai Beth Israel in New York, who presented the survey findings.

Barriers to genetic testing that the clinicians cited included cost (57%), lack of availability of genetic counseling (37%), time for testing (20%) or time for counseling (17%). About 14%also cited a lack of knowledge, and only 8.5 % said they saw no barriers for genetic testing. Other concerns included a lack of therapeutic options if tests are positive and low overall positivity rates.

“Perceived barriers for general neurologists differed slightly, with limited knowledge being the most widely reported barrier, followed closely by cost and access to testing and genetic counseling,” Ms. Markgraf said.

Respondents were also asked to identify what they thought their patients perceived as barriers to genetic testing. The major one was cost (65%), followed by limited knowledge about genetics (43%), lack of access to genetic counseling (34%), and lack of access to testing separate from cost (30%). “Across all MDS regions, the perceived level of a patient’s knowledge about genetic testing is considered to be exceedingly low,” Ms. Markgraf said.

Europe had the highest availability to genetic tests, with 41.8% saying they’re accessible to general neurologists, followed by Asia/Oceania (31%) and Pan-America (30%).

“The area of most unmet need when it comes to PD genetic testing was cost for each MDS region, although the intertwined issue of access was also high, and over 50% reported that knowledge was an unmet need in their region,” Dr. Saunders-Pullman said.

Insurance coverage was another issue the survey respondents identified. In Europe, 53.6% said insurance or government programs cover genetic testing for PD, while only 14% in Pan-America and 10.3% in Asia/Oceania (and 0% in Africa) said such coverage was available.

“While there are limitations to this study, greater awareness of availability and barriers to genetic testing and counseling across different regions, as well as disparities among regions, will help inform development of the MDS Task Force guidelines,” Dr. Saunders-Pullman said.
 

Unmet needs

Connie Marras, MD, PhD, a professor of neurology at the University of Toronto, noted the survey suggested neurologists exhibit a “lack of comfort or lack of time” with genetic testing and counseling for Parkinson’s disease. “Even if we make genetic testing more widely available, we need health care providers that are comfortable and available to counsel patients before and after the testing, and clearly these are unmet needs,” Dr. Marras said in an interview.

“To date, pharmacologic treatment of Parkinson’s disease did not depend on genetics,” Dr. Marras said. “This may well change in the near future with treatments specifically targeting mechanisms related to two of the most common genetic risk factors for PD: LRRK2 and GBA gene variants being in clinical trials.” These developments may soon raise the urgency to reduce barriers to genetic testing.

Dr. Saunders-Pullman and Dr. Marras have no relevant relationships to disclose.