In MS, iron-ringed lesions may add to imaging toolkit

STOCKHOLM – The presence of an iron ring around a brain lesion suspicious for multiple sclerosis (MS) may provide a promising adjunct to evolving magnetic resonance imaging techniques to track disease activity and progression, according to research presented at the annual congress of the European Committee for Treatment and Research in Multiple Sclerosis.

Kari Oakes/MDedge News

Using a conventional 3 Tesla magnetic resonance imaging (MRI) scanner, Margareta Clarke, PhD, and colleagues were able to identify iron rings (also called iron rims) and the central vein sign, and saw that both lesion characteristics were more common in MS patients than in those without MS.

“Routine two-dimensional 3 Tesla MRI with susceptibility weighting can be used to successfully visualize central veins and iron rims,” said Dr. Clarke, speaking at an imaging-focused young investigators’ session at the meeting. “Also, the central vein sign findings from previous 3T studies are confirmed.”

Dr. Clarke, a research fellow at the Vall d’Hebron Research Institute in Barcelona, explained that iron is stored within oligodendrocytes and myelin within the brain. In up to 56% of MS lesions, a rim of iron is visible with susceptibility weighted MRI imaging, she said, adding that the iron rings around the lesions “are likely caused by iron-laden activated microglia and macrophages that accumulate on the edges of lesions.”

It had been known that when lesions are surrounded by iron rings, they are more likely to enlarge and become increasingly hypointense on T1 weighted MRI. In addition, patients with more disability are more likely to have iron-rimmed brain lesions, said Dr. Clarke, and iron rings are associated with chronic disease activity. “Iron rings are a proposed marker of continuing inflammation and tissue loss,” she added.

 

The cross-sectional, single-center study enrolled patients with clinically isolated syndrome (CIS), MS, and conditions which can mimic MS on MRI. Dr. Clarke and her coinvestigators looked at the frequency of lesions with the central vein sign, and with iron rings, in all patients.

An additional aim of the study was to compare how experienced and inexperienced raters fared in their identification of both central veins and iron rings in 25 scans randomly chosen from within the study population. Inter-rater reliability between experienced and inexperienced raters was assessed as good, with little difference between experience levels in detecting iron rings and central veins, said Dr. Clarke.

Criteria used for central vein determination were those established by the North American Imaging in MS initiative, said Dr. Clarke: The vein needs to be seen entering and/or exiting the lesion, and the vein must course through the lesion’s center. If lesions are confluent, each of the larger lesion’s “fingers” must be assessed individually.

Iron rings appear as a hypointense area rimming the lesion’s edge; for the study, an iron ring was considered present if it could be seen fully or partially encircling a lesion, and if the ring was visible on at least two slices.

The study enrolled 103 patients with relapsing-remitting MS, 49 with progressive MS, 112 with CIS, and 35 non-MS patients; about 60% of this latter group had either autoimmune or vascular disease.

The fewest white matter lesions – a median of 4 per patient - were seen in the CIS group, while the progressive MS and non-MS group each had a median of 7 lesions, and the relapsing-remitting MS group had a median of 10 lesions.

In all, 2,617 lesions were analyzed, and 1,352 were assessed as having the central vein sign. Patients with MS or CIS had central vein sign in more than 50% of their lesions, while the non-MS patients had fewer than 20% central vein–positive lesions. In CIS and MS patients, central vein–positive lesions occurred more frequently in the periventricular and subcortical regions, compared with other brain regions (P less than .001).

Iron rings were detected in 392 lesions; none of the non-MS patients had iron ring–positive lesions. In terms of the brain regions where iron rings were most likely to be seen, said Dr. Clarke, “Over half of all iron ring-positive lesions were periventricular.” This finding was statistically significant as well (P less than .001). At least one lesion with an iron ring was seen in 59% of relapsing-remitting MS patients, 39% of progressive MS patients, and 48% of CIS patients.

In terms of patient characteristics, men were 40% more likely to have iron ring–positive lesions, and patients with relapsing-remitting MS were 50% more likely than were patients with CIS to have iron rings. Iron rings became 3% less likely for each additional year of age, as well (P less than .01 for all comparisons).

“Our results show that iron ring numbers peak in relapsing-remitting MS and decrease with longer disease duration,” Dr. Clarke and colleagues reported.

Dr. Clarke acknowledged several limitations of the study, including its single-center and retrospective nature, as well as the relatively low numbers of non-MS patients and patients with progressive MS. She and her colleagues are planning larger studies using 5-year follow-up data, she said.

Dr. Clarke is an ECTRIMS-MAGNIMS fellow and reported a speaker honorarium from Novartis.

koakes@mdedge.com

SOURCE: Clarke M et al. ECTRIMS 2019. Abstract 108.

STOCKHOLM – The presence of an iron ring around a brain lesion suspicious for multiple sclerosis (MS) may provide a promising adjunct to evolving magnetic resonance imaging techniques to track disease activity and progression, according to research presented at the annual congress of the European Committee for Treatment and Research in Multiple Sclerosis.

Kari Oakes/MDedge News

Using a conventional 3 Tesla magnetic resonance imaging (MRI) scanner, Margareta Clarke, PhD, and colleagues were able to identify iron rings (also called iron rims) and the central vein sign, and saw that both lesion characteristics were more common in MS patients than in those without MS.

“Routine two-dimensional 3 Tesla MRI with susceptibility weighting can be used to successfully visualize central veins and iron rims,” said Dr. Clarke, speaking at an imaging-focused young investigators’ session at the meeting. “Also, the central vein sign findings from previous 3T studies are confirmed.”

Dr. Clarke, a research fellow at the Vall d’Hebron Research Institute in Barcelona, explained that iron is stored within oligodendrocytes and myelin within the brain. In up to 56% of MS lesions, a rim of iron is visible with susceptibility weighted MRI imaging, she said, adding that the iron rings around the lesions “are likely caused by iron-laden activated microglia and macrophages that accumulate on the edges of lesions.”

It had been known that when lesions are surrounded by iron rings, they are more likely to enlarge and become increasingly hypointense on T1 weighted MRI. In addition, patients with more disability are more likely to have iron-rimmed brain lesions, said Dr. Clarke, and iron rings are associated with chronic disease activity. “Iron rings are a proposed marker of continuing inflammation and tissue loss,” she added.

 

The cross-sectional, single-center study enrolled patients with clinically isolated syndrome (CIS), MS, and conditions which can mimic MS on MRI. Dr. Clarke and her coinvestigators looked at the frequency of lesions with the central vein sign, and with iron rings, in all patients.

An additional aim of the study was to compare how experienced and inexperienced raters fared in their identification of both central veins and iron rings in 25 scans randomly chosen from within the study population. Inter-rater reliability between experienced and inexperienced raters was assessed as good, with little difference between experience levels in detecting iron rings and central veins, said Dr. Clarke.

Criteria used for central vein determination were those established by the North American Imaging in MS initiative, said Dr. Clarke: The vein needs to be seen entering and/or exiting the lesion, and the vein must course through the lesion’s center. If lesions are confluent, each of the larger lesion’s “fingers” must be assessed individually.

Iron rings appear as a hypointense area rimming the lesion’s edge; for the study, an iron ring was considered present if it could be seen fully or partially encircling a lesion, and if the ring was visible on at least two slices.

The study enrolled 103 patients with relapsing-remitting MS, 49 with progressive MS, 112 with CIS, and 35 non-MS patients; about 60% of this latter group had either autoimmune or vascular disease.

The fewest white matter lesions – a median of 4 per patient - were seen in the CIS group, while the progressive MS and non-MS group each had a median of 7 lesions, and the relapsing-remitting MS group had a median of 10 lesions.

In all, 2,617 lesions were analyzed, and 1,352 were assessed as having the central vein sign. Patients with MS or CIS had central vein sign in more than 50% of their lesions, while the non-MS patients had fewer than 20% central vein–positive lesions. In CIS and MS patients, central vein–positive lesions occurred more frequently in the periventricular and subcortical regions, compared with other brain regions (P less than .001).

Iron rings were detected in 392 lesions; none of the non-MS patients had iron ring–positive lesions. In terms of the brain regions where iron rings were most likely to be seen, said Dr. Clarke, “Over half of all iron ring-positive lesions were periventricular.” This finding was statistically significant as well (P less than .001). At least one lesion with an iron ring was seen in 59% of relapsing-remitting MS patients, 39% of progressive MS patients, and 48% of CIS patients.

In terms of patient characteristics, men were 40% more likely to have iron ring–positive lesions, and patients with relapsing-remitting MS were 50% more likely than were patients with CIS to have iron rings. Iron rings became 3% less likely for each additional year of age, as well (P less than .01 for all comparisons).

“Our results show that iron ring numbers peak in relapsing-remitting MS and decrease with longer disease duration,” Dr. Clarke and colleagues reported.

Dr. Clarke acknowledged several limitations of the study, including its single-center and retrospective nature, as well as the relatively low numbers of non-MS patients and patients with progressive MS. She and her colleagues are planning larger studies using 5-year follow-up data, she said.

Dr. Clarke is an ECTRIMS-MAGNIMS fellow and reported a speaker honorarium from Novartis.

koakes@mdedge.com

SOURCE: Clarke M et al. ECTRIMS 2019. Abstract 108.

STOCKHOLM – The presence of an iron ring around a brain lesion suspicious for multiple sclerosis (MS) may provide a promising adjunct to evolving magnetic resonance imaging techniques to track disease activity and progression, according to research presented at the annual congress of the European Committee for Treatment and Research in Multiple Sclerosis.

Kari Oakes/MDedge News

Using a conventional 3 Tesla magnetic resonance imaging (MRI) scanner, Margareta Clarke, PhD, and colleagues were able to identify iron rings (also called iron rims) and the central vein sign, and saw that both lesion characteristics were more common in MS patients than in those without MS.

“Routine two-dimensional 3 Tesla MRI with susceptibility weighting can be used to successfully visualize central veins and iron rims,” said Dr. Clarke, speaking at an imaging-focused young investigators’ session at the meeting. “Also, the central vein sign findings from previous 3T studies are confirmed.”

Dr. Clarke, a research fellow at the Vall d’Hebron Research Institute in Barcelona, explained that iron is stored within oligodendrocytes and myelin within the brain. In up to 56% of MS lesions, a rim of iron is visible with susceptibility weighted MRI imaging, she said, adding that the iron rings around the lesions “are likely caused by iron-laden activated microglia and macrophages that accumulate on the edges of lesions.”

It had been known that when lesions are surrounded by iron rings, they are more likely to enlarge and become increasingly hypointense on T1 weighted MRI. In addition, patients with more disability are more likely to have iron-rimmed brain lesions, said Dr. Clarke, and iron rings are associated with chronic disease activity. “Iron rings are a proposed marker of continuing inflammation and tissue loss,” she added.

 

The cross-sectional, single-center study enrolled patients with clinically isolated syndrome (CIS), MS, and conditions which can mimic MS on MRI. Dr. Clarke and her coinvestigators looked at the frequency of lesions with the central vein sign, and with iron rings, in all patients.

An additional aim of the study was to compare how experienced and inexperienced raters fared in their identification of both central veins and iron rings in 25 scans randomly chosen from within the study population. Inter-rater reliability between experienced and inexperienced raters was assessed as good, with little difference between experience levels in detecting iron rings and central veins, said Dr. Clarke.

Criteria used for central vein determination were those established by the North American Imaging in MS initiative, said Dr. Clarke: The vein needs to be seen entering and/or exiting the lesion, and the vein must course through the lesion’s center. If lesions are confluent, each of the larger lesion’s “fingers” must be assessed individually.

Iron rings appear as a hypointense area rimming the lesion’s edge; for the study, an iron ring was considered present if it could be seen fully or partially encircling a lesion, and if the ring was visible on at least two slices.

The study enrolled 103 patients with relapsing-remitting MS, 49 with progressive MS, 112 with CIS, and 35 non-MS patients; about 60% of this latter group had either autoimmune or vascular disease.

The fewest white matter lesions – a median of 4 per patient - were seen in the CIS group, while the progressive MS and non-MS group each had a median of 7 lesions, and the relapsing-remitting MS group had a median of 10 lesions.

In all, 2,617 lesions were analyzed, and 1,352 were assessed as having the central vein sign. Patients with MS or CIS had central vein sign in more than 50% of their lesions, while the non-MS patients had fewer than 20% central vein–positive lesions. In CIS and MS patients, central vein–positive lesions occurred more frequently in the periventricular and subcortical regions, compared with other brain regions (P less than .001).

Iron rings were detected in 392 lesions; none of the non-MS patients had iron ring–positive lesions. In terms of the brain regions where iron rings were most likely to be seen, said Dr. Clarke, “Over half of all iron ring-positive lesions were periventricular.” This finding was statistically significant as well (P less than .001). At least one lesion with an iron ring was seen in 59% of relapsing-remitting MS patients, 39% of progressive MS patients, and 48% of CIS patients.

In terms of patient characteristics, men were 40% more likely to have iron ring–positive lesions, and patients with relapsing-remitting MS were 50% more likely than were patients with CIS to have iron rings. Iron rings became 3% less likely for each additional year of age, as well (P less than .01 for all comparisons).

“Our results show that iron ring numbers peak in relapsing-remitting MS and decrease with longer disease duration,” Dr. Clarke and colleagues reported.

Dr. Clarke acknowledged several limitations of the study, including its single-center and retrospective nature, as well as the relatively low numbers of non-MS patients and patients with progressive MS. She and her colleagues are planning larger studies using 5-year follow-up data, she said.

Dr. Clarke is an ECTRIMS-MAGNIMS fellow and reported a speaker honorarium from Novartis.

koakes@mdedge.com

SOURCE: Clarke M et al. ECTRIMS 2019. Abstract 108.