Blood neurofilament light levels predict non-relapsing progression following anti-CD20 therapy in relapsing and primary progressive multiple sclerosis: findings from the ocrelizumab randomised, double-blind phase 3 clinical trials

Blood neurofilament light levels predict non-relapsing progression following anti-CD20 therapy in relapsing and primary progressive multiple sclerosis: findings from the ocrelizumab randomised, double-blind phase 3 clinical trials

Neurofilament light chain (NfL), a neuronal cytoskeletal protein that is released upon neuroaxonal injury, is associated with multiple sclerosis (MS) relapsing activity and has demonstrated some prognostic ability for future relapse-related disease progression, yet its value in assessing non-relapsi...

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Veröffentlicht in:EBioMedicine 2023-07, Vol.93, p.104662-104662, Article 104662
Hauptverfasser: Bar-Or, Amit, Thanei, Gian-Andrea, Harp, Christopher, Bernasconi, Corrado, Bonati, Ulrike, Cross, Anne H., Fischer, Saloumeh, Gaetano, Laura, Hauser, Stephen L., Hendricks, Robert, Kappos, Ludwig, Kuhle, Jens, Leppert, David, Model, Fabian, Sauter, Annette, Koendgen, Harold, Jia, Xiaoming, Herman, Ann E.
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Biomarker
Disease progression
Multiple sclerosis
NfL
Ocrelizumab
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container_start_page 104662
container_title EBioMedicine
container_volume 93
creator Bar-Or, Amit
Thanei, Gian-Andrea
Harp, Christopher
Bernasconi, Corrado
Bonati, Ulrike
Cross, Anne H.
Fischer, Saloumeh
Gaetano, Laura
Hauser, Stephen L.
Hendricks, Robert
Kappos, Ludwig
Kuhle, Jens
Leppert, David
Model, Fabian
Sauter, Annette
Koendgen, Harold
Jia, Xiaoming
Herman, Ann E.
description Neurofilament light chain (NfL), a neuronal cytoskeletal protein that is released upon neuroaxonal injury, is associated with multiple sclerosis (MS) relapsing activity and has demonstrated some prognostic ability for future relapse-related disease progression, yet its value in assessing non-relapsing disease progression remains unclear. We examined baseline and longitudinal blood NfL levels in 1421 persons with relapsing MS (RMS) and 596 persons with primary progressive MS (PPMS) from the pivotal ocrelizumab MS trials. NfL treatment-response and risk for disease worsening (including disability progression into the open-label extension period and slowly expanding lesions [SELs] on brain MRI) at baseline and following treatment with ocrelizumab were evaluated using time-to-event analysis and linear regression models. In persons from the RMS control arms without acute disease activity and in the entire PPMS control arm, higher baseline NfL was prognostic for greater whole brain and thalamic atrophy, greater volume expansion of SELs, and clinical progression. Ocrelizumab reduced NfL levels vs. controls in persons with RMS and those with PPMS, and abrogated the prognostic value of baseline NfL on disability progression. Following effective suppression of relapse activity by ocrelizumab, NfL levels at weeks 24 and 48 were significantly associated with long-term risk for disability progression, including up to 9 years of observation in RMS and PPMS. Highly elevated NfL from acute MS disease activity may mask a more subtle NfL abnormality that reflects underlying non-relapsing progressive biology. Ocrelizumab significantly reduced NfL levels, consistent with its effects on acute disease activity and disability progression. Persistently elevated NfL levels, observed in a subgroup of persons under ocrelizumab treatment, demonstrate potential clinical utility as a predictive biomarker of increased risk for clinical progression. Suppression of relapsing biology with high-efficacy immunotherapy provides a window into the relationship between NfL levels and future non-relapsing progression. F. Hoffmann-La Roche Ltd.
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subjects Biomarker
Disease progression
Multiple sclerosis
NfL
Ocrelizumab
title Blood neurofilament light levels predict non-relapsing progression following anti-CD20 therapy in relapsing and primary progressive multiple sclerosis: findings from the ocrelizumab randomised, double-blind phase 3 clinical trials
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