TY - JOUR
T1 - Optical coherence tomography in multiple sclerosis
T2 - A 3-year prospective multicenter study
AU - Paul, Friedemann
AU - Calabresi, Peter A.
AU - Barkhof, Frederik
AU - Green, Ari J.
AU - Kardon, Randy
AU - Sastre-Garriga, Jaume
AU - Schippling, Sven
AU - Vermersch, Patrick
AU - Saidha, Shiv
AU - Gerendas, Bianca S.
AU - Schmidt-Erfurth, Ursula
AU - Agoropoulou, Catherine
AU - Zhang, Ying
AU - Seifer, Gustavo
AU - Petzold, Axel
N1 - Funding Information:
The authors wish to thank Carolyn M. Ervin for her substantial contribution in the data analyses, as well as Mark Kirby, Aisling Towell, and Marie-Catherine Mousseau (Novartis Ireland Ltd.) for their writing support, funded by Novartis Pharma AG, Basel, Switzerland. FB is supported by the NIHR biomedical research center at UCLH. The authors wish to thank Carolyn M. Ervin for her substantial contribution in the data analyses, as well as Mark Kirby, Aisling Towell, and Marie-Catherine Mousseau (Novartis Ireland Ltd.) for their writing support, funded by Novartis Pharma AG, Basel, Switzerland. Frederik Barkhof is supported by the NIHR biomedical research center at UCLH. Sincere gratitude also to Alina Czechner, the senior reader at the Vienna Reading Center, who has supervised most of the manual OCT analysis, to Gordon Francis and Göril Karlsson (Novartis Pharma AG) who contributed to the design and initiation of the study and to Annik Laflamme (Novartis Pharma AG, Basel at time of study) who assisted in the initial development of this publication. The authors also thank patients, investigators, and site staff who participated in these studies, including all OCTiMS Principal Investigators (Table S2). In particular, the authors would like to extend their special thanks to Dr Pablo Villoslada for his ongoing commitment and fundamental contribution towards the completion of this work.
Publisher Copyright:
© 2021 Novartis Pharma AG. Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.
PY - 2021/12
Y1 - 2021/12
N2 - Objective: To evaluate changes over 3 years in the thickness of inner retinal layers including the peripapillary retinal nerve fiber layer (pRNFL), and combined macular ganglion cell and inner plexiform layers (mGCIPL), in individuals with relapsing-remitting multiple sclerosis (RRMS) versus healthy controls; to determine whether optical coherence tomography (OCT) is sufficiently sensitive and reproducible to detect small degrees of neuroaxonal loss over time that correlate with changes in brain volume and disability progression as measured by the Expanded Disability Status Scale (EDSS). Methods: Individuals with RRMS from 28 centers (n = 333) were matched with 64 healthy participants. OCT scans were performed on Heidelberg Spectralis machines (at baseline; 1 month; 6 months; 6-monthly thereafter). Results: OCT measurements were highly reproducible between baseline and 1 month (intraclass correlation coefficient >0.98). Significant inner retinal layer thinning was observed in individuals with multiple sclerosis (MS) compared with controls regardless of previous MS-associated optic neuritis––group differences (95% CI) over 3 years: pRNFL: −1.86 (−2.54, −1.17) µm; mGCIPL: −2.03 (−2.78, −1.28) µm (both p < 0.0001; effect sizes 0.39 and 0.34). Greater inner retinal layer atrophy was observed in individuals diagnosed with RRMS <3 years versus >5 years (pRNFL: p < 0.05; mGCIPL: p < 0.01). Brain volume decreased by 1.3% in individuals with MS over 3 years compared to 0.5% in control subjects (effect size 0.76). mGCIPL atrophy correlated with brain atrophy (p < 0.0001). There was no correlation of OCT data with disability progression. Interpretation: OCT has potential to estimate rates of neurodegeneration in the retina and brain. The effect size for OCT, smaller than for magnetic resonance imaging based on Heidelberg Spectralis data acquired in this study, was increased in early disease.
AB - Objective: To evaluate changes over 3 years in the thickness of inner retinal layers including the peripapillary retinal nerve fiber layer (pRNFL), and combined macular ganglion cell and inner plexiform layers (mGCIPL), in individuals with relapsing-remitting multiple sclerosis (RRMS) versus healthy controls; to determine whether optical coherence tomography (OCT) is sufficiently sensitive and reproducible to detect small degrees of neuroaxonal loss over time that correlate with changes in brain volume and disability progression as measured by the Expanded Disability Status Scale (EDSS). Methods: Individuals with RRMS from 28 centers (n = 333) were matched with 64 healthy participants. OCT scans were performed on Heidelberg Spectralis machines (at baseline; 1 month; 6 months; 6-monthly thereafter). Results: OCT measurements were highly reproducible between baseline and 1 month (intraclass correlation coefficient >0.98). Significant inner retinal layer thinning was observed in individuals with multiple sclerosis (MS) compared with controls regardless of previous MS-associated optic neuritis––group differences (95% CI) over 3 years: pRNFL: −1.86 (−2.54, −1.17) µm; mGCIPL: −2.03 (−2.78, −1.28) µm (both p < 0.0001; effect sizes 0.39 and 0.34). Greater inner retinal layer atrophy was observed in individuals diagnosed with RRMS <3 years versus >5 years (pRNFL: p < 0.05; mGCIPL: p < 0.01). Brain volume decreased by 1.3% in individuals with MS over 3 years compared to 0.5% in control subjects (effect size 0.76). mGCIPL atrophy correlated with brain atrophy (p < 0.0001). There was no correlation of OCT data with disability progression. Interpretation: OCT has potential to estimate rates of neurodegeneration in the retina and brain. The effect size for OCT, smaller than for magnetic resonance imaging based on Heidelberg Spectralis data acquired in this study, was increased in early disease.
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U2 - 10.1002/acn3.51473
DO - 10.1002/acn3.51473
M3 - Article
C2 - 34792863
AN - SCOPUS:85119200779
SN - 2328-9503
VL - 8
SP - 2235
EP - 2251
JO - Annals of Clinical and Translational Neurology
JF - Annals of Clinical and Translational Neurology
IS - 12
ER -