Your search keyword '"Green, Ari"' showing total 8 results

1. Validating visual evoked potentials as a preclinical, quantitative biomarker for remyelination efficacy.

Author

Cordano, Christian, Sin, Jung H, Timmons, Garrett, Yiu, Hao H, Stebbins, Karin, Guglielmetti, Caroline, Cruz-Herranz, Andres, Xin, Wendy, Lorrain, Daniel, Chan, Jonah R, and Green, Ari J

Subjects

MYELIN sheath diseases, VISUAL evoked potentials, DEMYELINATION, OPTIC nerve, CHEMICAL models, NEUROLOGICAL disorders, TRANSGENIC animals

Abstract

Many biomarkers in clinical neuroscience lack pathological certification. This issue is potentially a significant contributor to the limited success of neuroprotective and neurorestorative therapies for human neurological disease-and is evident even in areas with therapeutic promise such as myelin repair. Despite the identification of promising remyelinating candidates, biologically validated methods to demonstrate therapeutic efficacy or provide robust preclinical evidence of remyelination in the CNS are lacking. Therapies with potential to remyelinate the CNS constitute one of the most promising and highly anticipated therapeutic developments in the pipeline to treat multiple sclerosis and other demyelinating diseases. The optic nerve has been proposed as an informative pathway to monitor remyelination in animals and human subjects. Recent clinical trials using visual evoked potential have had promising results, but without unequivocal evidence about the cellular and molecular basis for signal changes on visual evoked potential, the interpretation of these trials is constrained. The visual evoked potential was originally developed and used in the clinic as a diagnostic tool but its use as a quantitative method for assessing therapeutic response requires certification of its biological specificity. Here, using the tools of experimental pathology we demonstrate that quantitative measurements of myelination using both histopathological measures of nodal structure and ultrastructural assessments correspond to visual evoked potential latency in both inflammatory and chemical models of demyelination. Visual evoked potential latency improves after treatment with a tool remyelinating compound (clemastine), mirroring both quantitative and qualitative myelin assessment. Furthermore, clemastine does not improve visual evoked potential latency following demyelinating injury when administered to a transgenic animal incapable of forming new myelin. Therefore, using the capacity for therapeutic enhancement and biological loss of function we demonstrate conclusively that visual evoked potential measures myelin status and is thereby a validated tool for preclinical verification of remyelination. [ABSTRACT FROM AUTHOR]

Published

2022

2. Socioeconomic disadvantage in multiple sclerosis: does inequality act on the substrate for disability?

Author

Green, Ari J

Subjects

*MULTIPLE sclerosis, *DISABILITIES, *RETINAL ganglion cells, *CHILDREN with disabilities

Abstract

This scientific commentary refers to 'Socioeconomic disparity is associated with faster retinal neurodegeneration in multiple sclerosis' by Vasileiou I et al i . In this issue of I Brain i , Vasileiou and co-authors[2] use OCT to precisely quantify neuro-axonal atrophy in multiple sclerosis and thereby assess whether socioeconomic factors are associated with more rapid damage to neurons and their processes. [Extracted from the article]

Published

2021

3. Early complement genes are associated with visual system degeneration in multiple sclerosis.

Author

Fitzgerald, Kathryn C, Kim, Kicheol, Smith, Matthew D, Aston, Sean A, Fioravante, Nicholas, Rothman, Alissa M, Krieger, Stephen, Cofield, Stacey S, Kimbrough, Dorlan J, Bhargava, Pavan, Saidha, Shiv, Whartenby, Katharine A, Green, Ari J, Mowry, Ellen M, Cutter, Gary R, Lublin, Fred D, Baranzini, Sergio E, Jager, Philip L De, Calabresi, Peter A, and De Jager, Philip L

Subjects

OPTIC neuritis, MULTIPLE sclerosis, EYE, VISUAL evoked potentials, PROPORTIONAL hazards models, OPTICAL coherence tomography, VISUAL pathways

Abstract

Multiple sclerosis is a heterogeneous disease with an unpredictable course and a wide range of severity; some individuals rapidly progress to a disabled state whereas others experience only mild symptoms. Though genetic studies have identified variants that are associated with an increased risk of developing multiple sclerosis, no variants have been consistently associated with multiple sclerosis severity. In part, the lack of findings is related to inherent limitations of clinical rating scales; these scales are insensitive to early degenerative changes that underlie disease progression. Optical coherence tomography imaging of the retina and low-contrast letter acuity correlate with and predict clinical and imaging-based outcomes in multiple sclerosis. Therefore, they may serve as sensitive phenotypes to discover genetic predictors of disease course. We conducted a set of genome-wide association studies of longitudinal structural and functional visual pathway phenotypes in multiple sclerosis. First, we assessed genetic predictors of ganglion cell/inner plexiform layer atrophy in a discovery cohort of 374 patients with multiple sclerosis using mixed-effects models adjusting for age, sex, disease duration, optic neuritis and genetic ancestry and using a combination of single-variant and network-based analyses. For candidate variants identified in discovery, we conducted a similar set of analyses of ganglion cell/inner plexiform layer thinning in a replication cohort (n = 376). Second, we assessed genetic predictors of sustained loss of 5-letters in low-contrast letter acuity in discovery (n = 582) using multivariable-adjusted Cox proportional hazards models. We then evaluated candidate variants/pathways in a replication cohort. (n = 253). Results of both studies revealed novel subnetworks highly enriched for connected genes in early complement activation linked to measures of disease severity. Within these networks, C3 was the gene most strongly associated with ganglion cell/inner plexiform layer atrophy (P = 0.004) and C1QA and CR1 were top results in analysis of sustained low-contrast letter acuity loss. Namely, variant rs158772, linked to C1QA, and rs61822967, linked to CR1, were associated with 71% and 40% increases in risk of sustained LCLA loss, respectively, in meta-analysis pooling discovery and replication cohorts (rs158772: hazard ratio: 1.71; 95% confidence interval 1.30-2.25; P = 1.3 × 10-4; rs61822967: hazard ratio: 1.40; 95% confidence interval: 1.16-1.68; P = 4.1 × 10-4). In conclusion, early complement pathway gene variants were consistently associated with structural and functional measures of multiple sclerosis severity. These results from unbiased analyses are strongly supported by several prior reports that mechanistically implicated early complement factors in neurodegeneration. [ABSTRACT FROM AUTHOR]

Published

2019

4. Microcystic macular oedema in multiple sclerosis is associated with disease severity.

Author

Gelfand, Jeffrey M., Nolan, Rachel, Schwartz, Daniel M., Graves, Jennifer, and Green, Ari J.

Subjects

RETINAL diseases, TREATMENT of eye diseases, EDEMA, MULTIPLE sclerosis, BLOOD-brain barrier disorders, UVEITIS, SPECTRUM analysis, TOMOGRAPHY, CROSS-sectional method

Abstract

Macular oedema typically results from blood–retinal barrier disruption. It has recently been reported that patients with multiple sclerosis treated with FTY-720 (fingolimod) may exhibit macular oedema. Multiple sclerosis is not otherwise thought to be associated with macular oedema except in the context of comorbid clinical uveitis. Despite a lack of myelin, the retina is a site of inflammation and microglial activation in multiple sclerosis and demonstrates significant neuronal and axonal loss. We unexpectedly observed microcystic macular oedema using spectral domain optical coherence tomography in patients with multiple sclerosis who did not have another reason for macular oedema. We therefore evaluated spectral domain optical coherence tomography images in consecutive patients with multiple sclerosis for microcystic macular oedema and examined correlations between macular oedema and visual and ambulatory disability in a cross-sectional analysis. Participants were excluded if there was a comorbidity that could account for the presence of macular oedema, such as uveitis, diabetes or other retinal disease. A microcystic pattern of macular oedema was observed on optical coherence tomography in 15 of 318 (4.7%) patients with multiple sclerosis. No macular oedema was identified in 52 healthy controls assessed over the same period. The microcystic oedema predominantly involved the inner nuclear layer of the retina and tended to occur in small, discrete patches. Patients with multiple sclerosis with microcystic macular oedema had significantly worse disability [median Expanded Disability Score Scale 4 (interquartile range 3–6)] than patients without macular oedema [median Expanded Disability Score Scale 2 (interquartile range 1.5–3.5)], P = 0.0002. Patients with multiple sclerosis with microcystic macular oedema also had higher Multiple Sclerosis Severity Scores, a measure of disease progression, than those without oedema [median of 6.47 (interquartile range 4.96–7.98) versus 3.65 (interquartile range 1.92–5.87), P = 0.0009]. Microcystic macular oedema occurred more commonly in eyes with prior optic neuritis than eyes without prior optic neuritis (50 versus 27%) and was associated with lower visual acuity (median logMAR acuity of 0.17 versus −0.1) and a thinner retinal nerve fibre layer. The presence of microcystic macular oedema in multiple sclerosis suggests that there may be breakdown of the blood–retinal barrier and tight junction integrity in a part of the nervous system that lacks myelin. Microcystic macular oedema may also contribute to visual dysfunction beyond that explained by nerve fibre layer loss. Microcystic changes need to be assessed, and potentially adjusted for, in clinical trials that evaluate macular volume as a marker of retinal ganglion cell survival. These findings also have implications for clinical monitoring in patients with multiple sclerosis on sphingosine 1-phosphate receptor modulating agents. [ABSTRACT FROM PUBLISHER]

Published

2012

5. Ocular pathology in multiple sclerosis: retinal atrophy and inflammation irrespective of disease duration.

Author

Green, Ari J., McQuaid, Stephen, Hauser, Stephen L., Allen, Ingrid V., and Lyness, Roy

Subjects

*MEDICAL imaging systems, *RETINAL disease diagnosis, *DISEASE progression, *MULTIPLE sclerosis, *TISSUES

Abstract

There has been growing interest in the use of retinal imaging for tracking disease progression in multiple sclerosis. However, systematic and detailed pathological descriptions of retinal tissue in multiple sclerosis are lacking. Graded, histological evaluations on eyes from 82 patients with multiple sclerosis and 10 subjects with other neurological diseases, with immunohistochemistry on a subset, were performed and correlated with clinical and pathological findings. Multiple sclerosis cases demonstrated evidence of retinal atrophy and inflammation even in late-stage disease. Retinal ganglion cell loss was significant and remaining neurons appeared shrunken and were partially engulfed by human leukocyte antigen-DR positive cells with the phenotype of microglia in samples subjected to immunohistochemistry. Neurofilament staining revealed variable but prominent degrees of axonal loss and injury. Neuronal loss was noted in the inner nuclear layer with focal reduction in cell density. Foamy-appearing human leukocyte antigen-DR positive cells were evident near vessels and periphlebitis was found in a small but significant number of multiple sclerosis cases. Glial fibrillary acidic protein staining showed extensive astrocyte hypertrophy and proliferation with prominent gliosis in multiple sclerosis cases. Frequent but previously unreported abnormalities in the iris were documented in the majority of chronic multiple sclerosis cases. The injury to both iris and retina could be seen at all stages of disease. Severity of retinal atrophy was correlated with overall brain weight at time of autopsy (P= 0.04) and a trend for increased atrophy was seen with longer disease duration (P= 0.13). This study provides the first large-scale pathological description of retinas in multiple sclerosis, including patients with different subtypes of disease at all stages, and with variable clinical severity. Changes were seen not only in the retinal nerve fibre layer and ganglion cell layer, but also in the inner nuclear layer, suggesting that retinal injury is more widespread than previously appreciated. Furthermore, the human retina is devoid of myelin, but inflammation was demonstrated to be prominent in multiple sclerosis and to persist in the retina at late stages of disease. The prominent gliosis and inflammation surrounding vessels of the inner retina could potentially impact optical coherence tomography evaluations in multiple sclerosis--as standard techniques exploit presumed differences in tissue reflectivity and utilize automated edge detection algorithms to judge axon loss in the nerve fibre layer. Deciphering the relationships between the different types of retinal pathology may aid us in understanding the factors that drive both inflammation and tissue atrophy in multiple sclerosis. [ABSTRACT FROM AUTHOR]

Published

2010

6. Reply: Microcysts in the inner nuclear layer from optic atrophy are caused by retrograde trans-synaptic degeneration combined with vitreous traction on the retinal surface.

Author

Green, Ari J., Schwartz, Daniel, and Gelfand, Jeffrey

Subjects

*MICROCYSTIS, *ATROPHY, *SYNAPSES, *VITREOUS body, *RETINA, *NEUROPATHY, *GLAUCOMA

Published

2013

7. Reply: Microcystic macular degeneration from optic neuropathy: not inflammatory, not trans-synaptic degeneration.

Author

Gelfand, Jeffrey M. and Green, Ari J.

Subjects

*RETINAL degeneration, *NEUROPATHY, *NEUROLOGY, *LEBER'S hereditary optic atrophy, *ATROPHY, *MULTIPLE sclerosis

Published

2013

8. Reply: microcystic macular degeneration from optic neuropathy and Reply: microcystic macular oedema confirmed, but not specific for multiple sclerosis.

Author

Gelfand, Jeffrey M. and Green, Ari J.

Subjects

*LETTERS to the editor, *RETINAL degeneration, *NEUROPATHY, *EDEMA, *MULTIPLE sclerosis

Published

2012