What is happening to my cortex?

W

A very common analogy is the comparison of MS to an iceberg. Why?

Only one-eighth of an iceberg is visible above the water; to see what is below the water line requires specialised technology. The MS iceberg analogy refers to several observations:

1. For each clinical relapse, 10 or more MRI visible lesions are seen on MRI.
2. For each visible white matter lesions on MRI, there are at least an equivalent number or more grey matter lesions. In fact, it is now estimated that more than half the MS pathology is in the grey matter.
3. For every visible white matter lesion, either on MRI or with the naked eye, there are 20 or more microscopic lesions present in the white matter.
4. Despite only a relatively small amount of brain or spinal cord atrophy, there is almost three times as much neuronal loss underlying the atrophy.
5. Despite a relatively good recovery of function in a particular pathway, for example, after a relapse, there is a substantial loss of axons and hence reserve capacity in that pathway.
6. People with MS have many more hidden symptoms and disabilities than visible physical disabilities; early MS is often a hidden disease.

When you use newer technologies, for example, a 7 Tesla MRI to look at cortical or grey matter lesions in MS you begin to see how large the iceberg really is. Please remember the vast majority of cortical MS lesions (>90%) or not seen with conventional MRI. The bad news in the study below is that almost all the pwMS studied had cortical lesions and these, not surprisingly, correlated with disability and cognitive impairment. What is interesting is that the lesions on the surface of the brain (subpial), but not those on the grey-white matter interface (leukocortical), correlated better with cortical volume. However, the grey-white matter interface, or leukocortical, lesions correlated most strongly with cognitive impairment.  

What is becoming increasingly important is to try and target the grey matter pathology and prevent cognitive impairment in pwMS. The problem is we don’t routinely monitor brain and in particular grey matter atrophy in routine clinical practice; in fact it is largely ignored. If we did we would probably find many more pwMS opting for the higher efficacy treatments that have the greatest impact on brain atrophy (alemtuzumab and HSCT).

It is important for you to realise that you can be NEDA-3, i.e. no clinical attacks and MRI activity, and still have progressive grey matter atrophy. Why this is happening is debatable. Some evidence points to immunoglobulins and complement activation, rather than cytotoxic T-cells, being the major driver of cortical pathology. This why Barts-MS is exploring add-on drugs that will hopefully target the B-cell follicles and plasma cells within the central nervous system to try and slow down this process. We plan to start recruiting for our add-on study later this year.

I have little doubt that slowing down and preventing progressive brain and grey matter atrophy will become one of the treatment targets for the next generation of MSologists. To make this a reality we need to have tools to measure these processes reliably in clinical practice.

Harrison et al. Association of Cortical Lesion Burden on 7-T Magnetic Resonance Imaging With Cognition and Disability in Multiple Sclerosis. JAMA Neurol. 2015 Jul 20. doi: 10.1001/jamaneurol.2015.1241.

IMPORTANCE: Cortical lesions (CLs) contribute to physical and cognitive disability in multiple sclerosis (MS). Accurate methods for visualization of CLs are necessary for future clinical studies and therapeutic trials in MS.

OBJECTIVE: To evaluate the clinical relevance of measures of CL burden derived from high-field magnetic resonance imaging (MRI) in MS.

DESIGN, SETTING, AND PARTICIPANTS: An observational clinical imaging study was conducted at an academic MS center. Participants included 36 individuals with MS (30 relapsing-remitting, 6 secondary or primary progressive) and 15 healthy individuals serving as controls. The study was conducted from March 10, 2010, to November 23, 2012, and analysis was performed from June 1, 2011, to September 30, 2014. Seven-Tesla MRI of the brain was performed with 0.5-mm isotropic resolution magnetization-prepared rapid acquisition gradient echo (MPRAGE) and whole-brain, 3-dimensional, 1.0-mm isotropic resolution magnetization-prepared, fluid-attenuated inversion recovery (MPFLAIR). Cortical lesions, seen as hypointensities on MPRAGE, were manually segmented. Lesions were classified as leukocortical, intracortical, or subpial. Images were segmented using the Lesion-TOADS (Topology-Preserving Anatomical Segmentation) algorithm, and brain structure volumes and white matter (WM) lesion volume were reported. Volumes were normalized to intracranial volume.

MAIN OUTCOMES AND MEASURES: Physical disability was measured by the Expanded Disability Status Scale (EDSS). Cognitive disability was measured with the Minimal Assessment of Cognitive Function in MS battery.

RESULTS: Cortical lesions were noted in 35 of 36 participants (97%), with a median of 16 lesions per participant (range, 0-99). Leukocortical lesion volume correlated with WM lesion volume (ρ = 0.50; P = .003) but not with cortical volume; subpial lesion volume inversely correlated with cortical volume (ρ = -0.36; P = .04) but not with WM lesion volume. Total CL count and volume, measured as median (range), were significantly increased in participants with EDSS scores of 5.0 or more vs those with scores less than 5.0 (count: 29 [11-99] vs 13 [0-51]; volume: 2.81 × 10-4 [1.30 × 10-4 to 7.90 × 10-4] vs 1.50 × 10-4 [0 to 1.01 × 10-3]) and in cognitively impaired vs unimpaired individuals (count: 21 [0-99] vs 13 [1-54]; volume: 3.51 × 10-4 [0 to 1.01 × 10-4] vs 1.19 × 10-4 [0 to 7.17 × 10-4]). Cortical lesion volume correlated with EDSS scores more robustly than did WM lesion volume (ρ = 0.59 vs 0.36). Increasing log[CL volume] conferred a 3-fold increase in the odds of cognitive impairment (odds ratio [OR], 3.36; 95% CI, 1.07-10.59; P = .04) after adjustment for age and sex and a 14-fold increase in odds after adjustment for WM lesion volume and atrophy (OR, 14.26; 95% CI, 1.06-192.37; P = .045). Leukocortical lesions had the greatest effect on cognition (OR for log [leukocortical lesion volume], 9.65; 95% CI, 1.70-54.59, P = .01).

CONCLUSIONS AND RELEVANCE: This study provides in vivo evidence that CLs are associated with cognitive and physical disability in MS and that leukocortical and subpial lesion subtypes have differing clinical relevance. Quantitative assessments of CL burden on high-field MRI may further our understanding of the development of disability and progression in MS and lead to more effective treatments.

CoI: multiple

About the author

Gavin

Professor of Neurology, Barts & The London. MS & Preventive Neurology thinker, blogger, runner, vegetable gardener, husband, father, cook and wine & food lover.

6 comments

  • Thanks for a very interesting article!! You mention that Barts-MS is exploring add-on drugs that will hopefully target the B-cell follicles and plasma cells within the central nervous system to try and slow down this process. Which kind of substances are you assessing? As a pwMS I fin this interesting; however, I do understand if you do not wish to reveal due to scientific secrecy. Thanks!

  • Great post thanks. I’ve Shad new hand / arm weakness which recovered. Now my left knee starts to give way if I’m on a long walk. No new lesions on Mri though. I’m on tecfidera for the last 2.5 years. Should I change dmt?

    • That is a decision for you and your neurologist and other HCPs to make. No decisions in MS is simple and requires a lot of information to be on the table and for the HCP to understand you. This is why there is no simple algorithm to manage MS and why medicine remains an art and not a science.

  • ‘If we did we would probably find many more pwMS opting for the higher efficacy treatments that have the greatest impact on brain atrophy’

    Absolutely. If a neuro had the time and evidence to explain what is happening and give an informed prognosis I would likely be more inclined to risk a treatment. I read and try and understand what I can but it doesn’t inform me what is happening in my own brain and what steps I need/could take to save it.
    Having a clearer picture of the type/rate of damage would help me to figure out what risks I am willing/need to take.

    • This is why we want to interrogate, monitor and measure what MS and life is doing to the brain and spinal cords of pwMS. In addition, to have a battery of self-monitoring metrics will help us understand what is happening to you. We could then make some educated guesses of what to do. Please note the evidence base of what to do for people with MS who are getting worse who are NEDA is no existent. All we can do is optimise your lifestyle and treat without knowing if what we are doing is helping. A sorry and terrible state of affairs.

By Gavin

Translate

Categories

Recent Posts

Recent Comments

Archives