Aging impacts multiple sclerosis pathobiology by shifting inflammation toward chronic, compartmentalized neuroinflammation and neurodegenerationNew research explores how aging changes multiple sclerosis treatment

Frontiers in Medicine Published June 13, 2026 Study authors: Celia Oreja-Guevara, Sven G. Meuth, Nikos Grigoriadis, Patrick Vermersch, Hans Peter Hartung, Per So… DOI ↗ Editorial oversight: Dr. Ji-eun Park, MD · Brain, Mind & Pain

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Key Takeaway

Note that aging shifts MS pathology toward chronic neuroinflammation and progression independent of relapse activity.

This narrative review explores the specific challenges of managing multiple sclerosis (MS) in older patients, specifically those over 55-60 years old. The authors synthesize how aging influences MS pathobiology, noting a transition from focal, relapse-driven inflammation to chronic, compartmentalized neuroinflammation and neurodegeneration.

The synthesis highlights that immunosenescence and inflammaging mechanisms—including changes in adaptive and innate immunity, gut microbiota dysbiosis, mitochondrial dysfunction, and blood-brain barrier dysfunction—contribute to microglial activation. These processes favor the development of slowly expanding lesions and smouldering MS, which can drive disease progression independently of relapse activity.

A primary limitation is that this is a narrative review of existing literature; no new primary data or specific clinical trial results for emerging therapies like BTK inhibitors were provided. The report emphasizes the importance of personalized treatment decisions, including de-escalation or discontinuation strategies for disease-modifying therapies (DMTs) and the consideration of newer agents in older patients.

How this fits prior evidence

This narrative review addresses a gap in understanding how aging influences MS pathology. It builds upon prior evidence regarding T cell-microglial interactions that drive aging and myelin changes in neurodegeneration models, providing a clinical context for these mechanisms in older patients. While it does not provide specific data on nutrient interventions or high-dose ocrelizumab, it focuses on the shift toward chronic neuroinflammation in the elderly.

Living with multiple sclerosis (MS) changes as the body ages. For older adults, the disease often shifts away from sudden, visible attacks toward a slower, more constant type of inflammation. This shift is driven by the aging immune system and changes in the gut, which can lead to steady nerve damage even when there are no active flare-ups.

Because the disease behaves differently in older patients, doctors are looking at different ways to manage it. This includes moving toward personalized care plans that focus on long-term stability. They are also exploring how to balance the use of standard medications with the risks of infections and other health issues that come with age.

While new treatments like BTK inhibitors are being discussed as potential options for older patients, there is no specific data yet on their success or safety in this group. This review looks at current knowledge rather than new clinical trial results, so it highlights the need for more research to find the best ways to protect nerve health in older adults.

What this means for you:

Aging changes how multiple sclerosis behaves, moving from sudden flare-ups to steady, long-term nerve damage.

Common questions

How does multiple sclerosis change as a person gets older?

In older adults, multiple sclerosis often shifts from sudden, flare-up driven inflammation to a more constant and hidden type of nerve damage. This is caused by the aging immune system and changes in gut health, which can cause slow-growing lesions even when there are no active relapses.

What new treatments are being looked at for older patients with MS?

Doctors are looking into personalized treatment plans and newer options like BTK inhibitors. However, because this is a review of existing literature, specific data on the safety or success of these new drugs in older patients has not been provided yet.

Study Details

Study typeSystematic review

EvidenceLevel 1

PublishedJun 2026

View Original Abstract ↓

Life expectancy and the age at onset of multiple sclerosis (MS) are increasing, and a growing proportion of people with MS (pwMS) are now older than 55–60 years. Aging modifies MS pathobiology, with the dominant disease mechanisms moving from focal, relapse-driven inflammation to chronic, compartmentalized neuroinflammation and neurodegeneration. In this narrative review, we summarize current knowledge on the relationship between brain aging and MS, integrating clinical, radiological, pathological and therapeutic evidence. We first discuss mechanisms of immunosenescence and “inflammaging”, including changes in adaptive and innate immunity, gut microbiota dysbiosis, mitochondrial dysfunction and blood–brain barrier dysfunction, and how these processes favor microglial activation, slowly expanding lesions, smouldering MS and progression independent of relapse activity. We then examine the impact of age on disability trajectories, cognitive decline and comorbidities, and the role of vascular and neurodegenerative mechanisms. The review also addresses age-related changes in safety and efficacy of disease-modifying therapies (DMT), with a focus on high-efficacy DMT, de-escalation and discontinuation strategies, and the management of infections, malignancies and polypharmacy in older pwMS. Finally, we describe new approaches relevant to this population, including Bruton’s tyrosine kinase inhibitors, neuroprotective and remyelinating agents, advanced cellular therapies and lifestyle-based interventions. We conclude by outlining practical implications for personalized treatment decisions in older pwMS and open questions that future clinical trials and biomarker studies must address.

Aging impacts multiple sclerosis pathobiology by shifting inflammation toward chronic, compartmentalized neuroinflammation and neurodegenerationNew research explores how aging changes multiple sclerosis treatment

How this fits prior evidence

Common questions

Study Details

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Aging impacts multiple sclerosis pathobiology by shifting inflammation toward chronic, compartmentalized neuroinflammation and neurodegenerationNew research explores how aging changes multiple sclerosis treatment

How this fits prior evidence

Common questions

More on Multiple Sclerosis

Study Details

Intravenous tenecteplase improves functional outcomes but increases hemorrhage risk in non-large vessel occlusion acute ischemic stroke

Tenecteplase improves stroke recovery but increases bleeding risk in late treatment window

Clinical research that matters. Delivered to your inbox.

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