Investigating cortical hypoxia in multiple sclerosis via time‐domain near‐infrared spectroscopy

Williams, Thomas; Lange, Frédéric; Smith, Kenneth J.; Tachtsidis, Ilias; Chataway, Jeremy

doi:10.1002/acn3.52150

Ann Clin Transl Neurol

2024

DOI: 10.1002/acn3.52150

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Investigating cortical hypoxia in multiple sclerosis via time‐domain near‐infrared spectroscopy

Thomas Williams,

Frédéric Lange,

Kenneth J. Smith

et al.

Abstract: ObjectivesHypoperfusion and tissue hypoxia have been implicated as contributory mechanisms in the neuropathology of multiple sclerosis (MS). Our objective has been to study cortical oxygenation in vivo in patients with MS and age‐matched controls.MethodsA custom, multiwavelength time‐domain near‐infrared spectroscopy system was developed for assessing tissue hypoxia from the prefrontal cortex. A cross‐sectional case–control study was undertaken assessing patients with secondary progressive MS (SPMS) and age‐ma… Show more

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2024

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A Hypoxia-Inflammation Cycle and Multiple Sclerosis: Mechanisms and Therapeutic Implications

Soroush,

Dunn

2024

Curr Treat Options Neurol

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Purpose of Review Multiple sclerosis (MS) is a complex neurodegenerative disease characterized by inflammation, demyelination, and neurodegeneration. Significant hypoxia exists in brain of people with MS (pwMS), likely contributing to inflammatory, neurodegenerative, and vascular impairments. In this review, we explore the concept of a negative feedback loop between hypoxia and inflammation, discussing its potential role in disease progression based on evidence of hypoxia, and its implications for therapeutic targets. Recent Findings In the experimental autoimmune encephalomyelitis (EAE) model, hypoxia has been detected in gray matter (GM) using histological stains, susceptibility MRI and implanted oxygen sensitive probes. In pwMS, hypoxia has been quantified using near-infrared spectroscopy (NIRS) to measure cortical tissue oxygen saturation (StO 2 ), as well as through blood-based biomarkers such as Glucose Transporter-1 (GLUT-1). We outline the potential for the hypoxia-inflammation cycle to drive tissue damage even in the absence of plaques. Inflammation can drive hypoxia through blood–brain barrier (BBB) disruption and edema, mitochondrial dysfunction, oxidative stress, vessel blockage and vascular abnormalities. The hypoxia can, in turn, drive more inflammation. Summary The hypoxia-inflammation cycle could exacerbate neuroinflammation and disease progression. We explore therapeutic approaches that target this cycle, providing information about potential treatments in MS. There are many therapeutic approaches that could block this cycle, including inhibiting hypoxia-inducible factor 1-α (HIF-1α), blocking cell adhesion or using vasodilators or oxygen, which could reduce either inflammation or hypoxia. This review highlights the potential significance of the hypoxia-inflammation pathway in MS and suggests strategies to break the cycle. Such treatments could improve quality of life or reduce rates of progression.

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A Hypoxia-Inflammation Cycle and Multiple Sclerosis: Mechanisms and Therapeutic Implications

Soroush,

Dunn

2024

Curr Treat Options Neurol

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Investigating cortical hypoxia in multiple sclerosis via time‐domain near‐infrared spectroscopy

Cited by 1 publication

References 46 publications

A Hypoxia-Inflammation Cycle and Multiple Sclerosis: Mechanisms and Therapeutic Implications

A Hypoxia-Inflammation Cycle and Multiple Sclerosis: Mechanisms and Therapeutic Implications

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