Temperature sensitivity in multiple sclerosis: an overview of its impact on sensory and cognitive symptoms
Temperature sensitivity in multiple sclerosis: an overview of its impact on sensory and cognitive symptoms
Multiple sclerosis (MS) is an autoimmune neurodegenerative disease characterized by demyelination of the central nervous system (CNS). The exact cause of MS is still unknown; yet its incidence and prevalence rates are growing worldwide, making MS a significant public health challenge. The heterogeneous distribution of demyelination within and between MS patients translates in a complex and varied array of autonomic, motor, sensory and cognitive symptoms. Yet a unique aspect of MS is the highly prevalent (60–80%) temperature sensitivity of its sufferers, where neurological symptoms are temporarily exacerbated by environmental- or exercise-induced increases (or decreases) in body temperature. MS temperature sensitivity is primarily driven by temperature-dependent slowing or blocking of neural conduction within the CNS due to changes in internal (core) temperature; yet changes in skin temperature could also contribute to symptom exacerbation (e.g. during sunlight and warm ambient exposure). The impact of temperature sensitivity, and particularly of increases in core temperature, on autonomic (e.g. thermoregulatory/cardiovascular function) and motor symptoms (e.g. fatigue) is well described. However, less attention has been given to how increases (and decreases) in core and skin temperature affect sensory and cognitive symptoms. Furthermore, it remains uncertain whether changes in skin temperature alone could also trigger worsening of symptoms. Here we review the impact of temperature sensitivity on MS sensory and cognitive function and discuss additional factors (e.g. changes in skin temperature) that potentially contribute to temperature-induced worsening of symptoms in the absence of alteration in core temperature.
Christogianni, Aikaterini
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Bibb, Richard
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Davis, Scott L.
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Jay, Ollie
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Barnett, Michael
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Evangelou, Nikos
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Filingeri, Davide
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Christogianni, Aikaterini
696c8a6c-30d6-4fb1-b7e4-70d45997180b
Bibb, Richard
249dd806-b589-48d1-8568-b28b88a8989c
Davis, Scott L.
8cacbc30-25be-492f-bf2c-8577f0bb3978
Jay, Ollie
2e255cfd-1fc6-4ce7-891d-4fcba88c0250
Barnett, Michael
c85ddfdb-34b3-456c-af33-e0d158583479
Evangelou, Nikos
08946feb-e580-4985-9aa1-76a2b0f66162
Filingeri, Davide
42502a34-e7e6-4b49-b304-ce2ae0bf7b24
Christogianni, Aikaterini, Bibb, Richard, Davis, Scott L., Jay, Ollie, Barnett, Michael, Evangelou, Nikos and Filingeri, Davide
(2018)
Temperature sensitivity in multiple sclerosis: an overview of its impact on sensory and cognitive symptoms.
Temperature, 5 (3).
(doi:10.1080/23328940.2018.1475831).
Abstract
Multiple sclerosis (MS) is an autoimmune neurodegenerative disease characterized by demyelination of the central nervous system (CNS). The exact cause of MS is still unknown; yet its incidence and prevalence rates are growing worldwide, making MS a significant public health challenge. The heterogeneous distribution of demyelination within and between MS patients translates in a complex and varied array of autonomic, motor, sensory and cognitive symptoms. Yet a unique aspect of MS is the highly prevalent (60–80%) temperature sensitivity of its sufferers, where neurological symptoms are temporarily exacerbated by environmental- or exercise-induced increases (or decreases) in body temperature. MS temperature sensitivity is primarily driven by temperature-dependent slowing or blocking of neural conduction within the CNS due to changes in internal (core) temperature; yet changes in skin temperature could also contribute to symptom exacerbation (e.g. during sunlight and warm ambient exposure). The impact of temperature sensitivity, and particularly of increases in core temperature, on autonomic (e.g. thermoregulatory/cardiovascular function) and motor symptoms (e.g. fatigue) is well described. However, less attention has been given to how increases (and decreases) in core and skin temperature affect sensory and cognitive symptoms. Furthermore, it remains uncertain whether changes in skin temperature alone could also trigger worsening of symptoms. Here we review the impact of temperature sensitivity on MS sensory and cognitive function and discuss additional factors (e.g. changes in skin temperature) that potentially contribute to temperature-induced worsening of symptoms in the absence of alteration in core temperature.
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e-pub ahead of print date: 5 September 2018
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Local EPrints ID: 449178
URI: http://eprints.soton.ac.uk/id/eprint/449178
PURE UUID: c7969af4-16d0-4766-80dc-75c4aef387c2
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Date deposited: 19 May 2021 16:30
Last modified: 17 Mar 2024 04:05
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Contributors
Author:
Aikaterini Christogianni
Author:
Richard Bibb
Author:
Scott L. Davis
Author:
Ollie Jay
Author:
Michael Barnett
Author:
Nikos Evangelou
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