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Dynamic blood pressure control and orthostatic tolerance in individuals with MS a

$378,338R15FY2013HLNIH

Southern Methodist University, Dallas TX

Investigators

Linked publications, trials & patents

Abstract

DESCRIPTION (provided by applicant): Disruption or loss of axonal myelin in the central nervous system (CNS) with multiple sclerosis (MS) can lead to a myriad of symptoms including fatigue, spasticity, dizziness and vertigo, and balance and coordination problems in individuals with MS. The hypothalamus is frequently affected by MS, resulting in impaired control of autonomic and endocrine function. Autonomic dysfunction involving the genito-urinary, gastrointestinal, cardiovascular, and thermoregulatory systems are commonly observed and described in MS. Preliminary evidence suggests impairments in the neural control of blood pressure and heart rate in individuals with MS, as well as reductions in orthostatic tolerance. In addition, heat stress is known to exacerbate clinical signs and neurological symptoms of MS. Given that orthostatic tolerance is markedly reduced during heat stress in otherwise healthy individuals, in part due to impairments in arterial baroreflex control, it is likely that heat stres in this patient population would further impair neural control of cardiovascular function and orthostatic tolerance. Two aims will examine the physiologic consequences of MS on dynamic blood pressure control (i.e., baroreflex function) and the associated control mechanisms (i.e., neural, cardiac, and peripheral vascular responsiveness), as well as orthostatic tolerance in this population: 1. Is resting arterial baroreflex function impaired in MS patients? 2. Is orthostatic tolerance and arterial baroreflex responsiveness to orthostatic challenge during thermoneutral and heat stress conditions impaired in MS patients? Important basic and clinical information will be gained from the proposed studies through the novel application of established techniques that have not been previously used in the study of this disease. The findings obtained from these studies should provide novel information about the mechanisms contributing to the impaired blood pressure response in MS patients. Understanding these mechanisms may provide valuable information to clinicians for potential treatment strategies and improve the day-to-day lives of individuals with MS. Further, important information will be garnered in regard to the potential influences of heat stress in modulating neural cardiovascular responses in MS. Overall, the findings from the proposed work have the potential to lead to development of novel therapeutic strategies targeted at countering the deleterious cardiovascular and neural alterations in individuals with MS during thermoneutral and heat stress conditions. Indeed, if as preliminary data suggest, impairments in the arterial baroreflex function are identified as the underlying mechanism for impairments in orthostatic tolerance in MS patients, we will then be able to pursue therapies/interventions that could improve blood pressure regulation and potentially offset the deleterious neural cardiovascular responsiveness that manifests with this disease.

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Dynamic blood pressure control and orthostatic tolerance in individuals with MS a · GrantIndex