Fritz B Moore scite author profile

Fritz B Moore

5Publications

129Citation Statements Received

53Citation Statements Given

How they've been cited

121

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Ames Research Center

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Circulatory galanin levels increase severalfold with intense orthostatic challenge in healthy humans

Hinghofer‐Szalkay

Rössler²,

Evans³

et al. 2006

Journal of Applied Physiology

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The purpose of this study was to test the hypothesis that plasma galanin concentration (pGal) is regularly increased in healthy humans with extensive orthostatic stress. Twenty-six test persons (14 men, 12 women) were brought to an orthostatic end point via a progressive cardiovascular stress (PCS) protocol consisting of 70 degrees head-up tilt plus increasing levels of lower body negative pressure until either hemodynamically defined presyncope or other signs of orthostatic intolerance occurred (nausea, clammy skin, excessive sweating, pallor of the skin). We further tested for possible gender, gravitational, and muscular training influences on plasma pGal responses: PCS was applied before and after 3 wk of daily vertical acceleration exposure training on a Human Powered Centrifuge. Test persons were randomly assigned to active (with bicycle work) or passive (without work) groups (seven men, six women in each group). Resting pGal was 26+/-3 pg/ml in men and 39+/-15 pg/ml in women (not significant); women had higher galanin responses (4.9-fold increase) than men (3.5-fold, P=0.017) to PCS exposure. Overall, PCS increased pGal to 186+/-5 pg/ml (P=0.0003), without significant differences between presyncope vs. orthostatic intolerance, pre- vs. postcentrifuge, or active vs. passive gravitational training. Increases in pGal were poorly related to synchronous elevations in plasma vasopressin. We conclude that galanin is regularly increased in healthy humans under conditions of presyncopal orthostatic stress, the response being independent of gravity training but larger in women than in men.

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Hypovolemic men and women regulate blood pressure differently following exposure to artificial gravity

et al. 2015

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Artificial gravity training improves orthostatic tolerance in ambulatory men and women

et al. 2007

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Cardiovascular Regulation During Body Unweighting by Lower Body Positive Pressure

Evans

Mohney²,

Wang³

et al. 2013

Aviation, Space, and Environmental Medicine

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Standing at reduced bodyweight suppressed indexes of sympathetic control of heart rate and peripheral vasomotion. Regulatory responses indicated a combination of arterial and cardiopulmonary baroreflex control: mean heart rate, vasomotion, and baroreflex sensitivity appeared to be more under cardiopulmonary control while baroreflex effectiveness appeared to be driven more by the arterial baroreflex.

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Autonomic Cardiovascular Responses to Orthostatic Stress After a Short Artificial Gravity Exposure

Zhang¹,

Evans²,

Stenger³

et al. 2017

aerosp med hum perform

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These results indicate that a short bout of AG increased both sympathetic and baroreflex responsiveness to orthostatic stress in hypovolemia-induced, cardiovascular-deconditioned men and women, which may contribute to the AG-induced improvement of OTL shown in our previous reports.Zhang Q, Evans JM, Stenger MB, Moore FB, Knapp CF. Autonomic cardiovascular responses to orthostatic stress after a short artificial gravity exposure. Aerosp Med Hum Perform. 2017; 88(9):827-833.

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Fritz B Moore

Circulatory galanin levels increase severalfold with intense orthostatic challenge in healthy humans

Hypovolemic men and women regulate blood pressure differently following exposure to artificial gravity

Artificial gravity training improves orthostatic tolerance in ambulatory men and women

Cardiovascular Regulation During Body Unweighting by Lower Body Positive Pressure

Autonomic Cardiovascular Responses to Orthostatic Stress After a Short Artificial Gravity Exposure

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