Browsing by Subject "orthostatic stress"
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Item Baroreflex Mediated Autonomic Modulation by Acute Pain and Orthostatic Stress(2008-10-01) Raven, Joseph Simon; James Caffrey; Joan Carroll; Robert MalletRaven, Joseph Simon, Baroreflex Mediated Autonomic Modulation by Acute Pain and Orthostatic Stress. Doctor of Philosophy (Integrative Physiology), October 2008, 147 pp.; 23 figures; bibliography; 123 titles. Nociceptive and baroreceptor afferent neurons are implicated as the components responsible for carotid baroreceptor reflex (CBR) resetting. The purpose of this dissertation was to identify the effect of cold induced pain, and cardiopulmonary baroreceptor (CPBR) unloading accompanied by pain, on CBR resetting. First, the relationships between cold induced pain to cardiovascular responses, pain perception, and muscle sympathetic nerve activity (MSNA) were investigated. Questions were addressed through use of the cold pressor test (CPT), finger plethysmography, and microneurography. This study demonstrated perceived pain, MSNA, and blood pressure responses to a cold stimulus were reproducible. Furthermore, graded responses observed in mean arterial pressure (MAP) and MSNA directly correlated to the intensity of the pain stimulus. The next study examined cold induced pain on CBR gain and operational point resetting in healthy normotensive subjects. Using similar experimental methodologies to the previous study, the data demonstrated acute pain shifted the CBR operational point toward the lower limiting value of MSNA. These data also confirmed an upward-rightward shift and increased gain of the CBR function curve during pain. Finally, CBR gain and operational point resetting during simultaneous CPBR unloading and cold induced pain in healthy normotensive subjects was addressed. Using the previous experimental paradigm, this investigation revealed CPBR unloading during acute pain did not abolish the shift of the CBR operational point. Thus, the capacity for hypotensive buffering remained enhanced. This study also determined CPBR unloading during acute pain produced higher prevailing blood pressures compared to periods of CPBR unloading alone. In summary: 1)MSNA and cardiovascular responses were tightly coupled to pain. 2) The CPT was a reliable technique for producing repeated sympathoexcitation within a subject. 3) Acute pain increased CBR gain and induced a shift of the CBR operational point. 4) The CBR operational point shift remained in the presence of CPBR unloading, which precipitated increased MAP during hypotensive stimuli. These findings suggested pain improves blood pressure maintenance during central hypovolemic stress.Item Cardiac Autonomic Response to Hypovolemia --- Effect of Age(1997-08-01) Wang, Hong-Wei; Raven, Peter B.; Shi, Xiangrong; Caffrey, James L.Objective: The beat-to-beat variation in heart rate reflects the dynamic response of the cardiovascular control systems to physiological perturbations such as respiration and postural change. The heart rate variation (HRV) is a part of the rapidly reacting component of cardiovascular homeostasis largely influenced by parasympathetic and sympathetic input. Thus, beat-to-beat variation in heart rate can be used as a measure of cardiac autonomic responses. The standard deviation of R-R interval is a measure of the overall variability in heart rate and has been shown to decrease with aging (9,23). This measure, however, can not identify individual sources of the variation. Spectral analysis reduces a signal to its constituent frequency components and the relative power of these components has been indicated related to parasympathetic mediation, combined sympathetic and parasympathetic mediation, and sympathetic mediation (1, 14, 17). Limited data are available regarding power spectral analysis of heart rate variation to study aging changes under orthostatic stress. An attenuated cardiac sympathetic nerve activity was found in older group vs younger individuals (7, 11, 19) during posture change. However, these studies were carried out using either posture change from to upright or passive head-up tilt. During these posture changes, both cardiopulmonary baroreceptors (i.e., intrathoracic hypovolemia) and arterial baroreceptors (postural hypotension) were unloaded. Therefore, it is unclear whether there is any difference in the HR variability between the young and the elderly during unloading of cardiopulmonary baroreceptors (or low-pressure baroreceptors) alone. In this study, we investigated the age difference in cardiac autonomic modulation of heart rate during unloading of cardiopulmonary baroreceptors with or without systemic arterial hypotension. For the purpose, we examined beat-to-beat heart rate variability in both the time and frequency domain using power spectral analyses in healthy individuals from ages 18 to 68 under basal conditions and in response to graded lower body negative pressure induced central hypovolemia. Not only individual low and high frequency spectral content were analyzed and those parameters were compared in order to find a quantitative evaluation of sympathetic and parasympathetic modulation and under the graded lower body negative pressure.