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Spectral indices of cardiovascular adaptations to short-term simulated microgravity exposure
We investigated the effects of exposure to microgravity on the baseline autonomic balance in cardiovascular regulation using spectral analysis of cardiovascular variables measured during supine rest. Heart rate, arterial pressure, radial flow, thoracic fluid impedance and central venous pressure wer...
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| Published in: | Integrative Physiological and Behavioral Science 1995-07, Vol.30 (3), p.201-214 |
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| Main Authors: | , , , , , |
| Format: | Article |
| Language: | English |
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| cited_by | cdi_FETCH-LOGICAL-c218t-ac55df6fb249981e7483cc1e8dd331a54d3386919e47bd011c823cb9f396dcc73 |
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| cites | cdi_FETCH-LOGICAL-c218t-ac55df6fb249981e7483cc1e8dd331a54d3386919e47bd011c823cb9f396dcc73 |
| container_end_page | 214 |
| container_issue | 3 |
| container_start_page | 201 |
| container_title | Integrative Physiological and Behavioral Science |
| container_volume | 30 |
| creator | Patwardhan, A. R. Evans, J. M. Berk, M. Grande, K. J. Charles, J. B. Knapp, C. F. |
| description | We investigated the effects of exposure to microgravity on the baseline autonomic balance in cardiovascular regulation using spectral analysis of cardiovascular variables measured during supine rest. Heart rate, arterial pressure, radial flow, thoracic fluid impedance and central venous pressure were recorded from nine volunteers before and after simulated microgravity, produced by 20 hours of 6 degrees head down bedrest plus furosemide. Spectral powers increased after simulated microgravity in the low frequency region (centered at about 0.03 Hz) in arterial pressure, heart rate and radial flow, and decreased in the respiratory frequency region (centered at about 0.25 Hz) in heart rate. Reduced heart rate power in the respiratory frequency region indicates reduced parasympathetic influence on the heart. A concurrent increase in the low frequency power in arterial pressure, heart rate, and radial flow indicates increased sympathetic influence. These results suggest that the baseline autonomic balance in cardiovascular regulation is shifted towards increased sympathetic and decreased parasympathetic influence after exposure to short-term simulated microgravity. |
| doi_str_mv | 10.1007/BF02698574 |
| format | article |
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R. ; Evans, J. M. ; Berk, M. ; Grande, K. J. ; Charles, J. B. ; Knapp, C. F.</creator><creatorcontrib>Patwardhan, A. R. ; Evans, J. M. ; Berk, M. ; Grande, K. J. ; Charles, J. B. ; Knapp, C. F.</creatorcontrib><description>We investigated the effects of exposure to microgravity on the baseline autonomic balance in cardiovascular regulation using spectral analysis of cardiovascular variables measured during supine rest. Heart rate, arterial pressure, radial flow, thoracic fluid impedance and central venous pressure were recorded from nine volunteers before and after simulated microgravity, produced by 20 hours of 6 degrees head down bedrest plus furosemide. Spectral powers increased after simulated microgravity in the low frequency region (centered at about 0.03 Hz) in arterial pressure, heart rate and radial flow, and decreased in the respiratory frequency region (centered at about 0.25 Hz) in heart rate. Reduced heart rate power in the respiratory frequency region indicates reduced parasympathetic influence on the heart. A concurrent increase in the low frequency power in arterial pressure, heart rate, and radial flow indicates increased sympathetic influence. 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Spectral powers increased after simulated microgravity in the low frequency region (centered at about 0.03 Hz) in arterial pressure, heart rate and radial flow, and decreased in the respiratory frequency region (centered at about 0.25 Hz) in heart rate. Reduced heart rate power in the respiratory frequency region indicates reduced parasympathetic influence on the heart. A concurrent increase in the low frequency power in arterial pressure, heart rate, and radial flow indicates increased sympathetic influence. 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Spectral powers increased after simulated microgravity in the low frequency region (centered at about 0.03 Hz) in arterial pressure, heart rate and radial flow, and decreased in the respiratory frequency region (centered at about 0.25 Hz) in heart rate. Reduced heart rate power in the respiratory frequency region indicates reduced parasympathetic influence on the heart. A concurrent increase in the low frequency power in arterial pressure, heart rate, and radial flow indicates increased sympathetic influence. These results suggest that the baseline autonomic balance in cardiovascular regulation is shifted towards increased sympathetic and decreased parasympathetic influence after exposure to short-term simulated microgravity.</abstract><cop>Legacy CDMS</cop><pmid>7577683</pmid><doi>10.1007/BF02698574</doi><tpages>14</tpages></addata></record> |
| fulltext | fulltext |
| identifier | ISSN: 1053-881X |
| ispartof | Integrative Physiological and Behavioral Science, 1995-07, Vol.30 (3), p.201-214 |
| issn | 1053-881X 1936-3567 |
| language | eng |
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| source | Springer LINK Archives |
| subjects | Adaptation, Physiological - physiology Adult Aerospace Medicine Blood Pressure - physiology Cardiovascular Physiological Phenomena Diuresis - physiology Fourier Analysis Head-Down Tilt - physiology Heart Rate - physiology Hemodynamics - physiology Humans Male Monitoring, Physiologic - instrumentation Parasympathetic Nervous System - physiology Signal Processing, Computer-Assisted Space life sciences Sympathetic Nervous System - physiology Water-Electrolyte Balance - physiology Weightlessness |
| title | Spectral indices of cardiovascular adaptations to short-term simulated microgravity exposure |
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