Lower vascular tone and larger plasma volume in Parkinson's disease with orthostatic hypotension

The pathophysiology of orthostatic hypotension in Parkinson's disease (PD) is incompletely understood. The primary focus has thus far been on failure of the baroreflex, a central mediated vasoconstrictor mechanism. Here, we test the role of two other possible factors: 1) a reduced peripheral va...

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Veröffentlicht in:	Journal of applied physiology (1985) 2011-08, Vol.111 (2), p.443-448
Hauptverfasser:	GROOTHUIS, J. T, ESSELINK, R. A. J, SEEGER, J. P. H, VAN AALST, M. J. H, HOPMAN, M. T. E, BLOEM, B. R
Format:	Artikel
Sprache:	eng
Schlagworte:	Aged Antiparkinson Agents - therapeutic use Biological and medical sciences Blood pressure Blood Pressure - physiology Blood Vessels - physiopathology Dopamine Agents - therapeutic use Female Fundamental and applied biological sciences. Psychology Humans Hypotension, Orthostatic - etiology Hypotension, Orthostatic - physiopathology Leg - blood supply Male Middle Aged Muscle Tonus - physiology Parkinson Disease - complications Parkinson Disease - physiopathology Parkinson's disease Plasma Plasma Volume - physiology Radiopharmaceuticals Regional Blood Flow - physiology Serum Albumin, Radio-Iodinated Tilt-Table Test Ultrasonic imaging Vascular Resistance - physiology
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container_title	Journal of applied physiology (1985)
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creator	GROOTHUIS, J. T ESSELINK, R. A. J SEEGER, J. P. H VAN AALST, M. J. H HOPMAN, M. T. E BLOEM, B. R
description	The pathophysiology of orthostatic hypotension in Parkinson's disease (PD) is incompletely understood. The primary focus has thus far been on failure of the baroreflex, a central mediated vasoconstrictor mechanism. Here, we test the role of two other possible factors: 1) a reduced peripheral vasoconstriction (which may contribute because PD includes a generalized sympathetic denervation); and 2) an inadequate plasma volume (which may explain why plasma volume expansion can manage orthostatic hypotension in PD). We included 11 PD patients with orthostatic hypotension (PD + OH), 14 PD patients without orthostatic hypotension (PD - OH), and 15 age-matched healthy controls. Leg blood flow was examined using duplex ultrasound during 60° head-up tilt. Leg vascular resistance was calculated as the arterial-venous pressure gradient divided by blood flow. In a subset of 9 PD + OH, 9 PD - OH, and 8 controls, plasma volume was determined by indicator dilution method with radiolabeled albumin ((125)I-HSA). The basal leg vascular resistance was significantly lower in PD + OH (0.7 ± 0.3 mmHg·ml(-1)·min) compared with PD - OH (1.3 ± 0.6 mmHg·ml(-1)·min, P < 0.01) and controls (1.3 ± 0.5 mmHg·ml(-1)·min, P < 0.01). Leg vascular resistance increased significantly during 60° head-up tilt with no significant difference between the groups. Plasma volume was significantly larger in PD + OH (3,869 ± 265 ml) compared with PD - OH (3,123 ± 377 ml, P < 0.01) and controls (3,204 ± 537 ml, P < 0.01). These results indicate that PD + OH have a lower basal leg vascular resistance in combination with a larger plasma volume compared with PD - OH and controls. Despite the increase in leg vascular resistance during 60° head-up tilt, PD + OH are unable to maintain their blood pressure.
doi_str_mv	10.1152/japplphysiol.00069.2011
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Leg blood flow was examined using duplex ultrasound during 60° head-up tilt. Leg vascular resistance was calculated as the arterial-venous pressure gradient divided by blood flow. In a subset of 9 PD + OH, 9 PD - OH, and 8 controls, plasma volume was determined by indicator dilution method with radiolabeled albumin ((125)I-HSA). The basal leg vascular resistance was significantly lower in PD + OH (0.7 ± 0.3 mmHg·ml(-1)·min) compared with PD - OH (1.3 ± 0.6 mmHg·ml(-1)·min, P < 0.01) and controls (1.3 ± 0.5 mmHg·ml(-1)·min, P < 0.01). Leg vascular resistance increased significantly during 60° head-up tilt with no significant difference between the groups. Plasma volume was significantly larger in PD + OH (3,869 ± 265 ml) compared with PD - OH (3,123 ± 377 ml, P < 0.01) and controls (3,204 ± 537 ml, P < 0.01). These results indicate that PD + OH have a lower basal leg vascular resistance in combination with a larger plasma volume compared with PD - OH and controls. 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We included 11 PD patients with orthostatic hypotension (PD + OH), 14 PD patients without orthostatic hypotension (PD - OH), and 15 age-matched healthy controls. Leg blood flow was examined using duplex ultrasound during 60° head-up tilt. Leg vascular resistance was calculated as the arterial-venous pressure gradient divided by blood flow. In a subset of 9 PD + OH, 9 PD - OH, and 8 controls, plasma volume was determined by indicator dilution method with radiolabeled albumin ((125)I-HSA). The basal leg vascular resistance was significantly lower in PD + OH (0.7 ± 0.3 mmHg·ml(-1)·min) compared with PD - OH (1.3 ± 0.6 mmHg·ml(-1)·min, P < 0.01) and controls (1.3 ± 0.5 mmHg·ml(-1)·min, P < 0.01). Leg vascular resistance increased significantly during 60° head-up tilt with no significant difference between the groups. Plasma volume was significantly larger in PD + OH (3,869 ± 265 ml) compared with PD - OH (3,123 ± 377 ml, P < 0.01) and controls (3,204 ± 537 ml, P < 0.01). 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Here, we test the role of two other possible factors: 1) a reduced peripheral vasoconstriction (which may contribute because PD includes a generalized sympathetic denervation); and 2) an inadequate plasma volume (which may explain why plasma volume expansion can manage orthostatic hypotension in PD). We included 11 PD patients with orthostatic hypotension (PD + OH), 14 PD patients without orthostatic hypotension (PD - OH), and 15 age-matched healthy controls. Leg blood flow was examined using duplex ultrasound during 60° head-up tilt. Leg vascular resistance was calculated as the arterial-venous pressure gradient divided by blood flow. In a subset of 9 PD + OH, 9 PD - OH, and 8 controls, plasma volume was determined by indicator dilution method with radiolabeled albumin ((125)I-HSA). The basal leg vascular resistance was significantly lower in PD + OH (0.7 ± 0.3 mmHg·ml(-1)·min) compared with PD - OH (1.3 ± 0.6 mmHg·ml(-1)·min, P < 0.01) and controls (1.3 ± 0.5 mmHg·ml(-1)·min, P < 0.01). Leg vascular resistance increased significantly during 60° head-up tilt with no significant difference between the groups. Plasma volume was significantly larger in PD + OH (3,869 ± 265 ml) compared with PD - OH (3,123 ± 377 ml, P < 0.01) and controls (3,204 ± 537 ml, P < 0.01). These results indicate that PD + OH have a lower basal leg vascular resistance in combination with a larger plasma volume compared with PD - OH and controls. Despite the increase in leg vascular resistance during 60° head-up tilt, PD + OH are unable to maintain their blood pressure.</abstract><cop>Bethesda, MD</cop><pub>American Physiological Society</pub><pmid>21636563</pmid><doi>10.1152/japplphysiol.00069.2011</doi><tpages>6</tpages></addata></record>
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subjects	Aged Antiparkinson Agents - therapeutic use Biological and medical sciences Blood pressure Blood Pressure - physiology Blood Vessels - physiopathology Dopamine Agents - therapeutic use Female Fundamental and applied biological sciences. Psychology Humans Hypotension, Orthostatic - etiology Hypotension, Orthostatic - physiopathology Leg - blood supply Male Middle Aged Muscle Tonus - physiology Parkinson Disease - complications Parkinson Disease - physiopathology Parkinson's disease Plasma Plasma Volume - physiology Radiopharmaceuticals Regional Blood Flow - physiology Serum Albumin, Radio-Iodinated Tilt-Table Test Ultrasonic imaging Vascular Resistance - physiology
title	Lower vascular tone and larger plasma volume in Parkinson's disease with orthostatic hypotension
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