Your search keyword '"Truijen, Jasper"' showing total 4 results

1. Does the beta 2 adrenergic receptor influence the wave reflection response to standing?

Author

van den Bogaard, Bas, de Peuter, Olav R., Westerhof, Berend E., Best, Hendrik, Truijen, Jasper, Kamphuisen, Pieter W., and van den Born, Bert-Jan H.

Published

2011

2. Blood pressure reduction after gastric bypass surgery is explained by a decrease in cardiac output.

Author

van Brussel, Peter M., van den Bogaard, Bas, de Weijer, Barbara A., Truijen, Jasper, Krediet, C. T. Paul, Janssen, Ignace M., van de Laar, Arnold, Kaasjager, Karin, Fliers, Eric, van Lieshout, Johannes J., Serlie, Mireille J., and van den Born, Bert-Jan H.

Subjects

BLOOD pressure, GASTRIC bypass, BAROREFLEXES

Abstract

Blood pressure (BP) decreases in the first weeks after Roux-and-Y gastric bypass surgery. Yet the pathophysiology of the BP-lowering effects observed after gastric bypass surgery is incompletely understood. We evaluated BP, systemic hemodynamics, and baroreflex sensitivity in 15 obese women[mean age 42 ± 7 standard deviation (SD) yr, body mass index 45 ± 6 kg/m2] 2 wk before and 6 wk following Rouxand-Y gastric bypass surgery. Six weeks after gastric bypass surgery, mean body weight decreased by 13 ± 5 kg (10%, P < 0.001). Office BP decreased from 137 ± 10/86 ± 6 to 128± 12/81 ± 9 mmHg (P < 0.001, P < 0.01), while daytime ambulatory BP decreased from 128 ± 14/80 ± 9 to 114 ± 10/73 ± 6 mmHg (P = 0.01, P = 0.05), whereas nighttime BP decreased from 111 ± 13/66 ± 7 to 102 ± 9/ 62 ± 7 mmHg (P = 0.04, P < 0.01). The decrease in BP was associated with a 1.6 ± 1.2 l/min (20%, P < 0.01) decrease in cardiac output (CO), while systemic vascular resistance increased (153 ± 189 dyn·s·cm-5, 15%, P < 0.01). The maximal ascending slope in systolic blood pressure decreased (192 mmHg/s, 19%, P = 0.01), suggesting a reduction in left ventricular contractility. Baroreflex sensitivity increased from 9.0 [6.4-14.3] to 13.8 [8.5-19.0] ms/mmHg (median [interquartile range]; P < 0.01) and was inversely correlated with the reductions in heart rate (R=-0.64, P = 0.02) and CO (R=-0.61, P = 0.03). In contrast, changes in body weight were not correlated with changes in either BP or CO. The BP reduction following Roux-and-Y gastric bypass surgery is correlated with a decrease in CO independent of changes in body weight. The contribution of heart rate to the reduction in CO together with enhanced baroreflex sensitivity suggests a shift toward increased parasympathetic cardiovascular control. NEW & NOTEWORTHY The reason for the decrease in blood pressure (BP) in the first weeks after gastric bypass surgery remains to be elucidated. We show that the reduction in BP following surgery is caused by a decrease in cardiac output. In addition, the maximal ascending slope in systolic blood pressure decreased suggesting a reduction in left ventricular contractility and cardiac workload. These findings help to understand the physiological changes following gastric bypass surgery and are relevant in light of the increased risk of heart failure in these patients. [ABSTRACT FROM AUTHOR]

Published

2017

3. A definition of normovolaemia and consequences for cardiovascular control during orthostatic and environmental stress.

Author

Truijen, Jasper, Bundgaard-Nielsen, Morten, and van Lieshout, Johannes J.

Subjects

*ENVIRONMENTAL engineering, *BLOOD flow, *BLOOD circulation, *HEMODYNAMICS, *BLOOD volume

Abstract

The Frank–Starling mechanism describes the relationship between stroke volume and preload to the heart, or the volume of blood that is available to the heart—the central blood volume. Understanding the role of the central blood volume for cardiovascular control has been complicated by the fact that a given central blood volume may be associated with markedly different central vascular pressures. The central blood volume varies with posture and, consequently, stroke volume and cardiac output ( $$ \dot{Q} $$) are affected, but with the increased central blood volume during head-down tilt, stroke volume and $$ \dot{Q} $$ do not increase further indicating that in the supine resting position the heart operates on the plateau of the Frank–Starling curve which, therefore, may be taken as a functional definition of normovolaemia. Since the capacity of the vascular system surpasses the blood volume, orthostatic and environmental stress including bed rest/microgravity, exercise and training, thermal loading, illness, and trauma/haemorrhage is likely to restrict venous return and $$ \dot{Q} $$. Consequently the cardiovascular responses are determined primarily by their effect on the central blood volume. Thus during environmental stress, flow redistribution becomes dependent on sympathetic activation affecting not only skin and splanchnic blood flow, but also flow to skeletal muscles and the brain. This review addresses the hypothesis that deviations from normovolaemia significantly influence these cardiovascular responses. [ABSTRACT FROM AUTHOR]

Published

2010

4. Transient influence of end-tidal carbon dioxide tension on the postural restraint in cerebral perfusion.

Author

Immink, Rogier V., Truijen, Jasper, Secher, Niels H., and Van Lieshout, Johannes J.

Subjects

CEREBRAL circulation, CARBON dioxide in the body, ORTHOSTATIC hypotension, HEMODYNAMICS, CEREBRAL arteries

Abstract

In the upright position, cerebral blood flow is reduced, maybe because arterial carbon dioxide partial pressure (PaCO2) decreases. We evaluated the time-dependent influence of a reduction in PaCO2, as indicated by the end-tidal PCO2 tension (PETCO2), on cerebral perfusion during head-up tilt. Mean arterial pressure, cardiac output, middle cerebral artery mean flow velocity (MCA Vmean), and dynamic cerebral autoregulation at supine rest and 70° head-up tilt were determined during free breathing and with PETCO2 clamped to the supine level. The postural changes in central hemodynamic variables were equivalent, and the cerebrovascular autoregulatory capacity was not significantly affected by tilt or by clamping PETCO2. In the first minute of tilt, the decline in MCA Vmean (10 ± 4 vs. 3 ± 4 cm/s; mean ± SE; P < 0.05) and PETCO2 (6.8 ± 4.3 vs. 1.7 ± 1.6 Torr; P < 0.05) was larger during spontaneous breathing than during isocapnic tilt. However, after 2 mm in the head-up position, the reduction in MCA Vmean was similar (7 ± 5 vs. 6 ± 3 cm/s), although the spontaneous decline in PETCO2 was maintained (P < 0.05 vs. isocapnic tilt). These results suggest that the potential contribution of PaCO2 to the postural reduction in MCA Vmean is transient, leaving the mechanisms for the sustained restrain in MCA Vmean to be identified. [ABSTRACT FROM AUTHOR]

Published

2009