Thoracic impedance and pulmonary atrial natriuretic peptide during head‐up tilt induced hypovolaemic shock in humans

Abstract

Head up and down tilts were used for manipulating the central blood volume in eight volunteers. During head-up tilt thoracic electrical impedance (TI) increased from 36.7 (33.9-52.1) ohm (mean and range) to 41.9 (36.9-59.2) ohm, heart rate from 60 (49-72) to 80 (65-90) beats min-1 (P < 0.05) and decreased again to 57 (48-67) beats min-1 accompanying a fall in mean arterial pressure from 86 (76-97) to 54 (41-79) mmHg and in cardiac output from 9.2 (5.9-12.1) to 6.9 (3.4-8.8) 1 min-1 (n = 7, P < 0.07). Central venous pressure did not change significantly. Pulmonary arterial mean, 6 (3-12) mmHg, and wedge pressures, 4 (1-9) mmHg, decreased to 4 (1-11) and 1 (0-7) mmHg, respectively, and mixed, 78 (77-79%), and central venous oxygen saturations, 72 (71-73)%, fell to 62 (46-75) and 54 (44-58)%, respectively (P < 0.05). Atrial natriuretic peptide (ANP) was determined from blood of the superior vena cava and pulmonary and brachial arteries. Pulmonary artery ANP, 18.4 (7.5-30.7) pmol l-1, was higher than in vena cava, 13.3 (5.2-20.9) pmol l-1 (P < 0.05). At the time of presyncope, pulmonary artery ANP decreased from 20.8 (37.4-10.1) to 13.7 (19.7-5.7) pmol l-1, in vena cava from 13.8 (23.1-7.1) to 10.2 (17.9-6.7) pmol l-1 and in the brachial artery from 16.9 (34.1-5.2) to 11.3 (18.5-5.1) pmol l-1 (P < 0.05). Head-down tilt did not affect the recorded variables significantly. Thoracic electrical impedance, pulmonary artery pressure and venous oxygen saturations were sensitive indices of the central blood volume as reflected in the release of atrial natriuretic peptide from the right side of the heart.