1. Neurohormonal responses to oscillatory lower body negative pressure in healthy subjects.
- Author
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Singh, Akanksha, Srivastav, Shival, Yadav, Kavita, Chandran, Dinu S., Jaryal, Ashok Kumar, and Deepak, K.K.
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PRESSURE drop (Fluid dynamics) , *VASOPRESSIN , *BLOOD pressure , *ORTHOSTATIC hypotension , *HEART beat , *SYSTOLIC blood pressure - Abstract
Lower body negative pressure (LBNP) has been employed in multiple countermeasure protocols against post spaceflight orthostatic hypotension. However, protocols utilizing oscillatory LBNP (oLBNP) have not been explored in this regard. oLBNP has shown promise in few studies to have good tolerance in conditions of hypovolemic stress and since the negative suction is only phasic, the extravascular fluid shifts associated with negative suction are also hypothesized to be less. Our study addressed the paucity of information on oLBNP by investigating the cardiovascular and neurohormonal effects of oLBNP of −15 and −45 mm Hg in 40 healthy adult males (mean age = 29.6 ± 4.7 years, BMI = 25.1 ± 3.6 kg/m2). After supine rest of 10 min (baseline), oLBNP was applied at −15 mm Hg and −45 mm Hg for 10 min each with a gap of 10 min. Blood sample for neurohormonal analysis was collected at the end of baseline and after each oLBNP exposure. Blood pressure, heart rate, respiratory rate and end tidal CO 2 (EtCO 2) were recorded for the entire duration. Serum angiotensin II (ATII), antidiuretic hormone (ADH) and atrial natriuretic peptide (ANP) were analyzed using ELISA. On comparison with the baseline [SBP: 114 ± 2.38, MBP: 75.8 ± 2.16 mm Hg] there was a significant fall in SBP on application of −15 mm Hg as well as −45 mm Hg oLBNP[-15 oLBNP: 107.4 ± 2.34 mm Hg; −45 oLBNP: 105.3 ± 2.28 mm Hg], while there was no significant difference observed in the DBP. There was a significant increase in the heart rate at both −15 [77.29(72.75–85.65) BPM] and −45 mm Hg [81.29 (73.93–86.09) BPM] oLBNP as compared to the baseline [70.41(64.32–79.80) BPM]. No significant difference in the serum ATII, ADH and ANP after 10 min of application of −15 or −45 mm Hg oLBNP as compared to baseline was observed. In conclusion, oLBNP induced legward pooling of blood causes a fall in the blood pressure which initiates the neural reflex mechanisms, most important being the baroreflex and the cardiopulmonary reflex. However, since there was no significant difference in the serum ATII, ADH and ANP from baseline, this suggests that 10 min oLBNP up to −45 mm Hg results in recruitment of cardiovascular neural reflex response but it does not evoke neurohormonal responses which mediate long term volume changes. • -45 mm Hg Oscillatory LBNP (oLBNP) evoked blood pressure drop & elevation in heart rate. • However, the serum ATII, ADH and ANP remain unchanged after the same protocol. • oLBNP causes recruitment of cardiovascular reflexes but not hormonal response. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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