Galanin and Adrenomedullin Plasma Responses During Artificial Gravity on a Human Short-Arm Centrifuge

Overview

Journal Front Physiol

Date 2019 Feb 19

PMID 30774604

Citations 2

Authors

Julia Winter

Charles Laing

Bernd Johannes

Edwin Mulder

Bianca Brix

Andreas Roessler

Johannes Reichmuth

Joern Rittweger

Nandu Goswami

Affiliations

Soon will be listed here.

Abstract

Galanin and adrenomedullin plasma responses to head-up tilt and lower body negative pressure have been studied previously. However, to what extent short-arm human centrifugation (SAHC) affects these responses is not known. In this study, we assessed how the application of variable gradients of accelerations ( ) via shifting of the rotation axis during centrifugation affects selected hormonal responses. Specifically, we tested the hypothesis, that (participants in whom at least one of the pre-defined criteria for presyncope was fulfilled) (participants who completed the entire protocol in both sessions) Twenty healthy subjects (10 women and 10 men) were exposed to two g-levels [1 G and 2.4 G at the feet (G)] in two positions (axis of rotation placed above the head and axis of rotation placed at the heart level). Elevated baseline levels of galanin appeared to predict orthostatic tolerance ( = 0.054) and seemed to support good orthostatic tolerance during 1 G SAHC ( = 0.034). In finishers, 2.4 G SAHC was associated with increased galanin levels after centrifugation ( = 0.007). For adrenomedullin, the hypothesized increases were observed after centrifugation at 1 G ( = 0.031), but not at 2.4 G, suggesting that other central mechanisms than local distribution of adrenomedullin predominate when coping with central hypovolemia induced by SAHC ( > 0.14). In conclusion, baseline galanin levels could potentially be used to predict development of presyncope in subjects. Furthermore, galanin levels increase during elevated levels of central hypovolemia and galanin responses appear to be important for coping with such challenges. Adrenomedullin release depends on degree of central hypovolemia induced fluid shifts and a subject's ability to cope with such challenges. Our results suggest that the gradient of acceleration ( ) is an innovative approach to quantify the grade of central hypovolemia and to assess neurohormonal responses in those that can tolerate () or not tolerate () artificial gravity (AG). As AG is being considered as a preventing tool for spaceflight induced deconditioning in future missions, understanding effects of AG on hormonal responses in subjects who develop presyncope is important.

Citing Articles

Support Vector Machine-Based Classification of Vasovagal Syncope Using Head-Up Tilt Test.

Hussain S, Raza Z, Giacomini G, Goswami N Biology (Basel). 2021; 10(10).

PMID: 34681130 PMC: 8533587. DOI: 10.3390/biology10101029.

Gravity Threshold and Dose Response Relationships: Health Benefits Using a Short Arm Human Centrifuge.

Kourtidou-Papadeli C, Frantzidis C, Gilou S, Plomariti C, Nday C, Karnaras D Front Physiol. 2021; 12:644661.

PMID: 34045973 PMC: 8144521. DOI: 10.3389/fphys.2021.644661.

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