Lower body negative pressure as a research tool and countermeasure for the physiological effects of spaceflight: A comprehensive review

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-06 DOI:10.1016/j.lssr.2024.03.007
Phani Paladugu , Rahul Kumar , Joshua Ong , Ethan Waisberg , Nasif Zaman , Sharif Amit Kamran , Alireza Tavakkoli , Maria Chiara Rivolta , Nicolas Nelson , Taehwan Yoo , Vivian Paraskevi Douglas , Konstantinos Douglas , Amy Song , Hanna Tso , Andrew G. Lee
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Abstract

Lower Body Negative Pressure (LBNP) redistributes blood from the upper body to the lower body. LBNP may prove to be a countermeasure for the multifaceted physiological changes endured by astronauts during spaceflight related to cephalad fluid shift. Over more than five decades, beginning with the era of Skylab, advancements in LBNP technology have expanded our understanding of neurological, ophthalmological, cardiovascular, and musculoskeletal adaptations in space, with particular emphasis on mitigating issues such as bone loss. To date however, no comprehensive review has been conducted that chronicles the evolution of this technology or elucidates the broad-spectrum potential of LBNP in managing the diverse physiological challenges encountered in the microgravity environment. Our study takes a chronological perspective, systematically reviewing the historical development and application of LBNP technology in relation to the various pathophysiological impacts of spaceflight. The primary objective is to illustrate how this technology, as it has evolved, offers an increasingly sophisticated lens through which to interpret the systemic effects of space travel on human physiology. We contend that the insights gained from LBNP studies can significantly aid in formulating targeted and effective countermeasures to ensure the health and safety of astronauts. Ultimately, this paper aspires to promote a more cohesive understanding of the broad applicability of LBNP as a countermeasure against multiple bodily effects of space travel, thereby contributing to a safer and more scientifically informed approach to human space exploration.

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将下半身负压作为研究工具和太空飞行生理效应的对策:全面回顾
下半身负压(LBNP)可将血液从上半身重新分配到下半身。事实可能证明,下半身负压是解决宇航员在太空飞行期间因头侧体液转移而承受的多方面生理变化的一种对策。从 Skylab 时代开始,五十多年来,LBNP 技术的进步扩大了我们对太空中神经、眼科、心血管和肌肉骨骼适应性的了解,尤其是对减轻骨质流失等问题的了解。然而,迄今为止,还没有一篇全面的综述记录了这项技术的发展历程,也没有阐明 LBNP 在应对微重力环境中遇到的各种生理挑战方面的广泛潜力。我们的研究从时间顺序的角度出发,系统地回顾了 LBNP 技术的历史发展和应用,以及太空飞行对病理生理的各种影响。研究的主要目的是说明这项技术在发展过程中是如何提供了一个日益复杂的视角来解读太空旅行对人体生理的系统性影响。我们认为,从 LBNP 研究中获得的见解可极大地帮助制定有针对性的有效对策,以确保宇航员的健康和安全。最终,本文希望促进对 LBNP 的广泛适用性有更一致的理解,将其作为对抗太空旅行对身体造成的多种影响的对策,从而为更安全、更有科学依据的人类太空探索方法做出贡献。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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