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NASA Spaceline Current Awareness List #1,001 27 May 2022 (Space Life Science Research Results)

Status Report From: Spaceline
Posted: Friday, May 27, 2022

SPACELINE Current Awareness Lists are distributed via listserv and are available on the NASA Task Book website at https://taskbook.nasaprs.com/Publication/spaceline.cfm. Please send any correspondence to Shawna Byrd, SPACELINE Current Awareness Senior Editor, SPACELINE@nasaprs.com.
 
Call for articles to cite in the weekly lists: Authors at NASA Centers and NASA PIs—do you have an article that has recently published or will publish in the upcoming weeks within a peer-reviewed journal and is in the scope of space life sciences? If so, send it our way! Send your article to the email address mentioned above. Articles received by Wednesday will appear within that week's list—articles received after Wednesday will appear the following week.
 
Papers deriving from NASA support:
 
1
Holden K, Greene M, Vincent E, Sándor A, Thompson S, Feiveson A, Munson B.
Effects of long-duration microgravity and gravitational transitions on fine motor skills.
Hum Factors. 2022 May 24;187208221084486. Online ahead of print.
https://pubmed.ncbi.nlm.nih.gov/35609944
PI: K. Holden
Note: ISS results.
Journal Impact Factor: 2.888
Funding: "This study was funded by the NASA Human Research Program and performed as part of the Human Health and Performance Contract #NNJ15HK11B at the NASA Johnson Space Center."
 
2
Desai RI, Limoli CL, Stark CEL, Stark SM.
Impact of spaceflight stressors on behavior and cognition: A molecular, neurochemical, and neurobiological perspective.
Neurosci Biobehav Rev. 2022 Jul;138:104676. Review.
https://pubmed.ncbi.nlm.nih.gov/35461987
PI: C.L. Limoli/NSCOR
Note: From the abstract: "The response of the human body to multiple spaceflight stressors is complex, but mounting evidence implicate risks to CNS [central nervous system] functionality as significant, able to threaten metrics of mission success and longer-term behavioral and neurocognitive health. Prolonged exposure to microgravity, sleep disruption, social isolation, fluid shifts, and ionizing radiation have been shown to disrupt mechanisms of homeostasis and neurobiological well-being. The overarching goal of this review was to document the existing evidence of how the major spaceflight stressors, including radiation, microgravity, isolation/confinement, and sleep deprivation, alone or in combination alter molecular, neurochemical, neurobiological, and plasma metabolite/lipid signatures that may be linked to operationally-relevant behavioral and cognitive performance."
Journal Impact Factor: 8.989
Funding: "This work was supported by grant number TXS0147017 (RID) from National Aeronautics and Space Administration (NASA), NASA Johnson Space Center and from NASA NSCOR grant number NNX15AI22G (CLL). All opinions expressed herein are strictly those of the authors and not necessarily those of NASA. We would also like to thank Dr. Joshua Alwood (NASA Ames Research Center, Moffett Field, CA) and Dr. Alexander C. Stahn (Perelman School of Medicine, Research Section for Behavioral Regulation and Health, Department of Psychiatry, University of Pennsylvania, Philadelphia, PA) for their contribution on this project as expert consultants on microgravity and isolation/confinement, respectively, as well as for reviewing and providing valuable comments on this report. We would also like to thank Ms. Oanh T. Luc (Behavioral Biology Program, McLean Hospital, Belmont, MA) for technical expertise in creating an overview figure (Figure 1) for the manuscript. Finally, we are grateful to Drs. Thomas J. Williams (NASA-JSC) and Ajit P. Mulavaria (NASA-JSC) for their valuable insights and discussions on spaceflight stressors, behavior, and cognition."
 
3
Anderson A, Stankovic A, Cowan D, Fellows A, Buckey J Jr.
Natural scene virtual reality as a behavioral health countermeasure in isolated, confined, and extreme environments: Three isolated, confined, extreme analog case studies.
Hum Factors. 2022 May 23;187208221100693. Online ahead of print.
https://pubmed.ncbi.nlm.nih.gov/35604867
PIs: K. Binsted, A. Anderson, J.C. Buckey Jr
Note: From the abstract: "Isolated, confined, extreme (ICE) environments are accompanied by a host of stress-inducing circumstances: operational pressure, interpersonal dynamics, limited communication with friends and family, and environmental hazards. We evaluated the effectiveness of attention-restoration-therapy-based immersive Virtual Reality (VR) in three ICE environments: the Canadian Forces Station-Alert (CFS Alert), the 12-month HI-SEAS IV expedition, and the 8-month HI-SEAS V expedition."
Journal Impact Factor: 2.888
Funding: "The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: This work was supported by the National Space Biomedical Research Institute project NBPF0380 through NASA cooperative agreement NCC 9–58, and in part by NASA Grants NNX13AM78G and NNX15AN05G."
 
4
Weislogel MM, Graf JC, Wollman AP, Turner CC, Cardin KJT, Torres LJ, Goodman JE, Buchli JC.
How advances in low-g plumbing enable space exploration.
npj Microgravity. 2022 May 20;8(1):16. Review.
https://pubmed.ncbi.nlm.nih.gov/35595832
PI: M.M. Weislogel
Note: From the abstract: "In many ways, plumbing is essential to life support. In fact, the advance of humankind on Earth is directly linked to the advance of clean, healthy, reliable plumbing solutions. Shouldn't this also be true for the advancement of humankind in space? Unfortunately, the reliability of even the simplest plumbing element aboard spacecraft is rarely that of its terrestrial counterpart. This state of affairs is due entirely to the near-weightless 'low-g' state of orbiting and coast spacecraft. But the combined passive capillary effects of surface tension, wetting, and system geometry in space can be exploited to replace the passive role of gravity on Earth, and thus achieve similar outcomes there. In this paper, we review a selection of experiments conducted in low-g environments (i.e., ISS and drop towers) that focus on capillary fluidic phenomena." This article may be obtained online without charge.
Journal Impact Factor: 4.415
Funding: "This work was supported in part through NASA Cooperative Agreements 80NSSC18K0436, NNC05AA29A and NNX12AO47A, NNX09AP66A, NASA SBIR contracts NNX14CJ03C, 80NSSC20C0134, and 80NSSC20C0056, and the German Federal Ministry of Economics and Technology (BMWi) via the German Aerospace Center (DLR) under Grant No. 50WM1145. All drop tower tests were conducted in the 2.1 s Dryden Drop Tower at Portland State University. We are ever grateful for the creative support of the ISS astronaut crews and cadre."
 
5
Gilbert R, Tanenbaum N, Bhattacharya S.
Asparagine biosynthesis as a mechanism of increased host lethality induced by Serratia marcescens in simulated microgravity environments.
Heliyon. 2022 May 1;8(5):e09379.
https://pubmed.ncbi.nlm.nih.gov/35592661
PIs: S. Govind, S. Bhattacharya, R. Gilbert, NASA Postdoctoral Program Fellowship
Note: From the abstract: "While studies have shown an increase in pathogenicity in several microbes during spaceflight and after exposure to simulated microgravity, the mechanisms underlying these changes in phenotype are not understood across different pathogens, particularly in opportunistic pathogens. This study evaluates the mechanism for increased virulence of the opportunistic gram-negative bacterium, Serratia marcescens, in simulated microgravity. Low-shear modeled microgravity (LSMMG) is used in ground-based studies to simulate the effects of microgravity as experienced in spaceflight. Our previous findings showed that there was a significant increase in mortality rates of the Drosophila melanogasterhost when infected with either spaceflight or LSMMG treated S. marcescens. Here, we report that LSMMG increases asparagine uptake and synthesis in S. marcescens and that the increased host lethality induced by LSMMG bacteria grown in rich media can be recapitulated in minimal media by adding only aspartate and glutamine, the substrates of asparagine biosynthesis." This article may be obtained online without charge.
Journal Impact Factor: 2.85
Funding: "This work was supported by NASA's Biological and Physical Sciences Division (grant number NNX15AB42G), Ames Research Center Intramural Research Funding, and the International Space Station Research and Development Office (to S.B.), and the NASA Postdoctoral Program (to R.G.)."
 
6
Abbott R, Diaz-Artiles A.
The impact of digital scents on behavioral health in a restorative virtual reality environment.
Acta Astronaut. 2022 May 21. Online ahead of print.
https://doi.org/10.1016/j.actaastro.2022.05.025
Note: From the abstract: "Astronauts on long-duration missions are at an increased risk of developing adverse behavioral conditions due to prolonged periods in isolated, confined, and extreme (ICE) environments. Sleep loss, sensory deprivation and monotony, and loss in social connectedness can further exacerbate their conditions and decrement performance, thus jeopardizing mission success. Future missions will require crews to travel distances that make current countermeasures increasingly difficult, as they rely on proximity to Earth. We have developed a multi-sensory virtual reality (VR) environment as a potential tool to maintain the long-term behavioral health of astronauts."
Journal Impact Factor: 2.413
Funding: "This work was supported by a NASA Space Technology Graduate Research Opportunity (grant number 80NSSC21K1263)."
 
___________________________________________________
 
 
Other papers of interest:
 
1
Napoli A, Micheletti D, Pindo M, Larger S, Cestaro A, de Vera J-P, Billi D.
Absence of increased genomic variants in the cyanobacterium Chroococcidiopsis exposed to Mars-like conditions outside the Space Station.
Sci Rep. 2022 May 19;12:8437.
https://pubmed.ncbi.nlm.nih.gov/35589950
Note: Expose-R2 facility on the ISS results. This article may be obtained online without charge.
 
2
Weber BM, Schätzle S, Stelzer M.
Aiming performance during spaceflight: Individual adaptation to microgravity and the benefits of haptic support.
Appl Ergon. 2022 Sep;103:103791.
https://pubmed.ncbi.nlm.nih.gov/35588558
Note: ISS results.
 
3
Xu P, Chen H, Hu J, Pang X, Jin J, Cai W.
Pectin methylesterase gene AtPMEPCRA contributes to physiological adaptation to simulated and spaceflight microgravity in Arabidopsis.
iScience. 2022 May 20;25(5):104331.
https://pubmed.ncbi.nlm.nih.gov/35602950
Note: China's SJ-10 satellite results. This article may be obtained online without charge.
 
4
Barabash V, Milz M, Kuhn T, Laufer R.
Development of a Competence Ecosystem for the future space workforce: Strategies, practices and recommendations from international master programs in northern Sweden.
Acta Astronaut. 2022 Aug;197:46-52. Review.
https://doi.org/10.1016/j.actaastro.2022.05.017
Note: From the abstract: "The presented Competence Ecosystem for space science and technology has been found to be an effective and sustainable tool for fostering a new generation of competent space workforce who is capable of achieving strategic objectives of the European Union's new space programme, to address the global challenges, and to promote the New Space agenda." This article may be obtained online without charge.
 
5
Shirah BH, Ibrahim BM, Aladdin Y, Sen J.
Space neuroscience: Current understanding and future research.
Neurol Sci. 2022 May 18. Review. Online ahead of print.
https://pubmed.ncbi.nlm.nih.gov/35583838
Note: From the abstract: "Space exploration is crucial for understanding our surroundings and establishing scientific concepts to explore, monitor, and save our planet's environment. However, the response of the human nervous system in the environment of space poses numerous challenges. Brain complexity explains the vulnerability and intrinsic difficulty of recalibration after disturbance. Over the millennia, the brain has evolved to function at 1-G. Studying the brain and its physiology in different environments may shed light on multiple conditions encountered on Earth that are yet to be solved and dictate collaboration at international levels. The nervous system is affected by several stressors due to microgravity, radiation, isolation, disruption of circadian rhythm, impaired sleep dynamics, and hypercapnia associated with space travel. In this article, we aim to review several aspects related to the nervous system in weightless conditions, as well as the development and future of the emerging field of 'space neuroscience.'"
 
6
Wang Y, Zhang X, Wang C, Huang W, Xu Q, Liu D, Zhou W, Chen S, Jiang Y.
Modulation of biological motion perception in humans by gravity.
Nat Commun. 2022 May 19;13:2765.
https://pubmed.ncbi.nlm.nih.gov/35589705
Note: Head-down tilt bedrest study. From the abstract: "The human visual perceptual system is highly sensitive to biological motion (BM) but less sensitive to its inverted counterpart. This perceptual inversion effect may stem from our selective sensitivity to gravity-constrained life motion signals and confer an adaptive advantage to creatures living on Earth. However, to what extent and how such selective sensitivity is shaped by the Earth's gravitational field is heretofore unexplored. Taking advantage of a spaceflight experiment and its ground-based analog via 6° head-down tilt bed rest (HDTBR), we show that prolonged microgravity/HDTBR reduces the inversion effect in BM perception." This article may be obtained online without charge.
 
7
Ponomarev SA, Sadova AA, Rykova MP, Orlova KD, Vlasova DD, Shulgina SM, Antropova EN, Kutko OV, Germanov NS, Galina VS, Shmarov VA.
The impact of short-term confinement on human innate immunity.
Sci Rep. 2022 May 19;12:8372.
https://pubmed.ncbi.nlm.nih.gov/35589846
Note: From the abstract: "During space missions cosmonauts are exposed to a myriad of distinct stressors such as radiation, overloads, weightlessness, radiation, isolation in artificial environmental conditions, which causes changes in the immune system. During spaceflights, it is very difficult to determine the particular factor associated with the observed immunological responses. This makes ground-based experiments examining the effect of each spaceflight associated factor along of particular value. Determining mechanisms causing alterations in cosmonauts' immunity can lead to potential targets for different countermeasures. In the current article we present the study of the early period of adaptation of human innate immunity of 6 healthy test-subjects, 4 males and 2 females aged 25 through 40, to isolation factors (hypodynamia, psychological stress, artificial environment)." This article may be obtained online without charge.
 
8
Belova SP, Kalashnikova EP, Tyganov SA, Kostrominova TY, Shenkman BS, Nemirovskaya TL.
Effect of enhanced muscle tone on the expression of atrogenes and cytoskeletal proteins during postural muscle unloading.
Arch Biochem Biophys. 2022 Aug 15;725:109291.
https://pubmed.ncbi.nlm.nih.gov/35597296
Note: Hindlimb unloading study.
 
9
De Moudt S, Hendrickx JO, De Meyer GRY, Martinet W, Fransen P.
Basal vascular smooth muscle cell tone in eNOS knockout mice can be reversed by cyclic stretch and is independent of age.
Front Physiol. 2022 Apr 28;13:882527.
https://pubmed.ncbi.nlm.nih.gov/35574444
Note: This article may be obtained online without charge.
 
10
Qin B, Baldoni M, Wu B, Zhou L, Qian Z, Zhu Q.
Effect of lumbar muscle atrophy on the mechanical loading change on lumbar intervertebral discs.
J Biomech. 2022 Jun;139:111120.
https://pubmed.ncbi.nlm.nih.gov/35588559
 
11
Abdala R, Mana D, Gonzales Pernas M, Dalto J, Sesta M, Jerkovich F, Zanchetta MB.
Exploring the differences between dominant and nondominant feet and hands bone mineral density.
J Clin Densitom. 2022 Apr 29;S1094-6950(22)00045-2. Online ahead of print.
https://pubmed.ncbi.nlm.nih.gov/35606280
 
12
Benulič Č, Canton G, Rasio N, Murena L, Kristan A.
Mechanobiology of indirect bone fracture healing under conditions of relative stability: A narrative review for the practicing clinician.
Acta Biomed. 2022 Mar 10;92(S3):e2021582. Review.
https://pubmed.ncbi.nlm.nih.gov/35604250
Note: This article may be obtained online without charge.
 
13
Rayat Pisheh H, Ansari M, Eslami H.
How is mechanobiology involved in bone regenerative medicine?
Tissue Cell. 2022 June;76:101821.
https://pubmed.ncbi.nlm.nih.gov/35594584
 
14
Riveros-Rivera A, Penzel T, Gunga H-C, Opatz O, Paul F, Klug L, Boschmann M, Mähler A.
Hypoxia differentially affects healthy men and women during a daytime nap with a dose-response relationship: A randomized, cross-over pilot study.
Front Physiol. 2022 May 24;13:899636.
https://doi.org/10.3389/fphys.2022.899636
Note: This article is part of Research Topic "Neurological, Neurophysiological, Psychological and Psychiatric Effects of High Altitude and Hypoxia" (https://www.frontiersin.org/research-topics/24670/neurological-neurophysiological-psychological-and-psychiatric-effects-of-high-altitude-and-hypoxia#articles). Additional articles will be forthcoming and may be found in the link to the Research Topic. This article may be obtained online without charge.
 
15
Ratkaj I, Mušković M, Malatesti N.
Targeting microenvironment of melanoma and head and neck cancers in photodynamic therapy.
Curr Med Chem. 2022;29(18):3261-99.
https://pubmed.ncbi.nlm.nih.gov/35593328
 
16
Wang Y, Li Y, Sheng Z, Deng W, Yuan H, Wang S, Liu Y.
Advances of patient-derived organoids in personalized radiotherapy.
Front Oncol. 2022 Apr 29;12:888416. Review.
https://pubmed.ncbi.nlm.nih.gov/35574360
Note: This article may be obtained online without charge.
 
17
Strauss MB, Covington DB.
Delayed recognition of Type II decompression sickness in a diver with chronic atrial fibrillation.
Undersea Hyperb Med. 2022 Second-Quarter;49(2):563-8. Review.
https://pubmed.ncbi.nlm.nih.gov/35580489
 
18
Karthikeyan R, Carrizales J, Johnson C, Mehta RK.
A window into the tired brain: Neurophysiological dynamics of visuospatial working memory under fatigue.
Hum Factors. 2022 May 14;187208221094900. Online ahead of print.
https://pubmed.ncbi.nlm.nih.gov/35574703
 

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