Microfluidics-integrated spaceflight hardware for measuring muscle strength of Caenorhabditis elegans on the International Space Station

Soni, Purushottam; Anupom, Taslim; Lesanpezeshki, Leila; Rahman, Mizanur; Hewitt, Jennifer; Vellone, Matthew; Stodieck, Louis S.; Bławzdziewicz, Jerzy; Szewczyk, Nathaniel J.; Vanapalli, Siva A.

doi:10.1038/s41526-022-00241-4

Cited by 7 publications

(13 citation statements)

References 64 publications

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“…Additionally, these earth-based studies mainly used bacteria-based liquid culture media, which possibly results in the clogging of microfluidic channels and brings the risks of biosafety to the crew and workstation on the space station. Recently, Soni et al 6 verified the feasibility of microfluidic-based C. elegans spaceflight experiment. However, in this work, nematodes were cultured in liquid bags and periodically loaded into the chambers of the chip for observation by astronauts, resulting a low degree of automation and deficiency of validating on-chip long-term cultivation in orbit.…”

Section: Resultsmentioning

confidence: 99%

“…5 Together, C. elegans has been recognized as an excellent model system for space biology research. 6…”

Section: Introductionmentioning

confidence: 99%

“…5 Together, C. elegans has been recognized as an excellent model system for space biology research. 6 From 1992 to 2021, C. elegans was flown in several spaceflight investigations through the space transportation system (STS), 3,[7][8][9][10][11] DELTA MISSION (ICE-FIRST) 2,5,12 and SpaceX mission 4,13,14 to the International Space Station (ISS), or from China's Shenzhou-8 spacecraft 15,16 and Shijian-10 recoverable scientific satellite. 17 These studies mainly focused on the biological effects of space radiation and microgravity, and most of them used genomics or proteomics to analyze C. elegans populations with multiple generations and different developmental stages.…”

Section: Introductionmentioning

confidence: 99%

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WormSpace μ-TAS enabling automated on-chip multi-strain culturing and multi-function imaging of Caenorhabditis elegans at the single-worm level on the China Space Station

Yang,

Zhong,

Chang

et al. 2024

Lab Chip

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Section: Resultsmentioning

confidence: 99%

“…5 Together, C. elegans has been recognized as an excellent model system for space biology research. 6…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

WormSpace μ-TAS enabling automated on-chip multi-strain culturing and multi-function imaging of Caenorhabditis elegans at the single-worm level on the China Space Station

Yang,

Zhong,

Chang

et al. 2024

Lab Chip

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“…Nematode sample preparation usually occurs on Earth, with worm culture bags being flown to the ISS, where the crew extracts samples and injects into the microfluidic chips. The authors have recently flown to the ISS micropillar-based microfluidic devices for muscle strength measurements in C. elegans [ 20 ], and the CIP is a valuable addition to the imaging needs on the ISS.…”

Section: Resultsmentioning

confidence: 99%

“…The numerous advantages that underscore the use of C. elegans as a genetic model on Earth also translate to its use in spaceflight as a cost-effective organism to understand the mechanisms underlying the effects of microgravity and radiation exposure on astronaut health. Indeed, C. elegans have been flown several times to the International Space Station (ISS) [ 16 , 17 , 18 , 19 , 20 ]. The conducting of animal experiments on the ISS is associated with stringent operational requirements on payload size, weight, crew time and safety [ 21 , 22 ].…”

Section: Introductionmentioning

confidence: 99%

A Compact Imaging Platform for Conducting C. elegans Phenotypic Assays on Earth and in Spaceflight

Anupom

Vanapalli

2023

Life

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The model organism Caenorhabditis elegans is used in a variety of applications ranging from fundamental biological studies, to drug screening, to disease modeling, and to space-biology investigations. These applications rely on conducting whole-organism phenotypic assays involving animal behavior and locomotion. In this study, we report a 3D printed compact imaging platform (CIP) that is integrated with a smart-device camera for the whole-organism phenotyping of C. elegans. The CIP has no external optical elements and does not require mechanical focusing, simplifying the optical configuration. The small footprint of the system powered with a standard USB provides capabilities ranging from plug-and-play, to parallel operation, and to housing it in incubators for temperature control. We demonstrate on Earth the compatibility of the CIP with different C. elegans substrates, including agar plates, liquid droplets on glass slides and microfluidic chips. We validate the system with behavioral and thrashing assays and show that the phenotypic readouts are in good agreement with the literature data. We conduct a pilot study with mutants and show that the phenotypic data collected from the CIP distinguishes these mutants. Finally, we discuss how the simplicity and versatility offered by CIP makes it amenable to future C. elegans investigations on the International Space Station, where science experiments are constrained by system size, payload weight and crew time. Overall, the compactness, portability and ease-of-use makes the CIP desirable for research and educational outreach applications on Earth and in space.

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Lab-on-chip technologies for space research — current trends and prospects

Krakos

2023

Microchim Acta

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The in-depth analysis concerning application of microfluidic instruments for space biology research is presented. The article focuses on recently investigated key scientific fields, i.e., lab-on-chips applied to the biomedical studies performed in the (1) International Space Station and (2) CubeSat nanosatellites. The paper presents also the lab-on-chip devices that were fabricated with a view to future space biology research and to those that to date have been solely been tested under Earth laboratory conditions and/or simulated microgravity environments. NASA and ESA conceptual mission plans for future are also mentioned, concerning for instance “tissue chips” and the ESA-SPHEROIDS campaign. The paper ends with final conclusions and future perspectives regarding lab-on-chip application in the space biology sector and its impact on novel biomedical and pharmaceutical strategies. Graphical Abstract

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Microfluidics-integrated spaceflight hardware for measuring muscle strength of Caenorhabditis elegans on the International Space Station

Cited by 7 publications

References 64 publications

WormSpace μ-TAS enabling automated on-chip multi-strain culturing and multi-function imaging of Caenorhabditis elegans at the single-worm level on the China Space Station

WormSpace μ-TAS enabling automated on-chip multi-strain culturing and multi-function imaging of Caenorhabditis elegans at the single-worm level on the China Space Station

A Compact Imaging Platform for Conducting C. elegans Phenotypic Assays on Earth and in Spaceflight

Lab-on-chip technologies for space research — current trends and prospects

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