AstroBio-CubeSat: A lab-in-space for chemiluminescence-based astrobiology experiments

Space exploration is facing a new era in view of the planned missions to the Moon and Mars. The development and the in-flight validation of new technologies, including analytical and diagnostic platforms, is pivotal for exploring and inhabiting these extreme environments. In this context, biosensors...

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Published in:Biosensors & bioelectronics Vol. 226; p. 115110
Main Authors: Calabria, Donato, Trozzi, Ilaria, Lazzarini, Elisa, Pace, Andrea, Zangheri, Martina, Iannascoli, Lorenzo, Maipan Davis, Nithin, Gosikere Matadha, Sagar Sarvad, Baratto De Albuquerque, Thiago, Pirrotta, Simone, Del Bianco, Marta, Impresario, Gabriele, Popova, Liyana, Lovecchio, Nicola, de Cesare, Giampiero, Caputo, Domenico, Brucato, John, Nascetti, Augusto, Guardigli, Massimo, Mirasoli, Mara
Format: Journal Article
Language:English
Published: England Elsevier B.V 15-04-2023
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Summary:Space exploration is facing a new era in view of the planned missions to the Moon and Mars. The development and the in-flight validation of new technologies, including analytical and diagnostic platforms, is pivotal for exploring and inhabiting these extreme environments. In this context, biosensors and lab-on-chip devices can play an important role in many situations, such as the analysis of biological samples for assessing the impact of deep space conditions on man and other biological systems, environmental and food safety monitoring, and the search of molecular indicators of past or present life in extra-terrestrial environments. Small satellites such as CubeSats are nowadays increasingly exploited as fast and low-cost platforms for conducting in-flight technology validation. Herein, we report the development of a fully autonomous lab-on-chip platform for performing chemiluminescence-based bioassays in space. The device was designed to be hosted onboard the AstroBio CubeSat nanosatellite, with the aim of conducting its in-flight validation and evaluating the stability of (bio)molecules required for bioassays in a challenging radiation environment. An origami-like microfluidic paper-based analytical format allowed preloading all the reagents in the dried form on the paper substrate, thus simplifying device design and analytical protocols, facilitating autonomous assay execution, and enhancing the stability of reagents. The chosen approach should constitute the first step to implement a mature technology with the aim to conduct life science research in space (e.g., for evaluation the effect of deep space conditions on living organisms or searching molecular evidence of life) more easily and at lower cost than previously possible.
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ISSN:0956-5663
1873-4235
DOI:10.1016/j.bios.2023.115110