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Microfluidics: The future of sperm selection in assisted reproduction
Malmö University, Faculty of Technology and Society (TS), Department of Materials Science and Applied Mathematics (MTM). NanoLund, Lund University, Lund, Sweden.
Department of Embryology, Reproductive Biomedicine Research Center, Royan Institute for Reproductive Biomedicine, ACECR, Tehran, Iran.
Department of Embryology, Reproductive Biomedicine Research Center, Royan Institute for Reproductive Biomedicine, ACECR, Tehran, Iran; Department of Mechanical Engineering, Sharif University of Technology, Tehran, Iran.
Department of Reproduction and Artificial Insemination, Faculty of Veterinary Medicine, Selcuk University, Konya, Turkey.
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2024 (English)In: Andrology, ISSN 2047-2919, E-ISSN 2047-2927, Vol. 12, no 6, p. 1236-1252Article, review/survey (Refereed) Published
Abstract [en]

BACKGROUND: Obtaining functional sperm cells is the first step to treat infertility. With the ever-increasing trend in male infertility, clinicians require access to effective solutions that are able to single out the most viable spermatozoa, which would max out the chance for a successful pregnancy. The new generation techniques for sperm selection involve microfluidics, which offers laminar flow and low Reynolds number within the platforms can provide unprecedented opportunities for sperm selection. Previous studies showed that microfluidic platforms can provide a novel approach to this challenge and since then researchers across the globe have attacked this problem from multiple angles.

OBJECTIVE: In this review, we seek to provide a much-needed bridge between the technical and medical aspects of microfluidic sperm selection. Here, we provide an up-to-date list on microfluidic sperm selection procedures and its application in assisted reproductive technology laboratories.

SEARCH METHOD: A literature search was performed in Web of Science, PubMed, and Scopus to select papers reporting microfluidic sperm selection using the keywords: microfluidic sperm selection, self-motility, non-motile sperm selection, boundary following, rheotaxis, chemotaxis, and thermotaxis. Papers published before March 31, 2023 were selected.

OUTCOMES: Our results show that most studies have used motility-based properties for sperm selection. However, microfluidic platforms are ripe for making use of other properties such as chemotaxis and especially rheotaxis. We have identified that low throughput is one of the major hurdles to current microfluidic sperm selection chips, which can be solved via parallelization.

CONCLUSION: Future work needs to be performed on numerical simulation of the microfluidics chip prior to fabrication as well as relevant clinical assessment after the selection procedure. This would require a close collaboration and understanding among engineers, biologists, and medical professionals. It is interesting that in spite of two decades of microfluidics sperm selection, numerical simulation and clinical studies are lagging behind. It is expected that microfluidic sperm selection platforms will play a major role in the development of fully integrated start-to-finish assisted reproductive technology systems.

Place, publisher, year, edition, pages
John Wiley & Sons, 2024. Vol. 12, no 6, p. 1236-1252
Keywords [en]
boundary following, chemotaxis and thermotaxis, microfluidic sperm selection, rheotaxis, self-motility
National Category
Biomedical Laboratory Science/Technology
Identifiers
URN: urn:nbn:se:mau:diva-64768DOI: 10.1111/andr.13578ISI: 001130392100001PubMedID: 38148634Scopus ID: 2-s2.0-85180901669OAI: oai:DiVA.org:mau-64768DiVA, id: diva2:1822755
Available from: 2023-12-27 Created: 2023-12-27 Last updated: 2024-09-02Bibliographically approved

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