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Sperm selection by rheotaxis improves sperm quality and early embryo development

Jon Romero‐Aguirregomezcorta, Ricardo Laguna‐Barraza, Raúl Fernández‐González, Miriama Štiavnická, F. Ward, Jennifer Cloherty, Denis McAuliffe, Peter B. Larsen, Andreas M. Grabrucker, Alfonso Gutiérrez‐Adán, David Newport, Seán Fair

2021Reproduction33 citationsDOIOpen Access PDF

Abstract

The objective of this work was to elucidate whether a sperm selection method that combines rheotaxis and microfluidics can improve the selection of spermatozoa over density gradient and swim-up. For this purpose human sperm selected by rheotaxis were compared against density gradient, swim-up and a control group of non-selected spermatozoa in split frozen-thawed (FT) and fresh (F) semen samples. Sperm quality was assessed in terms of motility, morphology, DNA fragmentation index (DFI), viability, acrosome integrity and membrane fluidity. Using a mouse model, we compared fertilisation and embryo development rates after performing ICSI with spermatozoa, sorted using rheotaxis or swim-up. Selection by rheotaxis yielded a sperm population with reduced DFI than the control (P < 0.05), improved normal morphology (P < 0.001) and higher total motility (TM; P < 0.001) than the other techniques studied in F and FT samples. Swim-up increased TM compared to density gradient and control in FT or F samples (P < 0.001), and yielded lower DFI than the control with F samples (P < 0.05). In FT samples, selection by rheotaxis yielded sperm with higher viability than control, density gradient and swim-up (P < 0.01) while acrosomal integrity and membrane fluidity were maintained. When mouse spermatozoa were selected for ICSI using rheotaxis compared to swim-up, there was an increase in fertilisation (P < 0.01), implantation (P < 0.001) and foetal development rates (P < 0.05). These results suggest that, in the absence of non-destructive DNA testing, the positive rheotaxis can be used to select a population of low DNA fragmentation spermatozoa with high motility, morphology and viability, leading to improved embryo developmental rates.

Topics & Concepts

AndrologyAcrosomeSpermBiologyFertilisationSperm motilitySemenAnatomyPopulationEmbryoCryopreservationReproductive technologyCell biologyMedicineEnvironmental healthSperm and Testicular FunctionReproductive Biology and FertilityReproductive Health and Technologies