Moving sperm forward

Objective: The purpose of this study was to investigate a manual sperm sorting method (Swim-up) and a non-invasive microfluidics method (Zymot microfluidics) with emphasis on formation of reactive oxygen species (ROS) and DNA fragmentation as objective measurements of spermatozoa quality. Standard p...

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Bibliographic Details
Main Author: Hellsten, Benjamin
Format: Master Thesis
Language:English
Published: UiT Norges arktiske universitet 2023
Subjects:
:Andre helsefag: 829
Other health science disciplines: 829
MBI-3911
Norway
St. Louis
Aldrich
North Norway
Online Access:https://hdl.handle.net/10037/33614
Description
Summary:Objective: The purpose of this study was to investigate a manual sperm sorting method (Swim-up) and a non-invasive microfluidics method (Zymot microfluidics) with emphasis on formation of reactive oxygen species (ROS) and DNA fragmentation as objective measurements of spermatozoa quality. Standard phase contrast imaging of spermatozoa was compared with quantitative phase contrast microscopy (QPM) imaging. Study design: Anonymized spermatozoa samples (n=9) from healthy men in North Norway were sorted with the Swim-up method and Zymot microfluidics (Zymot; Gaithersburg Maryland, USA). Analysis of ROS was done with an Oxisperm II kit (Halotech; Madrid, Spain) and by measuring MDA levels (Sigma-Aldrich; St. Louis USA) of spermatozoa. DNA fragmentation was visualized with spermatozoa chromatin staining using a Halosperm G2 kit (Halotech; Madrid, Spain) in conjunction with a Nikon ECLIPSE E 200 phase microscope (Nikon; Tokyo, Japan). QPM analysis was done with an in-house microscope and software. An un-paired T-test and ROUT test was completed to identify P-values and outliers. The software used for this was GraphPad Prism 9 version 9.0.0 (GraphPad; San Diego, California, USA) Results: Native sperm and sperm plasma fractions had lower ROS levels in Swim-up samples compared to un-differentiated samples as analyzed with Oxisperm II, resulting in (P=0.0001). MDA-analysis showed that Swim-up and Zymot samples had lower ROS than Raw samples, showing a 0.05- and 0.7-fold difference respectively, resulting in P-value 0.0011 for Swim-up and P-value 0.0014 for Zymot. There was no significant difference in MDA levels between Swim-up and Zymot samples (P-value 0.6193). Swim-up and Zymot samples had a lower spermatozoa/ml than Raw samples, with the mean of Zymot and Swim-up being 460 and 877.7-fold lower. The resulting P-values were 0.001 for Zymot samples and <0.0001 for Swim-up samples. When comparing Swim-up and Zymot sample concentration, no difference was found as their datapoints were close to each other’s mean value ...

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