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A novel sperm selection technology to increase success rates of in vitro fertilization

Date:
July 2, 2020
Source:
Kumamoto University
Summary:
Motile sperm are difficult to collect with a conventional cell sorter because they are vulnerable to physical damage. A research collaboration has developed a technique using a cell sorter with microfluidic chip technology to reduce cell damage and improve in vitro fertilization rates. This research is expected to increase in vitro fertilization rates to improve production of experimental animals and livestock, and could be used as a fertility treatment in reproductive medicine.
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Motile sperm are difficult to collect with a conventional cell sorter because they are vulnerable to physical damage. A research collaboration between Kumamoto and Kyoto Universities in Japan has developed a technique that uses a cell sorter with microfluidic chip technology to reduce cell damage and improve in vitro fertilization (IVF) rates. This research is expected to increase IVF rates to improve production of experimental animals and livestock, and could be used as a fertility treatment in human reproductive medicine.

It is important to select fertile sperm with good motility to obtain high IVF rates. Conventional cell sorters use flow cytometry to separate specific cells by type, and can be used to select sperm. However, since sperm cells are susceptible to physical damage, it is extremely difficult to separate them without effecting motility.

To reduce sperm cell damage, Professor Toru Takeo's research team at Kumamoto University tried to develop a sperm selection technique using a cell sorter with microfluidic chip technology that reduces detrimental effects to cells. Microfluidic devices have minute channel structures with a width and depth between several to several-hundreds of micrometers and are widely used in chemical and biotechnology research.

While investigating the optimum separation conditions of sperm from a culture medium with their device, the researchers successfully collected mouse sperm that maintained motility. Furthermore, IVF using sperm collected with this device produced fertilized eggs and the embryos developed into neonatal mice after being transplanted into female mice.

This new technology can also be used to improve IVF. At the end stage of maturation, before egg penetration and fertilization, sperm undergo morphological and physiological changes called the acrosome reaction that makes them ready to fertilize an egg. To test whether they could increase fertility, researchers prepared a fluorescent substance that binds to fertile sperm and used the device to sort them from non-fertile sperm. Comparison IVF experiments revealed that the fertile sperm had a higher fertilization rate than the non-fertile sperm.

"We expect that our research can be used to increase the success rate of IVF in animals, and for fertility treatments in human reproductive medicine," said Prof. Takeo. "Combined with techniques for labeling sex chromosomes in sperm, we may even be able to selectively breed males or females in experimental animals and livestock."


Story Source:

Materials provided by Kumamoto University. Note: Content may be edited for style and length.


Journal Reference:

  1. Satohiro Nakao, Toru Takeo, Hitomi Watanabe, Gen Kondoh, Naomi Nakagata. Successful selection of mouse sperm with high viability and fertility using microfluidics chip cell sorter. Scientific Reports, 2020; 10 (1) DOI: 10.1038/s41598-020-65931-z

Cite This Page:

Kumamoto University. "A novel sperm selection technology to increase success rates of in vitro fertilization." ScienceDaily. ScienceDaily, 2 July 2020. <www.sciencedaily.com/releases/2020/07/200702113715.htm>.
Kumamoto University. (2020, July 2). A novel sperm selection technology to increase success rates of in vitro fertilization. ScienceDaily. Retrieved December 20, 2024 from www.sciencedaily.com/releases/2020/07/200702113715.htm
Kumamoto University. "A novel sperm selection technology to increase success rates of in vitro fertilization." ScienceDaily. www.sciencedaily.com/releases/2020/07/200702113715.htm (accessed December 20, 2024).

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