Kay W. Chow scite author profile

Kay W. Chow

4Publications

38Citation Statements Received

58Citation Statements Given

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Affiliations

La Jolla Bioengineering Institute, University of California, San Diego

Publications

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Red light improves spermatozoa motility and does not induce oxidative DNA damage

Preece

Chow

Gomez-Godinez

et al. 2017

Sci Rep

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The ability to successfully fertilize ova relies upon the swimming ability of spermatozoa. Both in humans and in animals, sperm motility has been used as a metric for the viability of semen samples. Recently, several studies have examined the efficacy of low dosage red light exposure for cellular repair and increasing sperm motility. Of prime importance to the practical application of this technique is the absence of DNA damage caused by radiation exposure. In this study, we examine the effect of 633 nm coherent, red laser light on sperm motility using a novel wavelet-based algorithm that allows for direct measurement of curvilinear velocity under red light illumination. This new algorithm gives results comparable to the standard computer-assisted sperm analysis (CASA) system. We then assess the safety of red light treatment of sperm by analyzing, (1) the levels of double-strand breaks in the DNA, and (2) oxidative damage in the sperm DNA. The results demonstrate that for the parameters used there are insignificant differences in oxidative DNA damage as a result of irradiation.

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Effect of red light on optically trapped spermatozoa

Chow¹,

Preece²,

Berns³

2017

Biomed. Opt. Express

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Successful artificial insemination relies on the use of high quality spermatozoa. One measure of sperm quality is swimming force. Increased swimming force has been correlated with higher sperm swimming speeds and improved reproductive success. It is hypothesized that by increasing sperm swimming speed, one can increase swimming force. Previous studies have shown that red light irradiation causes an increase in sperm swimming speed. In the current study, 633nm red light irradiation is shown to increase mean squared displacement in trapped sperm. The methodology allows for comparison of relative swimming forces between irradiated and non-irradiated samples.

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Red Light Irradiation of Human Spermatozoa Increases Motility without Significant DNA Damage

Chow¹,

Preece²,

Gomez-Godinez³

et al. 2017

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The effect of red light irradiation on spermatozoa DNA

Chow

Preece

Gomez-Godinez

et al. 2016

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A key goal in the conservation of endangered species is to increase successful reproduction. In cases where traditional methods of in vitro fertilization are unsuccessful, new methods of assisted reproduction are needed. One option is selective fertilization via optically trapped sperm. A more passive option is red light irradiation. Red light irradiation has been shown to increase sperm motility, thus increasing fertilizing potential. However, there is some concern that exposure to laser irradiation induces the production of oxidative species in cells, which can be damaging to DNA. In order to test the safety of irradiating sperm, sperm samples were exposed to 633 nm laser light and their DNA were tested for oxidative damage. Using fluorescence microscopy, antibody staining, and ELISA to detect oxidative DNA damage, it was concluded that red light irradiation does not pose a safety risk to sperm DNA. The use of red light on sperm has potential in both animal conservation and human reproduction techniques. This method can also be used in conjunction with optical trapping for viable sperm selection.

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Kay W. Chow

Red light improves spermatozoa motility and does not induce oxidative DNA damage

Effect of red light on optically trapped spermatozoa

Red Light Irradiation of Human Spermatozoa Increases Motility without Significant DNA Damage

The effect of red light irradiation on spermatozoa DNA

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