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High-throughput sperm selection system shows promising results for low motility cases

An advanced sperm selection system for men experiencing sperm with low motility has been announced by scientists at City University of Hong Kong (CityUHK).

The research, published in Med under the publisher Cell Press, indicates that in samples with only 1% live sperm, the average live-sperm percentage can be elevated to 76% after selection. The success rates of fertilization, cleavage, early embryos and blastocysts were also significantly elevated.

The research outlines the benefits of high-throughput, non-invasive sperm selection via their energy metabolites, selecting live sperm from immotile sperm samples with over 90% accuracy, and drastically improved fertilization outcomes for patients with total asthenozoospermia.

The single-cell screening/selection system, called BLASTO-chip, is based on microfluidic droplet technology and transformable hydrogel material. The system can achieve automatic high-throughput, label-free selection of sperm, bringing hope to patients with asthenozoospermia, an infertility condition in which a man produces sperm with low motility.

Cell selection usually relies on using proteins or other molecules either on the cell surface or inside the cell as labels. However, the application of cell labels is limited in certain scenarios, making it impossible to identify specific cell types (e.g. circulating tumor cells and stromal stem cells), and the added markers for the labels may interfere with cell activity.

Led by Michael Yang, Yeung Kin Man Chair Professor of Biomedical Sciences at CityUHK, in collaboration with cross-disciplinary teams in China, the team utilized microfluidic droplet technology and transformable hydrogel material to analyze the metabolic activity of individual cells, effectively isolating and enriching specific cell populations. Sperm selection for assisted reproduction is the first application of the BLASTO-Chip system.

Sperm selection, a critical step in assisted reproductive technology, is usually based on simple physical parameters, such as morphology or motility. Owing to extremely poor or completely absent sperm motility in patients with asthenozoospermia, the current technology can only “blindly select” potentially live sperm based on their morphology for subsequent fertilization. The fertilization rate for such blind selection is only 10–20%, compared to over 80% for standard sperm samples.

Therefore, there is a clinical need for improved sperm selection technology. As the selected sperm will be used for subsequent fertilization, the improved technology must be label-free and intact. It is a significant technical challenge to detect biochemical activity without invasive procedures or causing damage to the sperm.

We utilize microfluidic droplet technology to encapsulate individual sperm in droplets. The more vigorous sperm produce acidic metabolic substances through respiration, which promotes the transformation of the droplet into the hydrogel, achieving the goal of screening high-quality sperm.”

Michael Yang, Yeung Kin Man Chair Professor of Biomedical Sciences at CityUHK

Xianjin Xiao from Huazhong University of Science and Technology, and co-corresponding author of the paper, published in Med, says the project combines novel bioanalytical techniques and innovative biomaterials with cell physiological activity to achieve an automated, high-throughput, label-free sperm selection process. It fills an unmet medical need and has significant clinical potential.

Yang adds that the platform has been successfully applied to deterministic single-cell encapsulation, including high-throughput single-clone selection, and adipose stem cell isolation and enrichment.

Taking advantage of the development opportunities presented by the Guangdong-Hong Kong-Macao Greater Bay Area International Science and Technology Innovation Center, the team aims to complete clinical validation as soon as possible to bring the product to market and contribute to human health.

Journal reference:

Mu, Y., et al. (2024). Automatic high-throughput and non-invasive selection of sperm at the biochemical level. Med. doi.org/10.1016/j.medj.2024.03.008.

Story first appeared on News Medical