Interaction Between Hyaluronic Acid Semi-Interpenetrated Hydrogel with Bull Spermatozoa: Studies of Sperm Attachment-Release and Sperm Quality

The study of living systems in contact with biocompatible synthetic hydrogels is developing. The authors' group is the first to propose use of polymeric materials to accomplish sperm selection process by attachment of bull sperm to hydrogel surfaces, this being a crucial step for successful assisted reproductive techniques (ARTs). Surfaces based on poly(N-isopropylacrylamide) hydrogels (PNIPAM) and ionic and neutral copolymers are synthetized. Their physicochemical properties in aqueous and culture medium are related to the percentage of attachment and subsequent release of bull spermatozoa from the hydrogel surface. High attaching capacity (30-45%) of sperm on cationic and neutral surfaces is mainly observed, however, sperm detachment from the hydrogel using traditional induction processes (i.e., sperm capacitation) is not significant. Therefore, PNIPAM-co-20%-N-Tris(hydroxymethyl)methyl acrylamide (PNIPAM-HMA) hydrogel surface is semi-interpenetrated with hyaluronic acid (HA). In this case, 50% of spermatozoa are attached to PNIPAM-HMA-HA hydrogel and after treatment with hyaluronidase, 47% of them are released. Collected sperm show acceptable characteristics of progressive motility (70% with score 4 for vigor), high viability, and cytoplasmic membrane integrity. Noteworthy, the study of the interaction of hydrogel surface/spermatozoa can be extended to human and other mammalian species, in order to provide advanced alternatives for gamete selection for ARTs.

Automated summary

The study explores the use of polymeric materials for sperm selection, finding a semi-interpenetrated hydrogel surface that allows for efficient sperm release with good motility and viability. The interaction between hydrogel surface and sperm is investigated, with potential applications in human and other mammalian species for advanced assisted reproductive techniques.