Alginate encapsulation of stallion sperm for increasing storage stability

Abstract

The aim of this study was to establish an alginate encapsulation procedure for stallion sperm, and investigate if sperm encapsulation enhances longevity during cold storage and survival after cryopreservation. First, biocompatibility of the compounds needed for encapsulation was tested and factors determining capsule structure were identified. Sperm encapsulation was realized either by depositing droplets (20 µL) of sperm solution supplemented with barium or calcium chloride (10 mM) in alginate solution (0.25%, w/v), or by adding sperm-alginate droplets in solution containing barium or calcium chloride, and hardening (10 min). The first procedure resulted in structures with sperm residing in a liquid core surrounded by a spherical alginate shell, whereas the second procedure resulted in sperm embedded in solid beads of alginate matrix. It was found that use of calcium for alginate gelation resulted in decreased sperm motility as compared to using barium, and that encapsulation in solid beads had a negative impact on sperm plasma membrane intactness. Percentages of membrane intact sperm in barium-alginate core-shell structures were similar as found for ordinary diluted sperm, and did not change during 4 d storage at 5 °C. Sperm motility was reduced after direct recovery from core-shell structures, however, remained stable during 4 d storage leading to similar values as found for un-encapsulated sperm at this time point. Cryosurvival of sperm encapsulated in solid beads or core-shell structures was found to be lower compared to that of ordinary diluted sperm.