Colloid centrifugation as an alternative to antibiotics in stallion semen preparation

Abstract

Antibiotics are added to semen extenders to inhibit bacterial growth and maintain sperm quality in semen doses during storage and transportation. The low concentration of antibiotics used, however, could contribute to increased antimicrobial resistance. Recent studies with boar semen suggest that centrifugation through a low density colloid could separate the spermatozoa from most of the bacteria. Such methods can only be recommended for stallion semen if they are without detrimental effects on sperm characteristics. Therefore, the purpose of this pilot study was to investigate if semen processing by single layer centrifugation through a low density colloid reduces the bacterial load of stallion semen without impairing sperm characteristics. Six healthy and fertile stallions were available at the Centre for Artificial Insemination of the University of Veterinary Medicine Vienna. One ejaculate from each stallion was collected and divided into three parts. Each part was either extended to 15 mL (100 million/mL) and processed by single layer centrifugation with 15 mL of 25% low density colloid (SLC), extended with Equiplus without antibiotics (Minitube, Tiefenbach, Germany), or kept as unprocessed control (raw semen). Aliquots from all samples were sent to the Institute of Microbiology for bacteriologicalexamination where they were serially diluted, plated onto blood agar plates, and incubated under aerobic and anaerobic conditions. The number of bacterial colony forming units (cfu/mL) was determined after 4 days of incubation. Sperm motility and viability in SLC and extended samples were evaluated by computer assisted sperm analysis (CASA; SpermVision, Minitube). The SLC and extended samples were stored at 5°C and re-evaluated after 24 h. For statistical analysis, the mean number of bacterial cfus and sperm characteristics were compared among treatments by one-way ANOVA and Tukey's test, with significance set at p < 0.05. Overall sperm yield after SLC was 76.6% (±16.4). Bacterial cfus were lower in SLC samples and extended samples compared to raw semen (4.5 × 106 cfu/mL, (14.5 × 106cfu/mL, and 8.3 × 106, respectively; p= 0.017, and p = 0.038, respectively). Sperm motility was higher in SLC samples at both time points (93.8% at 0 h, p = 0.001; 87.7% at 24h, p = 0.007) than in extended semen at 24 h (56.3%). Sperm viability was higher in the SLC at both time points (88.4% at 0 h, p = 0.0002; 86.4% at 24h, p = 0.002) than in extended semen at 24 h (73.2%). In conclusion, bacterial load, and sperm characteristics, were improved in SLC compared to extended stallion semen. An extended investigation is warranted.