Development of extender based on soybean lecithin for its application in liquid ram semen.

The soybean lecithin is used as a phospholipids source for the commercial extenders available for freezing bull semen which allows replacing the traditional membrane protective of animal origin (egg yolk). These extenders have been tested for freezing semen in various livestock species but specific adjustments cannot be made due to trade protection. The aim of the present study was to develop a soybean-based extender analyzing the optimal conditions of preparation, handling, and storage in order to optimize its use in liquid ram semen. Its effect on the quality of liquid ram semen was also studied. Different TES-Tris-Fructose-based extenders were prepared using two soybean types (S20 and S95) differentiated by their lipid composition (complex or simple, respectively). These extenders were made up in two temperatures: 20 degrees C (PT20) or 37 degrees C (PT37); centrifuged and filtered at 20 degrees C and stored at 15 degrees C or 5 degrees C (ST15 and ST05) for several periods (from 6 hours to 7 days). Three different concentrations of soybean (0.5%, 2%, and 3.5%) were evaluated for each extender. The amount and nature of phospholipids present in the extender were evaluated by high performance liquid chromatography (HPLC) method according to the different parameters applied in their preparation. In general, the highest quantity of phospholipids is observed in S20 extender. Centrifugation-filtration process during the extender preparation reduces by 50% the quantity of phospholipids in medium for different experiments. The quantity of phospholipids was not affected significantly by preparation temperature in S20 extender. Storage temperature affects the phospholipids present in the extender (S20 and S95) with minimum values for the storage at 5 degrees C. As for the storage time, both extenders (S20 and S95) showed a stable quantity of phospholipids in the course of the time, for 2 days at 15 degrees C and for 7 days at 5 degrees C. The extender obtained with a higher concentration of soybean (3.5%) showed a higher content of phospholipids under different conditions tested. Finally, sperm motility and viability in new extenders were analyzed. We observed that the sperm quality is not affected by storage temperature for S20 extender. Sperm motility was higher in S20-2% extender and control (UL). Our results suggest that a soybean lecithin extender obtained from S20 soybean at 20 degrees C, centrifuged and filtered, preserve the sperm motility and viability at 15 degrees C and 5 degrees C as an egg-yolk extender.