In vitro dissolution of encapsulated or dispersed Vitamin e and cholesterol is correlated with preservation of refrigerated ovine sperm.

BACKGROUND: Vitamin E ( -tocopherol) and cholesterol are crucial components in cellular protection and physiological processes. Their uses in biological media face challenges due to their poor solubility and stability. OBJECTIVE: The study investigated the complex interactions of these bioactive compounds in various encapsulation systems of cyclodextrin and liposome, as well as dispersion in PEG-6000, in an attempt to improve the viability, motility, and preservation of ovine sperm cells. MATERIALS AND METHODS: The work explored the in vitro dissolution kinetics of vitamin E (d-tocopherol) and cholesterol using semi-empirical models. RESULTS: The release profiles of VitE and Chl varied considerably, depending on the specific carrier systems. For liposome-loaded VitE and Chl, the Korsmeyer-Peppas model gave the best fit; for CD/VitE and CD/Chl, the Higuchi model provided the best fit, whereas for PEG-6000 dispersions (VitE and Chl) both the Higuchi and Korsmeyer-Peppas models demonstrated the excellent fit. All systems indicated a Fickian diffusion mechanism dictated by the concentration gradient. The delivery of VitE and Chl with CD, liposome and PEG dispersion significantly increased sperm mobility and motility. The effect on the VCL parameter was the greatest by liposome-loaded VitE and Chl, followed by CD encapsulation and PEG-6000 dispersion. CONCLUSION: The dynamics of vitamin E and cholesterol within innovative delivery systems offers valuable insights into the development of advanced solutions in reproductive health, particularly on improving the viability, motility of refrigerated ovine sperm cells. Doi.org/10.54680/fr24510110712.

Rosmarinus officinalis Essential Oil Preloaded in ß-Cyclodextrin: Effect on Ram Spermatozoa Motility, Membrane Integrity and Oxidative Status During 4°C Storage.

BACKGROUND: Rosmarinus officinalis essential oil (Rom) has been reported recently to be of interest for use in sperm cryopreservation. However, related to its lipophilic characteristics, encapsulation in cyclodextrin could enhance Rom positive effects by increasing its solubility in sperm extenders. OBJECTIVE: To compare the effect of Rom preloaded in hydroxypropyl-ß-cyclodextrin (Rom-cd) to Rom alone (Rom) on ram sperm conserved at 4°C. MATERIALS AND METHODS: Ram epididymal sperm was collected from six testes. Each collected sperm was split into four equal aliquots. The control aliquot was diluted with Tris extender (Tris + citric acid + fructose + penicillin), two aliquots were treated with Rom at 0.5µl ml-1 and 1µl ml-1 respectively, and one aliquot treated with Rom-cd at 1µl ml-1. All sperm aliquots were analyzed for motility after 0, 2, 4, 24 and 48 h of storage at 4°C using a Computer Aided Semen Analysis (CASA). Membrane integrity and oxidative stress status were measured after 48 h of storage. RESULTS: The results indicated that motility parameters were best preserved in the extender containing Rom-cd compared to the groups treated by Rom without cyclodextrin. Rom alone resulted to higher sperm motility than the control group. Lower oxidative stress and more cell membrane protection were observed in Rom treated samples, especially when using Rom-cd. CONCLUSION: The ability of Rom to protect ram sperm against cryopreservation damages was improved after encapsulation in hydroxypropyl-ß-cyclodextrin (HPßCD).