Early Academic Pursuits
Yeslie Carrillo Cabrera embarked on her academic journey with a Bachelor's degree in Chemistry from the University of Havana, where she engaged in solid-phase peptide synthesis. Her one-year tenure as a Specialist in chemical process control at the Finlay Vaccine Institute in Havana equipped her with vital expertise in pharmaceutical production and colorimetric techniques.
Following her Bachelor's, Cabrera pursued a Master's in Materials Science at the Autonomous University of Ciudad Juarez, graduating with honors. Her research involved electrospun PVA polymer fibers for encapsulating vitamin complexes, leading to a publication and recognition at the Regional Seminar on Advanced Materials. Currently pursuing a Ph.D. in Materials Science, her focus remains on developing a transdermal vitamin D3 delivery system, earning accolades at various conferences.
Contributions and Research Focus
Cabrera's research contributions revolve around electrospinning techniques for vitamin delivery systems. Her innovative use of core/shell structures in PVA fibers for controlled release profiles showcases her pioneering efforts in biomaterials. Collaborations at the Center for Applied Chemistry Research highlighted the sensitivity of fiber morphology to parameter variations, essential for tailoring fiber shapes.
Accolades and Recognition
Acknowledged for her impactful contributions, Cabrera secured first place at the 8th Meeting of Young Researchers in Chihuahua and participated in the 31st International Materials Research Congress. Her two awards underscore her growing influence in the research community.
Impact and Influence
Cabrera's research in developing a transdermal vitamin D3 release system demonstrates potential societal impact, particularly aiding children and older adults who struggle with oral medication intake. Her work stands at an advanced stage, poised to benefit from established collaborative relationships for prototype development.
Legacy and Future Contributions
Yeslie Carrillo Cabrera's legacy lies in her pioneering research in electrospun polymeric fibers for targeted vitamin delivery. Her commitment to advancing drug delivery systems and biomaterials is poised to leave a lasting impact, promising innovative solutions for enhancing medication administration, especially for vulnerable populations.