Greater Sevilla Metropolitan Area
Senior Technician in the Cryo-Management Unit at IVI RMA Global, with over 7 years of experience in assisted reproduction. Specialized in the bureaucratic and legal management of human embryos and gametes, ensuring compliance with legal and ethical standards, and coordinating key administrative processes that support fertility treatments. Strong focus on patient care, delivering efficient and empathetic support throughout the reproductive journey. Experience in team leadership, human resources, and financial management, contributing to smooth and effective departmental operations. Fluent in six languages and equipped with a solid background in genetics and human biology, facilitating collaboration across multidisciplinary teams in an international setting.
Professor of the Cryomanagement of Human Embryos and Gametes module within the annual Master’s Program at IVIRMA Global Education in Valencia. Specialized in teaching the legal, ethical, and administrative frameworks that govern the cryopreservation, storage, and management of human gametes and embryos in assisted reproduction settings.
“Effect of GABAergic precursor transplant in a mouse model of Infantile Encephalopathy”. CABIMER, Sevilla. Aim of this thesis work is to establish a cell therapy based on GABAergic interneurons progenitors transplanted into neonatal mice brain. My participation in this project includes the analysis of survival and differentiation of the transplanted cells by immunochemistry, observe behavioral mice tests and record and analyze the EEG of the transplanted mice. Additionally further elements of cell cultures, fluorescent microscopy and molecular biology have been acquired. Publication of this work is estimated within the end of 2016. The thesis has been financed by an ERASMUS plus+ scholarship provided by Bonn University and by the European Lifelong Learning Agreement program.
Participation in a research project investigating Foxd3 regulatory function in pluripotency and early somatic differentiation. Focus on genomic and proteomic approaches to uncover the targets genes that Foxd3 regulates and the mechanistic basis of such regulation, which are currently unknown. CHIP and FAIRE techniques used for this research applied on fresh and frozen murine embryonic stem cultures.