Thanks to my Marie Curie Fellowship, I was able to transition from my position as Research Assistant Professor at Vanderbilt University (VU) to University Academic Fellow (UAF) at the University of Leeds (UNIVLEEDS) to establish my independent career in the field of microfluidics and reproductive toxicology.
After working as Co-Investigator in large US projects to design new organs-on-a-chip models and collaborating with world experts in reproduction and infectious diseases, I defined my academic career plans with the aim to create innovative technologies to support fertility treatments as well as to identify the causes and origins of miscarriage and preterm birth (“reproductive technologies”). During this project:
• I increased my publications track record (31 papers, max cit. 154);
• I established active collaborations in embryology and fertility at UNIVLEEDS (e.g. H.Picton J.Walker N.Forde N.Orsi).
• I received International recognition (EAMC-2017 International Association of Advanced Materials - Scientist Medal, SRI-2019 Training Investigator Poster Award).
• I have been invited to national and international conferences
• I attracted funding for my research: NC3Rs-MRC EASE-CRACK IT “Design, Fabrication and Testing of a Mouse Embryo Culture Chip” (Principal Investigator), MRC Confidence in Concept “Integration of nanosensing in microfluidics to improve success of fertility treatments”, EPSRC TTL Organ-on-a-chip Network sabbatical awards, Marie Skłodowska-Curie Innovative Training Network “SENTINEL-Single-Entity NanoElectrochemistry”, Grow Med Tech Proof of Concept “Microfluidic embryo culture as a device to improve the efficiency of infertility treatments in humans”, EPSRC IAA “Compatibility of time-lapse Imaging and Nanosensor Integration with Microfluidic Culture of Embryos as A means To Improve The Efficacy Of Human Infertility Treatment”.
These enabled me to set up and support my research group (4 PhD students, 1 PostDoc), to inspire them and other students (>20 PhD and Master Students supervised in the past) to creatively work and translate ideas into entrepreneurial activities by generating IP and filing new patents as starting point to develop new business ideas (two UK patents describe the technology developed during this fellowship and one is now a PCT application).
• I collaborated with world leaders, such as:
-Prof. D. Aronoff, Vanderbilt University, USA, Prof. McLean at the Centre for Innovative Technology, Vanderbilt University, USA, in the fields of infective diseases and metabolomics,
-Prof. Helen Picton, UNIVLEEDS in the fields of embryology and Oncofertility.
and accessed the cutting-edge microfabrication technologies available at UNIVLEEDS and national and international leading research centres (Heriot-Watt University in Edinburgh, Vanderbilt University, Nashville, USA).