Abstract
Infertility affects millions of couples worldwide, and in vitro fertilization is a key therapeutic strategy for achieving parenthood. Despite advances, the first IVF attempt fails in ~60% of patients, highlighting the need for innovative solutions to improve clinical outcomes. Challenges include the limited ability to study embryo implantation, inadequate methods to test therapeutic drugs, and lack of metrics to evaluate implantation images. To address these issues, we developed ImplantoMetrics, a Fiji plugin for quantitative assessment of trophoblast invasion in combination with a 3D-in-vitro model. ImplantoMetrics uses Convolutional Neural Network and XGBoosting to accurately measure multidimensional expansion patterns. It allows quantitative evaluation of potential therapeutic interventions in vitro and enables a complex study of trophoblast invasion. Compared to manual methods, ImplantoMetrics is ~13-times faster and reduces errors through automation. Beyond implantation research, ImplantoMetrics offers a comprehensive tool to study spheroid invasion in different biological contexts, as e.g. demonstrated here for cancer research.