Explores data-driven scientific paradigms to uncover novel insights from complex, multidimensional biomedical and histological big data.

We transform biomedical theories into mathematical models, refining and training these models using advanced artificial intelligence algorithms to approximate real-world system behaviors.

Our research seeks to unravel the underlying mechanisms of disease occurrence and progression, providing integrated solutions for disease risk prediction, diagnosis, and treatment management.

• bioinformatics
• Big data modeling
• population genomics

Precision Medicine is a revolutionary approach to healthcare that tailors prevention, diagnosis, and treatment strategies to the unique characteristics of each patient.

This personalized model takes into account individual differences in genetics, environment, and lifestyle, moving beyond the traditional ‘one-size-fits-all’ approach.

By leveraging a deeper understanding of these individual factors, Precision Medicine aims to maximize the effectiveness of medical interventions while minimizing potential side effects, ultimately improving patient outcomes and quality of care.

• Integrated management of perinatal depression
• Strategies for the diagnosis and treatment of male infertility

Environmental Epidemiology examines the patterns of occurrence, development, and distribution of diseases in populations that are influenced or exacerbated by natural and man-made environmental factors, either individually or in combination.

This interdisciplinary field integrates insights and methodologies from various disciplines, including epidemiology, environmental health sciences, ecology, geography, and statistics.

Its ultimate goal is to advance understanding of the complex relationships between environmental factors and population health, paving the way for informed public health policies and interventions.