Precision Health Design
The precision health design research area is a comprehensive research initiative dedicated to revolutionizing health care through enabling treatments tailored to individual patients.
This initiative encapsulates several specialized areas, each contributing uniquely to the broader goal of advancing targeted health solutions. Our multidisciplinary teams uses innovative scientific methods to ensure future treatments are more accurate and effective than ever before.
Find faculty members who specialize in precision health design
Possible Careers
- Computational biologist/bioinformatician
- Systems biologist
- Data scientist
- Machine learning engineer
- 91ÒùĸÊÓƵ scientist
- Pharmaceutical scientist
- Regulatory affairs specialist
- Product development manager
- Biotechnology analyst
- Clinical trial data analyst
- Health and safety officer
- Intellectual property analyst/patent examiner
Areas of Specialization
Explore the specialized areas where our transformative research is creating real-world solutions and shaping the future of medicine.
Biomaterials and Nanomedicine
We specialize in smart biomaterials design, nano-structured biomaterials, targeted delivery and drug delivery systems. Our researchers are creating advanced materials that interact seamlessly with biological tissues, offering innovative solutions for drug delivery and therapeutic interventions that target specific sites within the body.
- Smart biomaterials design
- Nano-structured biomaterials
- Targeted delivery
- Drug delivery
Computational Bioengineering
Our research includes rational drug design, machine learning, computational biology/bioinformatics, genomics/transcriptomics, big-data analysis and multi-scale modeling. These efforts are focused on developing predictive models and analytical tools that enhance our understanding of complex biological systems, ultimately leading to more effective and personalized treatments:
- Rational drug design
- Machine learning
- Computational biology
- Genomics
- Big-data analysis
- Multi-scale modeling
Regenerative Medicine
We are developing techniques to regenerate damaged tissues and organs, harnessing the potential of stem cells and biomaterials to develop therapies that restore function and improve patient outcomes.