Modern biomedical research relies on both multidisciplinary and interdisciplinary approaches. Multidisciplinary approaches bring several different scientific disciplines such as bioinformatics and genetics to bear on a research question. Interdisciplinary approaches synthesize knowledge and methods from other disciplines to provide an integrated framework for solving complex biomedical problems in new ways.
The rapid advancement of high-throughput technologies such as DNA microarrays and mass spectrometry for measuring biological systems and their application as part of translational medicine has generated a significant demand for investigators doing cutting-edge research in quantitative disciplines such as bioinformatics, biostatistics and epidemiology. Those with the greatest impact are cross-trained in multiple disciplines giving them the ability to synthesize and integrate several disciplines to provide a truly interdisciplinary approach to solving complex biomedical problems.
The goal of the doctoral program in Quantitative Biomedical Sciences is to prepare PhD students for careers at the intersection of biomedical research and quantitative sciences such as bioinformatics, biostatistics and epidemiology.
The requirements for the PhD degree in Quantitative Biomedical Sciences are listed below.
Courses
Satisfactory completion of the following courses:
- QBS 700 Responsible and Ethical Conduct of Research
- QBS 110 Integrative Biomedical Sciences Seminar (0.5 unit)
- QBS 146 Foundations of Bioinformatics I
- One of the following:
- QBS 108 Machine Learning
- QBS 126 Analysis of Densely Collected Longitudinal Data
- QBS 139 Advanced Methods in Health Services Research
- QBS 140/PH 121 Decision & Cost Effectiveness Analysis
- QBS 148 Introduction to Statistical Genetics
- QBS 119/PH 271 Applied Biostatistics OR QBS 120/PH 271 Foundations of Biostatistics I: Statistical Theory
- QBS 121/PH 271 Foundations of Biostatistics II: Statistical Modeling
- QBS 130/BIOL 072 Foundations of Epidemiology I: Theory and Methods
- QBS 131/BIOL 073 Foundations of Epidemiology II: Theory and Methods
Research rotations and additional coursework
- Three first-year research rotations that will consist of three small research projects, conducted with different faculty members for periods of about three months each, and registered research until the completion of the PhD
- Satisfactory completion of 3.5 units of approved graduate-level elective courses
- Satisfactory completion of nine approved journal club courses
Teaching
- One quarter of supervised teaching in a QBS course, unless otherwise approved
Qualifying examination and thesis
- Satisfactory completion of an oral qualifying examination
- Satisfactory completion of a significant research project and preparation of a thesis describing this research
- Successful defense of the thesis in an oral examination and presentation of the work in a public lecture
For details of program rules and regulations see the QBS handbook.