Advanced Studies

Advanced Studies in Bioinformatics and Data Science

The FAES Academic Programs at NIH offers a unique Advanced Studies in Bioinformatics and Data Science to serve the quickly evolving needs of today’s biomedical research community. As one of the most dynamic fields intersecting biology and computer science, bioinformatics and its data analysis tools equip life sciences researchers and professionals with highly in-demand skills in the pharmaceutical and biotechnology industries. Courses are offered in the evenings, making it convenient for working professionals and postgraduate Fellows to gain expertise and experience in the theoretical foundations and practical skills required to harvest the wealth of information contained in the vast amount of biological phenomena. The courses have been designed to train today’s biomedical researchers in new methods and techniques in data science and prepare them to translate and analyze the immensity of biological data.

General Requirements

The program is designed for participants who hold an advanced degree in life sciences or STEM fields.

The Advanced Studies comprises a 14-credit curriculum required and elective courses. Courses are held in the evenings to fit the needs of working professionals and postgraduate fellows.

Learning Outcomes

Upon completion, students will be able to:

  • Learn to use effectively different techniques to analyze biological data from high throughout approaches
  • Perform statistical analysis and visualization of biological data
  • Apply bioinformatics techniques for analysis of genomic, expression and proteomic data
  • Understand the uses and limitations of bioinformatics data analysis tools and technologies
  • Learn how the computational methods are used in new applications in basic biology and also how they are translated into the development of new drugs and diagnostic tools

Required Courses

BIOF 309 | Introduction to Python
BIOF 518 | Theoretical and Applied Bioinformatics I
BIOF 519 | Theoretical and Applied Bioinformatics II
BIOF 521 | Bioinformatics for Analysis of Next Generation Sequencing


BIOF 339 | Practical R
BIOF 395 | Introduction to Text Mining
BIOF 450 | Bioinformatics, Evolutionary Genomics, and Computational Biology
BIOF 475 | Introduction to New Technologies in Data Science
BIOF 501 | Introduction to R: Step-by-Step Guide
BIOF 509 | Applied Machine Learning
STAT 500 I | Statistics for Biomedical Scientists I
STAT500 II | Statistics for Biomedical Scientists II

Advanced Studies in Technology Transfer

The FAES Academic Programs at NIH offers a unique Advanced Studies in Technology Transfer to persons with a Bachelor’s degree in science or engineering or a related field. Courses are offered in the evenings, making it convenient for working professionals and postgraduate Fellows to gain expertise and experience in patenting, licensing, collaborative agreements, and other fundamental intellectual property transactions. The technology transfer profession field employs more than 10,000 professionals in the U.S., with many practicing their trade in the greater Washington, D.C. metro area.The course instructors are leading practitioners in the field, so students can simultaneously gain the necessary knowledge and build professional networks.

General Requirements

Open to persons with a Bachelor's degree or higher in a STEM field. The program comprises a self-paced 15-credit curriculum of required and elective courses that can be completed in approximately two years. The program culminates in an independent Capstone Project through which students will be required to demonstrate their knowledge of the theory and practice of technology transfer by completing a project of their design and choice at the NIH or in their regional community.

Learning Outcomes

Upon completion, students will be able to:

  • Understand fundamental technology-transfer processes for transferring scientific findings from one organization to another for the purpose of further development and commercialization
  • Explain and describe the role that intellectual property will play in the transition from a manufacturing-based economy to a knowledge-based economy as part of industrial and societal development
  • Describe and explain specific technology transfer processes involved with: (1) identifying new technologies; (2) protecting technologies through patents and other forms of intellectual property; and, (3) forming development and commercialization strategies, such as marketing and licensing to existing private sector companies, or creating new startup companies based on the technology
  • Learn to apply technology-transfer processes to ensure that new discoveries have the opportunity to reach the stream of commerce and that investments in intellectual property are returned to the public through products that benefit the public and increase employment as well as state and federal taxes
  • Understand how commercialization of scientific innovations can be pursued without disrupting the core research institution values of publication and sharing of information, research results, materials, and know-how

Required Courses

TECH 513 | Introduction to Technology Transfer (or TECH 513A)
TECH 565 | Biomedical Business Development for Scientists
TECH 607 | Capstone Course in Technology Transfer


CHEM 327 | The Art of Drug Design and Discovery
PHAR 328 | FDA Perspective on Drug Development
TECH 490 | Communication in Biomedical Sciences
TECH 491 | Market Assessment for Innovative Technologies in Biomedical Sciences
TECH495  | The FDA: Science, Health Policy, and Regulation in an Uncertain Environment
TECH 498 | Leadership Strategies in Biomedical Sciences I
TECH 508 | Regulatory Affairs and FDA Regulation
TECH 521 | Tools for Technology Transfer Managers - Handling Intellectual Property, Collaborations, and Agreements
TECH 525 | Legal and Ethical Issues in Public Health and Biomedical Sciences
TECH 528 | Preclinical Evaluation of Novel Drugs and Beyond
TECH 566 | Building a Biotechnology Company: Leadership and Management Strategies
TECH 567 | International Strategic Partnering and Business Development
TECH 572 | Marketing Strategies for Scientific Organizations
TECH 575 | Accounting and IP Valuation for Non-Accountants
TECH 582 | Intellectual Property and Patent Prosecution for Scientists
TECH 583 | Patent Research for Scientists and Engineers
TECH 584 | Translational Medical Product Development
TECH 586 | International Health Science, Technology, and Innovation
TECH 588 | FDA Regulatory Strategy in Medical Product Development
TECH 607 | Capstone Course in Technology Transfer (second time would count as an elective)

Required fields are indicated by .