School of Nursing & Health Professions
Monday–Friday 8:30 a.m. – 5 p.m.
Explore the Field – Students will pursue advanced training in line with their career goals in areas such as bioinformatics, clinical decision support systems, medical imaging and biosignal analysis.
The Internship program provides the critical interface between academia and industry for the rapidly changing field of health informatics. Our Students have a unique opportunity to help guide the future of health informatics education and to collaborate with corporate partners in an effort to accelerate the translation of cutting-edge research to the bedside.
Internships in large medical centers may require students to implement new software, decision support methods, or analyze quality and patient outcomes data. Students have interned at Kaiser Permanente, San Francisco General Hospital, Northern California Institute of Research and Education (NCIRE), San Francisco VA Medical Center and many more.
While interning at the VA San Francisco Medical Center as an informaticist, I gained experience by designing their intranet website for educators. Currently, I’m interning as a Clinical Data Analyst at Genentech. I am working on project management to apply Robotic Process Automation (RPA) of existing manual processes.
KAREN BABAS '21
As an intern at UCSF Department of Pediatrics, I helped set up the framework to collect data from different sources like EMR, clinical research databases, surveys and app usage information. I integrated the information and performed and analytics.
SRADDHA, LANKA '17, RESEARCH SCIENTIST AT WAVELET HEALTH, MS IN HEALTH INFORMATICS
I interned at a startup, Prospect Bio, as a Data Engineer. I built a bioinformatics pipeline to create a combined library out of terabytes of raw reads of sequencing data, visualized and analyzed the individual assembled reads with big data tools.
RASHMI POUDEL '17, DATA SCIENTIST AT BLIND ON-DEMAND HEALTH INSURANCE, MS IN HEALTH INFORMATICS
Some students have pursued traditional master’s thesis projects in analysis and analyzing neurophysiological signals. However, students may also choose from a wide variety of biomedical or digital health informatics projects. Students have completed projects at UCSF Benioff Children's Hospital Oakland, UCSF Oncology Radiation, Genentech, Crestwood Behavioral Health, Marin County Health Services, PIC Place Partners in Health, Kiwi Pediatrics, Digbi Health and the Pacific Autism Center of Excellence.
Students work on projects with interprofessional teams in real-world healthcare settings. Interprofessional education is emphasized throughout the program, with opportunities for health informatics students to interact with students in clinical programs such as nursing, clinical psychology, and public health and with more technically oriented students in biotechnology, data analytics, and computer science. The emphasis is on training leaders with broad and deep knowledge who are comfortable interacting with both clinical and technical personnel and can thus function as healthcare leaders.
Presenters: Luika Timmerman, Rashmi Manjunath
Sponsor: UCSF Helen Diller Family Comprehensive Cancer Center
Faculty Advisor: Prof. Patricia Francis-Lyon, Bioinformatics
There is a subtype of breast cancer that is associated with aggressive progression, high levels of recurrence and the affliction of younger women. These are known as triple-negative/basal-like breast cancers (TNBC), as they test negative for expression of three proteins, two of which are the target of therapeutics in common use in the breast cancer clinic (estrogen, progesterone and HER-2 receptors). A specific therapeutic target has not yet been found to treat TNBC and prognosis remains poor for women with these tumors. In an effort to identify such a target for triple-negative breast cancer (TNBC), the Timmerman lab at the UCSF Helen Diller Cancer Center is working to gain an understanding of the mechanisms and genomic relationships involved in unregulated cellular proliferation in TNBC. Potential targets have been identified for the development of drugs that target tumor metabolism.
As part of that effort, bioinformatics investigations utilizing genomic and proteomic data to gain insights that might be actionable in the treatment of breast cancer were conducted. The TCGA breast cancer dataset was explored for patterns of genomic alterations and expression that are associated with breast cancer subtypes, noting particularly how these differ with TNBC as opposed to other breast cancer subtypes. A principal components analysis has been conducted of expression levels of PAM50 genes in the cancers of 1208 patients, as well as PCA analysis of the differential expression of these genes in the tumor vs normal breast tissues of patients. Exploration of the potential targets identified by the Timmerman lab have been conducted. Additionally, clustering techniques have been employed to infer missing subtypes so as to augment the basal-like category in the TCGA breast cancer dataset for future analysis.
MS in Health Informatics students Nikhil Haas ’15 and Chris Atterbury ’15 built the analytics website ReceptorMarker that allows scientists to upload caches of data, which it translates into visual diagrams that highlight cell behavior.