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Adjunct Investigator

Center for Precision Health Research

Head

Precision Health Informatics Section

Education

B.S. Vanderbilt University

M.D. Vanderbilt University

M.S. Biomedical Informatics, Vanderbilt University

Biography

Dr. Denny’s research interests include use of electronic health records (EHRs) and genomics data from large-scale biobanks such as Vanderbilt’s BioVU, eMERGE, the All of Us Research Program, and UK Biobank to better understand disease and drug response. Prior to joining the NIH in 2020, Josh was a Professor of Biomedical Informatics and Medicine, founding Director of the Center for Precision Medicine, and Vice President for Personalized Medicine at Vanderbilt University Medical Center, where he was both a practicing internist and research scientist. Josh’s lab and center focused on the secondary use of EHR data for discovery, including the development of phenome‐wide association studies (PheWAS), phenotype risk scores (PheRS), work he is continuing here at NHGRI. He has also led efforts implementing precision medicine to improve patient outcomes by helping launch the prospective PREDICT pharmacogenomics program at Vanderbilt and within the NHGRI IGNITE Network.

Dr. Denny was the recipient of the Homer Warner award from the American Medical Informatics Association (AMIA) in 2008 and 2009 and AMIA New Investigator Award in 2012. He is an elected member of the National Academy of Medicine, the American College of Medical Informatics, and the American Society for Clinical Investigation. He currently serves as the Chief Executive Officer of the National Institutes of Health’s All of Us Research Program.

Scientific Summary

Dr. Denny’s laboratory seeks to discover gene-disease relationships by gathering, assessing, and analyzing the human phenome across genomics and environmental exposures. With this mission in mind, those in the Precision Health Informatics Section primarily repurpose health records as a source of longitudinal phenotype information and use links to genomic and other data. We partner with researchers to create trans-initiative resources cataloguing genetic associations across phenotypes.

The Precision Health Informatics Section relies on large scale data and bioinformatics approaches to more effectively characterize and identify genetic diseases. Electronic Health Records (EHRs), which typically include hospital billing codes, laboratory and vital signs, provider documentation, reports and tests, and medication records, are the major source of data for the laboratory. Over the years, studies have demonstrated that genetic analyses evaluating EHRs typically have larger sample sizes, are more cost-effective, and provide more opportunities for broad-ranging longitudinal investigations. In light of these facts, EHRs have become a powerful resource to illuminate shared genetic architecture across diseases through the development of genome-wide association studies (GWAS), phenome-wide association studies (PheWAS), transcriptome wide association studies (TWAS) and colocalization analyses, pharmacogenomic investigations, polygenic risk scores (PRS), phenotype risk scores (PheRS), Mendelian randomization (MR), biogeographic ancestry modeling, and exploration of the impact of rare disease variants. GWAS evaluates the association of millions of genetic variants with a particular disease while PheWAS examines the range of diseases associated with a particular genetic variant (or other analyte) to identify potentially pleiotropic relationships. These types of approaches, combined with biomedical and functional genomic informatics resources as well as innovative statistical modeling techniques, can elucidate genomic architecture of disease, common biological mechanisms underlying disease development and progression, and clinically relevant therapeutic targets.

 

EHR - Clinical Concepts - Phenotyping diagram

 

Currently, the laboratory harnesses data from large scale biorepositories such as the eMERGE (Electronic Medical Records and Genetics) Network, BioVU, UK Biobank, Million Veteran Program (MVP), and All of Us . A common project for those in Dr. Denny’s group is to analyze complex datasets incorporating hundreds of thousands of predictors and up to millions of subjects. Their work accounts for complex interactions between a highly dimensional feature space through statistical and artificial intelligence (AI)/machine learning algorithms designed to process this complexity.

Additionally, members of the laboratory have incorporated dense, temporal data in intensive care environments and sparse, sporadically collected outpatient data on diverse and heterogeneous study populations. The nature of this research is based on highly imbalanced data with rare outcomes and events. In conjunction with these data sources and growing research partnerships, the laboratory aims to identify features that track with behavioral health traits (e.g., activity, sleep, imaging, etc.) and build novel phenotypes (e.g., predicted suicide risk, predicted carrier of genetic variant, etc.). EHRs offer a unique chance to evaluate a multitude of health outcomes including complex human disease, response to medication, clinical characteristics, and environmental influences impacting patient health for association with genetic factors.

While there is an overwhelming amount of information available in EHRs, typically this data is unstructured and common difficulties arise associated with data availability, missingness, and inconsistency. Therefore, another meaningful component of this laboratory’s mission is to extract practical information from the EHRs in a systematic and unbiased fashion. Dr. Denny and others have developed tools which facilitate data extraction, such as KnowledgeMap for natural language processing of clinical text and “phecodes” for phenotypic restructuring and harmonization from EHR billing codes. Moreover, Dr. Denny and others have leveraged data found in EHRs to facilitate the recognition of rare-variant associations. The aggregated risk scores, known as phenotype risk scores (PheRS), leverage structured EHR data by mapping known clinical characteristics of a given Mendelian disease (typically extracted as human phenotype ontology [HPO] terms associated with characteristics from Online Mendelian Inheritance in Man (OMIM)). These HPO terms are then mapped to phecodes (which are available for each person contained in an EHR) and aggregated into a risk score for each individual. PheRS has demonstrated effective identification of potentially pathogenic variants and has replicated previously unrecognized associations.

In summary, the Precision Health Informatics Lab proposes efficient and cost-effective approaches to identify novel disease/trait-variant relationships with pleiotropic impacts by evaluating large-scale EHR data from multiple sources. Their work has the potential to fundamentally augment the knowledgebase of human health through illumination of the genomic architecture of complex human diseases and traits, insight into common biological mechanisms underlying disease development and progression and trait distributions, and identification of clinically relevant therapeutic targets.

Selected Publications

Denny, J. C., Smithers, J. D., Miller, R. A., & Spickard, A. (2003). “Understanding” medical school curriculum content using KnowledgeMap. Journal of the American Medical Informatics Association, 10(4), 351–362. [PubMed]

Ritchie, M. D., Denny, J. C., Crawford, D. C., Ramirez, A. H., Weiner, J. B., Pulley, J. M., … Roden, D. M. (2010). Robust replication of genotype-phenotype associations across multiple diseases in an electronic medical record. American Journal of Human Genetics, 86(4), 560–572. [PubMed]

Denny, J. C., Ritchie, M. D., Basford, M. A., Pulley, J. M., Bastarache, L., Brown-Gentry, K., … Crawford, D. C. (2010). PheWAS: Demonstrating the feasibility of a phenome-wide scan to discover gene-disease associations. Bioinformatics, 26(9), 1205–1210. [PubMed]

Kho, A.N., Pacheco, J.A., Peissig, P.L., Rasmussen, L., Newton, K.M., Weston, N., … Denny, J.C. (2011). Electronic medical records for genetic research: results from the eMERGE consortium. Sci Transl Med, 3(79):79re1. [PubMed]

Denny, J. C. (2012). Chapter 13: Mining electronic health records in the genomics era. PLoS Computational Biology, 8(12). [PubMed]

Pulley, J.M., Denny, J.C., Peterson, J.F., Bernard, G.R., Vnencak-Jones, C.L., … Roden, D.M. (2012). Operational implementation of prospective genotyping for personalized medicine: the design of the Vanderbilt PREDICT project. Clin Pharmacol Ther, 92(1):87-95. [PubMed]

Denny, J. C., Bastarache, L., Ritchie, M. D., Carroll, R. J., Zink, R., Mosley, J. D., … Pacheco, J. A. (2013 ). Systemic comparison of phenome-wide association study of electronic medical record data and genome-wide association study data. Nature Biotechnology, 31(12), 1102–1110. [PubMed]

Xu, H., Aldrich, M. C., Chen, Q., Liu, H., Peterson, N. B., Dai, Q., … Denny, J. C. (2015). Validating drug repurposing signals using electronic health records: A case study of metformin associated with reduced cancer mortality. Journal of the American Medical Informatics Association, 22(1), 179–191. [PubMed]

Wei, W. Q., Bastarache, L. A., Carroll, R. J., Marlo, J. E., Osterman, T. J., Gamazon, E. R., … Denny, J. C. (2017). Evaluating phecodes, clinical classification software, and ICD-9-CM codes for phenome-wide association studies in the electronic health record. PLoS ONE, 12(7), 1–16. [PubMed]

Barnado, A., Carroll, R.J., Casey, C., Wheless, L., Denny, J.C., Crofford, L.J. (2018). Phenome-wide association study identifies marked increase in burden of comorbidities in African Americans with systemic lupus erythematosus. Arthritis Res Ther, 20(1):69 [PubMed]

Denny, J.C., Van Driest, S.L, Wei, W, and Roden, D.M. (2018) The influence of big (clinical) data and genomics on precision medicine and drug development. Clin Pharmacol Ther, 103(3):409-418. [PubMed]
Wei, W., Li, X., Feng, Q., Kubo, M., Kullo, I.J., Peissig, P.L., Karlson, E.W., … Denny, J.C. (2018). LPA variants are associated with residual cardiovascular risk in patients receiving statins. Circulation, 138(17):1839-1849. [PubMed]

Dahir, K.M., Tilden, D.R., Warner, J.L., Bastarache, L., Smith, D.K., Gifford, A., … Denny, J.C. (2018). Rare variants in the gene ALPL that cause hypophosphatasia are strongly associated with ovarian and uterine disorders. J Clin Endocrinol Metab, 103(6):2234-2243. [PubMed]

Bastarache, L., Hughey, J.J., Goldstein, J.A., Bastraache, J.A., Das, S., Zaki, N.C., Zeng, C., Tang, L.A., Roden, D.M., Denny, J.C. (2019). Improving the phenotype risk score as a scalable approach to identifying patients with Mendelian disease. J Am Med Inform Assoc, 26(12):1437-1447. [PubMed]

Giri, A., Hellwege, J.N., Keaton, J.M., Park, J., Qiu, C., Warren, H.R., Torstenson, E.S. ,… Denny, J.C., … Edwards, T.L. (2019). Trans-ethnic association study of blood pressure determinants in over 750,000 individuals. Nat Genet, 51(1):51-62. [PubMed]

Bastarache, L., Hughey, J. J., Hebbring, S., Marlo, J., Zhao, W., Ho, T., … Denny, J. C. (2018). Phenotype risk scores identify patients with unrecognized Mendelian disease patterns. Science, 359(6381), 1233–1239. [PubMed]

Additional publications can be found on Google Scholar.

Precision Health Informatics Section Staff

Tracey Ferrara
Tracey Ferrara, Ph.D.
  • Lab Manager
  • Precision Health Informatics Section

Staff Clinicians

Huan Mo
Huan Mo, M.D., M.S.
  • Director
  • Cohort Analytics Core

Staff Scientists

Jacob Keaton
Jacob Keaton, Ph.D.
  • Staff Scientist
  • Precision Health Informatics Section
Generic Profile Photo
Chenjie Zeng, Ph.D., M.P.H.
  • Staff Scientist
  • Precision Health Informatics Section

Postdoctoral Fellows

Slavi Goleva
Slavina Goleva, Ph.D.
  • Postdoctoral Fellow
  • Precision Health Informatics Section
Ariel Williams
Ariel Williams, M.S., Ph.D.
  • Postdoctoral Fellow
  • Precision Health Informatics Section

Clinical Fellows

Bennett Waxse
Bennett Waxse, M.D., Ph.D.
  • Clinical Fellow
  • Precision Health Informatics Section

Bioinformaticians

Tam Tran
Tam Tran, M.S.
  • Bioinformatician
  • Cohorts Data Analytics Core

Postbaccalaureate Fellows

Peter Saur
Peter J. Sauer, B.S.
  • Postbaccalaureate Fellow
  • Precision Health Informatics Section

Student IRTAs

James Yang
James Yang
  • Student IRTA
  • Precision Health Informatics Section

Special Volunteers

Anav Babbar
Anav Babbar
  • Special Volunteer
  • Precision Health Informatics Section
Molly Goldwasser
Molly Goldwasser
  • Special Volunteer
  • Precision Health Informatics Section
David Schlueter
David Schlueter, Ph.D.
  • Special Volunteer
  • Precision Health Informatics Section
Onajia Stubblefield
Onajia Stubblefield, M.S.
  • Special Volunteer
  • Precision Health Informatics Section

Last updated: December 14, 2023