Research Discoveries

The collaborative approach to research in the Department of Biomedical Sciences has led to scientific discoveries across many areas. Below are some of the more recent discoveries.

Mechanisms of Disease
  • Identification of a nuclear protein required for development of all innate lymphoid cells involved in fighting infection, promoting repair and regulating metabolism in inflammation and in cancer
  • Molecular insights into mechanical ventilation-induced lung injury, including macrophage biology
  • Intra-renal generation of angiotensin II mediates salt-sensitive hypertension
  • Discovery of several new alternatively-translated proteins which are proving to be important to cell survival
  • Development of a novel methodology for rapid brain tumor modeling
  • Measurement of human memory retrieval processes and their impairments in amnesia
Diagnostic Innovations
  • Development of multiplex biomarker panels with digital image analysis as companion diagnostic for evaluation of responses to irradiation, PARP inhibitors and immuno-modulatory drugs in cancer
  • Development of novel MR techniques for accurate detection and staging of low-risk prostate cancer
  • Accurate detection and characterization of imaging biomarkers for high-risk coronary atherosclerotic plaques
Population Health
  • Evidence that individuals living at high altitudes have a significantly lower risk of developing type 2 diabetes and obesity
  • Establishment of population-based study to identify novel mechanisms of ventricular arrhythmogenesis
  • Evaluation of strategy to attenuate long-term cardiotoxicity of chemotherapeutic agents in cancer using statins
  • Public health approach to diagnosis and management of hypertension in African American males.
Research Technology & Resource Development
  • Creation of "omics" technical pipeline to begin to integrate "omics" with research and clinical databases
  • Creation of bioinformatics and functional genomics research center with broad interactions within research community
  • Creation of metabolism and mitochondrial research core for measurement of body fat composition and metabolism
  • Biostatistics resource for developing novel methodologies for phase1 clinical trials in cancer
  • Provision of database of fungal component of intestinal microbiome for use by national and international microbiome community
Have Questions or Need Help?

Contact us if you have questions or wish to learn more about Cedars-Sinai's Department of Biomedical Sciences.

Department of Biomedical Sciences
8700 Beverly Blvd.
Davis Building, Suite 5090
Los Angeles, CA 90048