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Academic Credentials
  • Ph.D., Biomedical Engineering, University of South Carolina, 2019
  • B.S., Biomedical Engineering, University of South Carolina, 2014
Professional Honors
  • National Institute of Health Research Supplement to Promote Diversity in Health-Related Research Recipient, 2015-2019
  • National Science Foundation I-Corps Recipient and 1st place in the start-up pitch competition, University of South Carolina, 2018
Professional Affiliations
  • Society of Hispanic Professional Engineers
  • National Biomedical Engineering Society

Dr. Torres specializes in the use of multi-disciplinary methods such as quantitative image analysis and computational modeling to promote the effective design of medical technology. He has expertise in the use of finite element analysis, computational fluid dynamics, and three-dimensional anatomical reconstruction for the mechanical and/or electromagnetic analysis of the interaction between biological tissues and medical devices as well as the recreation of in-vivo biological flows. 

Furthermore, he has extensive experience in the use of computational and experimental techniques to evaluate MRI safety and compatibility of medical devices.

Throughout the course of his doctoral research at the University of South Carolina, Dr. Torres worked extensively with unique large animal models of heart failure to characterize the rate and extent of adverse remodeling secondary to different phenotypes of heart disease using non-invasive echocardiographic imaging and multi-photon histological analysis. This work motivated the intelligent design of targeted biomaterial-based therapeutics for post-myocardial infarction care to mitigate these adverse outcomes. Furthermore, he invented a clinically translatable tool for the advanced biomechanical analysis of the human heart from readily available echocardiographic imaging.