Addressing challenges of training a new generation of clinician-innovators through an interdisciplinary medical technology design program: Bench-to-Bedside

doi:10.1186/s40169-015-0056-3

. 2015 Apr 19:4:15.

doi: 10.1186/s40169-015-0056-3. eCollection 2015.

Addressing challenges of training a new generation of clinician-innovators through an interdisciplinary medical technology design program: Bench-to-Bedside

Patrick D Loftus¹, Craig T Elder¹, Troy D'Ambrosio², John T Langell¹

Affiliations

¹ Center for Medical Innovation, University of Utah, 10 North 1900 East, Spencer S. Eccles Health Sciences Library Room 15, Salt Lake City, Utah 84132 USA.
² Lassonde Entrepreneur Institute, University of Utah, 105 Fort Douglas, Bldg. #604, Salt Lake City, Utah 84113 USA.

PMID: 25984273
PMCID: PMC4424228
DOI: 10.1186/s40169-015-0056-3

Addressing challenges of training a new generation of clinician-innovators through an interdisciplinary medical technology design program: Bench-to-Bedside

Patrick D Loftus et al. Clin Transl Med. 2015.

. 2015 Apr 19:4:15.

doi: 10.1186/s40169-015-0056-3. eCollection 2015.

Authors

Patrick D Loftus¹, Craig T Elder¹, Troy D'Ambrosio², John T Langell¹

Affiliations

¹ Center for Medical Innovation, University of Utah, 10 North 1900 East, Spencer S. Eccles Health Sciences Library Room 15, Salt Lake City, Utah 84132 USA.
² Lassonde Entrepreneur Institute, University of Utah, 105 Fort Douglas, Bldg. #604, Salt Lake City, Utah 84113 USA.

PMID: 25984273
PMCID: PMC4424228
DOI: 10.1186/s40169-015-0056-3

Abstract

Graduate medical education has traditionally focused on training future physicians to be outstanding clinicians with basic and clinical science research skills. This focus has resulted in substantial knowledge gains, but a modest return on investment based on direct improvements in clinical care. In today's shifting healthcare landscape, a number of important challenges must be overcome to not only improve the delivery of healthcare, but to prepare future physicians to think outside the box, focus on and create healthcare innovations, and navigate the complex legal, business and regulatory hurdles of bringing innovation to the bedside. We created an interdisciplinary and experiential medical technology design competition to address these challenges and train medical students interested in moving new and innovative clinical solutions to the forefront of medicine. Medical students were partnered with business, law, design and engineering students to form interdisciplinary teams focused on developing solutions to unmet clinical needs. Over the course of six months teams were provided access to clinical and industry mentors, $500 prototyping funds, development facilities, and non-mandatory didactic lectures in ideation, design, intellectual property, FDA regulatory requirements, prototyping, market analysis, business plan development and capital acquisition. After four years of implementation, the program has supported 396 participants, seen the development of 91 novel medical devices, and launched the formation of 24 new companies. From our perspective, medical education programs that develop innovation training programs and shift incentives from purely traditional basic and clinical science research to also include high-risk innovation will see increased student engagement in improving healthcare delivery and an increase in the quality and quantity of innovative solutions to medical problems being brought to market.

Keywords: Bench-to-Bedside; Clinical innovation; Industry; Market; Medical competition; Medical education; Publishing papers; Research paradigm.

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[1] Bandiera G, Boucher A, Neville A, Kuper A, Hodges B. Integration and timing of basic and clinical sciences education. Med Teach. 2013;35(5):381–7. doi: 10.3109/0142159X.2013.769674. - DOI - PubMed

[2] Bandiera G, Boucher A, Neville A, Kuper A, Hodges B. Integration and timing of basic and clinical sciences education. Med Teach. 2013;35(5):381–7. doi: 10.3109/0142159X.2013.769674. - DOI - PubMed

[3] Azzalis LA, Giavarotti L, Sato SN, Barros NM, Junqueira VB, Fonseca FL. Integration of basic sciences in health’s courses. Biochem Mol Biol Educ. 2012;40(3):204–8. doi: 10.1002/bmb.20590. - DOI - PubMed

[4] Azzalis LA, Giavarotti L, Sato SN, Barros NM, Junqueira VB, Fonseca FL. Integration of basic sciences in health’s courses. Biochem Mol Biol Educ. 2012;40(3):204–8. doi: 10.1002/bmb.20590. - DOI - PubMed

[5] Zuckerman B, Margolis PA, Mate KS. Health Services Innovation: The Time is Now. JAMA. 2013;309(11):1113–4. doi: 10.1001/jama.2013.2007. - DOI - PubMed

[6] Zuckerman B, Margolis PA, Mate KS. Health Services Innovation: The Time is Now. JAMA. 2013;309(11):1113–4. doi: 10.1001/jama.2013.2007. - DOI - PubMed

[7] Sweeney G. The challenge for basic science education in problem-based medical curricula. Clin Invest Med. 1999;22(1):15–22. - PubMed

[8] Sweeney G. The challenge for basic science education in problem-based medical curricula. Clin Invest Med. 1999;22(1):15–22. - PubMed

[9] Pickering CR, Bast RC Jr, Keyomarsi K. How will we recruit, train, and retain physicians and scientists to conduct translational cancer research? Cancer. 2014 Oct 29. doi: 10.1002/cncr.29033. [Epub ahead of print]. - PMC - PubMed

[10] Pickering CR, Bast RC Jr, Keyomarsi K. How will we recruit, train, and retain physicians and scientists to conduct translational cancer research? Cancer. 2014 Oct 29. doi: 10.1002/cncr.29033. [Epub ahead of print]. - PMC - PubMed

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Addressing challenges of training a new generation of clinician-innovators through an interdisciplinary medical technology design program: Bench-to-Bedside

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Addressing challenges of training a new generation of clinician-innovators through an interdisciplinary medical technology design program: Bench-to-Bedside

Authors

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Abstract

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