Novel educational program puts a human face on biomedical research

September 25, 2020
TL1 trainee Xinh Xinh Nguyen (left) shadowed KL2 scholar Dr. DeAnna Baker Frost (right) during her Translational Sciences Clinic rotation. Dr.Carola Feghali-Bostwick (center), who is associate director of the TL1 program, mentors both Nguyen and Baker-Frost.
TL1 trainee Xinh Xinh Nguyen (left), who researches scleroderma, shadowed KL2 scholar Dr. DeAnna Baker Frost (right), a rheumatologist, as she treated patients with scleroderma. Both are mentored by Dr. Carol Feghali-Bostwick (center).

Translational research aims to speed research breakthroughs into the clinic. And yet, training for basic scientists and clinicians too often remains siloed, leading to divergent cultures and a loss of opportunity for cross-disciplinary collaboration.

The South Carolina Clinical & Translational Research (SCTR) Institute’s TL1 program, a translational research training program for doctoral students in the MUSC Colleges of Graduate Studies, Medicine, Health Professions, Dental Medicine, and Pharmacy, is trying to change that by requiring trainees to complete a rotation in which they shadow physicians who treat patients with the diseases at the center of their research. The rotation, dubbed the Translational Sciences Clinic, is profiled in a recent article in the Journal of Clinical and Translational Science (JCTS).

“The education provided by the Translational Sciences Clinic is a two-way street. It provides basic science trainees a better understanding of what the patients’ problems are and what they need to address in their research,” explained TL1 program director and lead author Perry Halushka, M.D., Ph.D. “But the students also educate the clinicians by bringing basic science questions and answers to the patients’ problems.”

Dr. Perry Halushka, director fo the South Carolina Clinical and Translational Research Institute's TL1 program 
Dr. Perry Halushka

In the third year of their graduate studies, students spend a half day each week in the clinics of their choice. By that time, they are already well versed in teamwork and in the various stages of translational research through their participation in the TL1 journal club, as was detailed in another recent JCTS article. In journal club, they read articles documenting the successful translation of a breakthrough to the clinic and work in teams of three to present each step of that research. One member discusses the fundamental basic research; another, the clinical testing of the breakthrough; and the third, its dissemination. 

“The TL1 journal club helps students see how a basic discovery can be developed into a drug or a device,” said TL1 associate director and senior author Carol Feghali-Bostwick, Ph.D. “It has the additional advantage of having them work as teams.”

This background prepares them well to work on cross-disciplinary teams in the Translational Sciences Clinic. In turn, the rotation in the clinic often leads to ongoing cross-disciplinary collaborations.

The clinicians that the trainees shadow often join their mentorship teams and provide clinical perspectives on their research. Sometimes, they even serve on their dissertation committees. Such was the case with Daniel Lench, who has now graduated from the program. He worked with Gonzalo J. Revuelta, D.O., a movement disorders specialist.

“Through the time spent in the Translational Research Clinic, trainees suddenly get a greater appreciation for what they're doing at the bench and see how that could change people's lives.”

-- Dr. Perry Halushka

“Working with Dr. Revuelta in a translational research setting was a uniquely rewarding experience,” said Lench. “I spent one semester in his movement disorder clinic observing and learning from specific cases. As a member of my dissertation committee, Dr. Revuelta helped me think more about the clinical relevance of research questions. Overall, my time in the clinic with him provided a strong framework on how to perform translational research in the future.”

In some cases, the clinician mentor is a SCTR KL2 scholar, a junior-level physician-scientist who is guaranteed time to pursue a research project. For example, Xinh Xinh Nguyen, a TL1 trainee who studies scleroderma in Feghali-Bostwick’s research laboratory, was able to shadow Deanna Baker Frost, M.D., Ph.D., a KL2 scholar and rheumatologist with a clinical interest in autoimmune diseases and fibrosis, as she saw patients with scleroderma.

“The TL1 program has provided me with additional learning opportunities to gain expertise in translational research,” says Nguyen. “It has enhanced my knowledge about clinically relevant aspects of my project.”

“The TL1 program has (...) enhanced my knowledge about clinically relevant aspects of my project.”  

-- TL1 trainee Xinh Xinh Nguyen

Feghali-Bostwick recognizes how greatly the rotation in the Translational Sciences Clinic benefited Nguyen.

“Xinh Xinh  is doing research on scleroderma, but now she understands better what scleroderma is and understands what patients go through and what their complications are and what they come in for,” explained Feghali-Bostwick. “That puts it all in perspective and helps her better understand why she is doing the research she is doing."

Feghali-Bostwick believes that there is a natural mentoring relationship between the KL2 and TL1 scholars. “There is less of a gap between them than between senior scientists, like myself, and TL1s,” she said. “It's a good fit; it's a natural fit.”

Most of all, the Translational Sciences Clinic motivates trainees and reminds them of the importance of the work they do. On program evaluations, many comment that their time spent in clinic seeing patients was among their most meaningful and inspiring experiences in graduate school. 

“Through the time spent in the Translational Research Clinic, trainees suddenly get a greater appreciation for what they're doing at the bench and see how that could change people's lives,” said Halushka. “They can actually see what happens when fundamental discoveries are turned into new therapeutic approaches.”