Throughout its history, the University of Louisville School of Medicine has been a pioneer in terms of modern medical practice and surgical procedure. Notably, the University of Louisville housed the world's first
emergency room, opened in 1911 and developed by surgeon Arnold Griswold in the 1930s. Griswold also developed
autotransfusion, the process by which a person receives their own blood for a transfusion rather than banked donor blood. In 1998, Dr. Roberto Bolli led a U of L team that identified an
intracellular molecule that could protect the heart from
ischemic myocardial damage. This group presented its findings to 40,000 cardiologists at the 1998
American Heart Association (AHA) conference. Dr. Bolli also headed a U of L team that was awarded an $11.7 million grant from the
National Heart, Lung, and Blood Institute—part of the
National Institutes of Health—to continue to build on this research in 2005, marking the largest nationally competitive NIH grant awarded to the university. NIH reviewers rated the proposed research program as exceedingly innovative and potentially high-impact, noting that it addresses an extremely important clinical problem in a way that will move treatments from the laboratory to the patient as quickly as possible. Using highly unusual language, the reviewers called the proposal "a paradigm of what a program project grant should be." Bolli was the lead author on the SCIPIO trial testing the effects of stem cells in heart failure. The resulting paper was retracted by
The Lancet for data falsification. He is or has been on the editorial board of all major cardiovascular journals and was the Editor in Chief of
Circulation Research, a post from which he was dismissed for making homophobic comments He has been a member of numerous NIH study sections and committees and is a member of the NHLBI Advisory Council. He also serves as a member of the Board of Directors of the American Heart Association. Surgeons from the University of Louisville in cooperation with the Kleinert and Kutz Hand Care Center and Jewish Hospital performed the first five
hand transplants in the United States. The Hand Center performed one of the world's first cross-hand
replantations, first reported repair of the
digital arteries, first bilateral upper arm replantation, first bilateral forearm replantation, first reported successful technique for primary
flexor tendon repair, and first vascularized
epiphyseal transfer. This center has pioneered work in primary reconstruction using
free tissue transfer. The Christine M. Kleinert Institute hand surgery fellowship program is one of the top fellowships in the world for hand and microsurgery. In 2001, University of Louisville and Jewish Hospital physicians and researchers, Drs. Laman A. Gray Jr. and Robert D. Dowling, performed the world's first implantation of the
AbioCor Implantable Replacement Heart on July 2, in a seven-hour procedure at Jewish Hospital in Louisville, Kentucky. University of Louisville
cardiothoracic surgeons have performed many other novel procedures, including Kentucky's first
heart transplant, the world's first heart transplant following the use of a
Thoratec left ventricular assist device, the world's first endoscopic
saphenous vein harvest and the first
ventricular remodeling in the region. The James Graham Brown Cancer Center, an affiliate of Kentucky One Health and University of Louisville School of Medicine, has made several discoveries that have brought the center international attention. These discoveries include: • First description of Very Small Embryonic-like Stem Cells • These "embryonic-like" stem cells, which are isolated from bone marrow, will revolutionize clinical applications of stem cells and further the understanding of cancer metastasis • First development of a tobacco-based cancer vaccine • Drs. A. Bennett Jenson and Shin-je Ghim, innovators of the world's first 100% effective cancer vaccine have begun work to develop a less expensive vaccine with an increased spectrum of activity. This vaccine will be produced in tobacco plants, one of Kentucky's abundant crops. • First clinical use of G-rich oligonucleotide aptamer therapy for cancer • Drs. Trent and Bates discovered a new growth inhibitor activity of G-rich oligonucleotides which have proved effective in early phase clinical trials with no toxicity noted in humans. The drug, AS1411, is now in Phase II clinical trials. • First atomic-level study of lung cancer metabolism in human patients • Scientists in the Structural Biology Program have used nuclear magnetic resonance (NMR) to follow glucose metabolized by patients with lung cancer to demonstrate differences between normal and malignant lung tissue • First use of digoxin to enhance the effects of chemotherapy in lung cancer • James Graham Brown Cancer researchers used laboratory findings to design a clinical trial in which the cardiac drug, digoxin, is used as a supplement of chemotherapy treatment. Early results from the trial suggested the treatment will result in the highest response rate for melanoma ever reported. • First use of beta-glucan as an immunostimulant for human cancer therapy • Brown Cancer researchers, led by Dr. Gordon Ross, discovered that beta-glucan can markedly enhance the immune response of mice to injected tumors. This treatment is now being tested for the first time in humans at the University of Louisville and
Memorial Sloan-Kettering Cancer Center in New York. • First use of colored berries to prevent cancer in high risk individuals • Dr. Ramesh Gupta is the first to show that colored berries can prevent the development of cancer in animals and is preparing the first human clinical trial using this approach. Brown Cancer Center scientists have developed three novel cancer treatments that are in early phase trials. Additionally, at least twenty-seven new drugs or targets which are in various stages of preclinical testing have also been developed. These treatments mark one of the most robust pipelines of any cancer center in the world. Accordingly, a biotech company partially owned by the University of Louisville/Brown Cancer Center, Advanced Cancer Therapeutics, has been initiated to ensure drugs are developed locally and quickly. The goal of the cancer center is to achieve
National Cancer Institute designation, a goal they are on track to receive in the near future. ==Students==