An Unexpected Partnership: Alexis Carrel, Charles Lindbergh, and Normothermic Machine Perfusion.

Organ transplantation is a triumph of modern medicine which represents a culmination of science and imagination, saving thousands of lives a year. However, transplantation is severely limited by suitable donor allografts. To expand the donor pool and make transplantation achievable for all, normothermic machine perfusion (NMP) is being employed more frequently. Normothermic machine perfusion involves the utilization of a device to approximate the physiology of the human body, preserve organs outside of the donor, and provide a dynamic assessment platform to determine organ suitability for transplantation. As NMP technology advances, it will soon be possible to genetically modify and actively repair these organs. Although its application to the field of transplantation is relatively new, the concept, foundation, and development of NMP can be traced back to the pioneering work of the surgeon-scientist, Alexis Carrel and the famous aviator, Charles Lindbergh in the 1930s. Their collaboration resulted in the Carrel-Lindbergh Perfusion device, an early perfusion device that was able to keep organs alive ex vivo for weeks and is most appropriately viewed as a precursor to modern machine perfusion technologies. As NMP technology becomes more advanced and refined, it is important to acknowledge the historical context in which these technologies emerged.

History of clinical intestinal transplantation.

The intestines have been considered the "forbidden organ" for years, and intestinal failure became the last organ failure recognized as such in the medical field. The impossibility of providing adequate nutritional support, turned these patients into recipients of just palliative comfort. In the 1960's, parenteral nutrition appeared as the most reasonable replacement therapy, but the initial success obtained with clinical kidney, heart, liver, lung and pancreas transplantation served as background to explore intestinal transplantation. The first clinical report of an isolated intestinal transplant was done by Richard Lillihei in 1967; in 1983, Thomas Starzl, performed the first multi visceral transplant, and in 1990, David Grant performed the first combined liver-intestinal transplant in an adult recipient in Canada. Since then, advances in immunosuppressive therapies and surgical innovations have allowed not only a continuous increase in indications, but also a worldwide application of all procedures, bringing clinical intestinal transplantation to reality. In this historical account, the most important contributions have been summarized, thus describing the steady progress, expansion and novelties developed over the last 56 years, since the first attempt. Clinical intestinal transplantation remains a complex and evolving field; ongoing research and technological advancements will continue shaping its future.

[ORGAN TRANSPLANT HISTORY IN ISRAEL].

INTRODUCTION: Organ transplantation is an innovative field that was pioneered in the middle of the last century with the development of surgical techniques, advances in the understanding of immunological processes that cause rejection, introduction of drugs to prevent rejection and improved methods for organ preservation. In Israel, the first heart transplantation and kidney transplantation were performed in the mid-1960's followed by pancreas, lung and liver transplantation that were conducted for the first time in the late 1980's and early 1990's. The significant change that has led to an increase in the number of transplants in Israel and rising success rates after transplant has occurred with the introduction of the new generation of anti-rejection drugs, Cyclosporine and subsequently Tacrolimus (Prograf ®). Another milestone was the founding of The National Transplant Center in 1994. This led to the formation of national transplant candidate lists for each organ, the establishment of professional committees that determine organ allocation policy and the creation of a governmental ethics committee to oversee the performance of live-donor transplantation. In 2008, about a month before the signing of the Istanbul Declaration, the Transplantation Law was enacted to regulate organ transplantation in Israel, which included clauses restricting organ trade in the spirit of the Istanbul Declaration. These measures increased the number of transplants performed in Israel and significantly reduced the number of transplants of Israelis abroad. The establishment of Matanat Chaim Organization in 2012 is another milestone that has led to a significant increase in the number of kidney transplants, most of which are currently performed from altruistic donations. However, today there is still a shortage of organs for transplantation from deceased donors and there is a long way to go to close the gap between organ need and supply. This review will indicate the introduction of the first transplants performed in Israel and the measures undertaken to increase the number of transplants. In addition, the review will note the laws and regulations of organ allocation.

The Last Breath: Historical Controversies Surrounding Determination of Cardiopulmonary Death.

Cardiopulmonary determination of death is a mainstay of the practice of internal medicine and pulmonary physicians. Despite this, there is considerable variability in death examinations. This article tracks the evolution of the tripartite death examination, initially developed in the middle of the 19th century to protect against premature burial. Although the societal context for controversies about death determination has shifted to discussions about end-of-life care in ICUs and organ transplantation, the cardiopulmonary death examination has largely remained unchanged from its original formulation. The recognition of coma dépassé and brain death has further pushed the focus of the death examination onto the neurological system. Despite advancing diagnostics and legislative attempts to standardize the definition of death, cardiopulmonary death determination largely remains an ad hoc process.

Enabling out-of-body experiences for living organs.

In a 1937 issue of JEM, Carrel (1937. J. Exp. Med.https://doi.org/10.1084/jem.65.4.515) described a technique for culturing whole living organs outside the body. Here, Ingber reviews how this work led to a series of scientific, engineering, and medical breakthroughs that continue to this day.

The Freemartin Cattle and Clinical Transplantation: From the Ancients to Modern Day.

This historical retrospective explores the study of the freemartin condition and its impact on the discovery of immunologic tolerance and the field of transplant surgery-from the ancient Romans, to early modern anatomists Valsalva, Scarpa, and Hunter, to contemporary immunologists Owen, Medawar, and Billingham, and to legendary transplant surgeon Joseph Murray. The legacy of freemartin cattle in the understanding of acquired tolerance and transplant immunology represents generations of scientific inquiry guided by careful observation and occasional serendipity, and the present-day immunologists and surgeons exploring immune transplant tolerance owe much to the history of the freemartin, several millennia in the making.