There were more than 48,000 organ transplants in the United States last year. They’re commonplace now, but the practice was considered experimental only a half-century ago. Until just the past few years, transplants almost always involved human organs. Now, early experiments in xenotransplantation — transplanting animal organs into humans — are creating potential pathways to save lives. Here’s a look back at how we got to this point. Are animals the answer? Xenotransplantation, the practice of transplanting organs between species, is a concept that has been around for hundreds of years. Early in the 20th century, Dr. Mathieu Jaboulay turned the idea into action with one of the first well-documented attempts to make an animal organ work for a human. In 1906 in Lyon, France, Jaboulay attached a pig kidney to a 48-year-old woman’s elbow, choosing that spot because it was easy to access. Blood circulated through the kidney, and the kidney produced urine, something even some human donations in this period failed to do, studies show. The pig kidney quickly failed, and the patient died soon after due to an infection. “The lack of having ready access to human organs has always sort of been the holy grail, that you would have something in reserve that didn’t require a human to die in order for another human to live,” said Dr. Jeffrey Stern, a senior member of the NYU Langone Transplant Institute’s xenotransplantation team. “Obviously, animals as that source is sort of an ideal version of that.” The first successful human transplant In 1954, the world’s first successful human organ transplant was performed by Dr. Joseph E. Murray at what’s now called Brigham and Women’s Hospital in Boston. Murray took a kidney from 22-year-old Ronald Herrick and transplanted it into Richard Herrick, his twin brother. Because they were identical, Richard’s immune system thought the new organ was its own, which prevented it from rejecting the foreign organ. Richard Herrick lived another eight years, and his organ donor brother had no harmful side effects. “I think that really moved the field,” said Dr. Stefan Tullius, chief of the Division of Transplant Surgery at Brigham and Women’s Hospital. “What that did show is that if you have the right combination and relationship between donor and recipient, then you indeed can transplant an organ and that is going to work,” Tullius added. Since immunosuppressive drugs were not yet available, transplant experiments seemed to work only with twins whose immune systems thought the foreign organ were their own. “You still ran into all those issues for the next 30 years with the immune system,” said Stern, who is also an assistant professor in the Department of Surgery at NYU Grossman School of Medicine. “Not everyone has an identical twin.” More donors In the 1960s, Murray demonstrated in several experiments with dogs that an organ transplant would be more successful if the recipient received drugs to suppress the immune system after the procedure, to lower the chances of rejection. In April 1962, in a world first that built on what he learned from those experiments, Murphy transplanted a kidney from a deceased donor into an unrelated human who was treated with an immunosuppressant called azathioprine. The patient survived more than a year, and s survival time lengthened even further when doctors discovered that an immunosuppressant worked better if given along with the steroid prednisone. In June 1963, one of Murray’s research fellows, Belgian surgeon Dr. Guy Alexandre, performed the first transplant operation from a brain-dead donor, a controversial procedure at the time. Alexandre had been searching for a kidney for a patient with renal failure when a woman who had been in a car accident was brought in to his Hôpital Saint-Pierre in Brussels. Her heart was beating, but she showed no brain activity. Knowing that organs lost viability as soon as a patient’s heart stopped, Alexandre got permission from his department chair to transplant the woman’s kidney into his patient with renal failure. The recipient lived another 87 days. Over the next couple of years, Alexandre secretly performed other kidney transplants using brain-dead donors to see if such an approach would lengthen survival time compared with transplants from donors whose hearts had stopped. He disclosed the experiments at a medical conference a couple years later, to mixed reactions. It wasn’t until 1968 that a Harvard Medical School committee published its recommendation that irreversible loss of brain function – once called “irreversible coma” – would be a new criterion for death. Afterward, transplants involving brain-dead donors became more common, vastly expanding the pool of available organs. “To come up with the definition of brain death as an alternative to cardiac death – so the discontinuation of circulation – was huge, because it allowed the procurement of organs,” Tullius said. Trial and error Transplant doctors started experimenting with kidneys because humans have two and can survive with only one. Patients also had the option of dialysis if the transplant failed. But the more the doctors learned, the more confident they became that they could transplant other organs. By the late 1960s, they started to experiment with livers and pancreases, and in 1967, South African surgeon Dr. Christiaan Barnard of Groote Schuur Hospital in Cape Town performed the first heart transplant. He transplanted a 25-year-old’s heart into a 53-year-old grocer who was dying from chronic heart disease. The grocer died 18 days later from a lung infection, but the heart continued to beat until his death. Barnard’s second heart transplant patient lived almost 19 months. His fifth and sixth patients lived for almost 13 and 24 years, respectively. By the 1990s, immunosuppressants like cyclosporine and tacrolimus opened new possibilities for transplants of multiple tissues. In 1998, Dr. Jean-Michel Dubernard did the first surgical hand transplant in Lyon, France. In 2005, he and Dr. Bernard Devauchelle performed the first partial face transplant for Isabelle Dinoire, a woman who lost part of her face in a dog attack. In 2010, a Spanish team led by Dr. Juan Barret performed the first full-face transplant. “There’s the first 30 years of transplantation that everything was sort of experimental, right?” Stern said. “It wasn’t a commonplace endeavor that we do what we currently do, and it was a lot of trial and error and survival, and sort of the entire field of transplantation, I think, was very tenuous in that. It was adaptation and invention of new technologies that allowed transplantation to become commonplace.” Baby Fae In 1984, Dr. Leonard Bailey tried to save the life of Stephanie Fae Beauclair at Loma Linda University in California. The child, who became known as Baby Fae, was born with a deadly heart condition, and Bailey, who had been experimenting with cross-species transplants in animals, got permission to transplant a baboon heart. Stephanie lived just 21 more days, but the case generated more awareness about the need for infant organ donations and the possibility of cross-species transplantation. Eventually, scientists decided that primates, although evolutionarily the closest cousin to humans, weren’t the best organ donors. “Primates turned out to be too small, too expensive and too controversial,” said medical ethicist Dr. Art Caplan, who works with transplant cases at NYU. There was also a concern about infection. Non-human primates may carry a variety of pathogens that are not harmful to them but that can cause disease in humans, including Marburg virus and HIV. Eventually, scientists realized that pigs would be a better option: They’re anatomically similar to humans, they breed quickly, and there was a reduced risk of zoonotic disease. Nobel-winning technology Research in xenotransplantation stalled until the development of the gene editing tool CRISPR in the early 2000s. This Nobel-winning technology gave scientists the ability to edit the pig genome to make it more compatible with humans’, including knocking out key sequences in pig DNA that would result in almost automatic organ rejection in people. Combining that with cloning techniques gave scientists a chance to maintain consistent genetics and produce universal pig donors. “Cloning and to apply CRISPR, to have the opportunity of gene editing, is really allowing not only transplantation but is also relevant for other areas of medicine,” Tullius said. “I would put those in the revolutionary category.” One step closer Pig organs had been transplanted into non-human primates, but the real test came in September 2021, when a genetically engineered pig kidney was transplanted to a brain-dead patient at NYU Langone. The kidney was attached to the blood vessels in the recipient’s upper leg, outside the abdomen, for 54 hours while doctors studied how well it functioned. The organ seemed to function as well as a human kidney transplant, and the doctors did not see any signs of rejection. “We learned more from that than anything else that we’ve done,” Dr. Robert Montgomery, one of the surgeons who performed the procedure, told CNN Chief Medical Correspondent Dr. Sanjay Gupta. “It was really the basis of how we were able to figure out how to treat rejection in our living patients.” “The family graciously approved donation of their loved one’s body for this procedure. That extraordinary generosity paved the way for this major step forward in creating a sustainable supply of life-saving organs and hopefully ending the current paradigm that someone has to die for someone to live,” Montgomery said in a news release at the time. Making history On January 7, 2022, surgeons at the University of Maryland School of Medicine performed the first xenotransplant into a living person. David Bennett, 57, could not walk and relied on an artificial lung and heart bypass machine to stay alive. He was too sick to qualify for a human heart but was able to undergo the experimental procedure under the US Food and Drug Administration’s compassionate use pathway, which allows patients with no other alternatives to try experimental treatments. He lived two additional months, having the chance to spend more time with his family and watch the Super Bowl. “As with any first-in-the-world transplant surgery, this one led to valuable insights that will hopefully inform transplant surgeons to improve outcomes and potentially provide lifesaving benefits to future patients,” said his surgeon, Dr. Bartley Griffith. Bennett was the first of a handful of compassionate use xenotransplant patients. But as researchers approach clinical trials, they hope they will have a better understanding of how successful the organs can be under more typical circumstances. “The promise of xenotransplantation is the promise of hope for our patients. A hope for the future that for too long has been uncertain. It is hope turned to possibility turned to reality. Our patients can dream again about graduations, weddings … about life. Hope should not have to be rationed,” said Dr. Jayme Locke, a professor of surgery at NYU Langone. Custom organs “Multiple shots on goal” is how geneticist Dr. David Ayares describes United Therapeutics’ approach to the future of organ transplantation. This summer, the company will embark on the first FDA clinical trial of xenotransplantation. “So instead of one-off compassionate use transplants that were very valuable in learning how to optimize and extend the survival of these patients, now we can go into a multicenter trial,” Ayares, president and chief scientific officer of Revivicor, a United Therapeutics subsidiary, told Gupta. But that still won’t be enough to solve the organ shortage completely, so United Therapeutics and others in the transplant community are continuing to think farther into the future. “I think the next thing we’re going to do is … create personalized organs where we don’t have to use any immunosuppression,” Montgomery said of what he expects down the road. This could mean using a pig’s organ as scaffolding where scientists could seed human stem cells, or even 3D-printing organs. “Then you have a designer organ for that person when they need it,” Montgomery said.
The gift of life: A visual history of organ transplantation
TruthLens AI Suggested Headline:
"The Evolution and Future of Organ Transplantation: From Human to Xenotransplantation"
CNN
7.2
TruthLens AI Summary
In the past year, the United States saw over 48,000 organ transplants, a testament to the advancements in medical science that have made such procedures commonplace. However, the journey to this point has been long and fraught with challenges. Initially considered experimental, organ transplantation began to take shape in the early 20th century with Dr. Mathieu Jaboulay's pioneering attempt to transplant a pig kidney into a human in 1906. Although this early experiment ended tragically, it highlighted the pressing need for a reliable source of organs and set the stage for future developments. The landmark moment arrived in 1954 when Dr. Joseph E. Murray successfully performed the first human organ transplant between identical twins, demonstrating that organ compatibility could be achieved through genetic similarity. This breakthrough paved the way for subsequent advancements, including the introduction of immunosuppressive drugs that significantly improved transplant success rates by minimizing organ rejection. The evolution of transplantation continued through the 1960s and 1970s, with significant milestones like the first heart transplant by Dr. Christiaan Barnard and the establishment of brain death as a criterion for organ donation, which expanded the donor pool considerably.
As the field progressed, researchers began exploring xenotransplantation, the transplantation of animal organs into humans, as a possible solution to the organ shortage crisis. Initial experiments faced ethical and practical challenges, particularly with primates, leading scientists to focus on pigs due to their anatomical similarities to humans. The advent of gene editing technologies like CRISPR has opened new avenues for improving compatibility between animal organs and human recipients. Notable recent achievements include the successful transplantation of genetically modified pig organs into brain-dead patients, which indicated promising results without immediate rejection. The first live xenotransplant occurred in January 2022 when David Bennett received a pig heart, marking a significant milestone in the journey toward making xenotransplantation a viable option for patients facing organ failure. Looking ahead, researchers are optimistic about the potential of personalized organ creation and multicenter clinical trials, aiming to address the ongoing organ shortage and offer hope to patients awaiting transplants. The future of transplantation appears bright, with advancements promising to revolutionize the field and save countless lives.
TruthLens AI Analysis
The article provides a historical overview of organ transplantation, highlighting the evolution of the practice from its experimental beginnings to its current status as a common medical procedure. It also introduces the concept of xenotransplantation, which involves transplanting animal organs into humans, suggesting a potential solution to organ shortages. The narrative emphasizes key milestones and scientific advancements, aiming to inform the public about both the achievements and challenges in organ transplantation.
Public Perception and Sentiment
The article seeks to foster a sense of hope and curiosity about the future of organ transplantation, particularly through the lens of xenotransplantation. By recounting the historical context, it may aim to alleviate concerns surrounding the ethical implications of using animal organs. The focus on successful transplants and advancements in medical science could enhance public trust in these practices.
Information Omission and Transparency
While the article highlights the successes in organ transplantation and the potential of xenotransplantation, it may downplay the ethical dilemmas and potential risks associated with using animal organs. This includes concerns about zoonotic diseases, ethical treatment of donor animals, and the long-term viability of such transplants. The omission of these challenges could lead to an incomplete understanding of the topic.
Manipulative Aspects
There is a moderate potential for manipulation in the article. While it presents factual information, the emphasis on the positive aspects of xenotransplantation could be interpreted as an attempt to garner public support without addressing the full spectrum of ethical considerations. The language used is generally optimistic, which may influence reader sentiment towards accepting animal organ transplants as a viable solution.
Credibility and Reliability
The article appears to be based on historical facts and reputable sources within the medical community, such as references to Dr. Joseph E. Murray and Dr. Jeffrey Stern. However, the lack of critical perspectives on xenotransplantation could affect its overall reliability, as a balanced view is essential for informed public discourse.
Societal Impact and Future Considerations
This coverage could have implications for healthcare policies, particularly regarding organ donation and transplantation practices. As xenotransplantation becomes more mainstream, it may influence debates around organ donation ethics and animal rights. Additionally, advancements in this area might lead to changes in how the medical community approaches organ shortages, potentially affecting health outcomes.
Target Audience
The article likely appeals to a broad audience, including those interested in medical advancements, ethics in science, and organ donation. It may resonate particularly with individuals affected by organ failure or those involved in healthcare professions.
Economic and Market Implications
News about advancements in organ transplantation, especially xenotransplantation, could impact the biotechnology and pharmaceutical sectors. Companies involved in organ preservation, transplant technology, or xenotransplantation research may see fluctuations in stock prices based on public and investor sentiment surrounding these developments.
Geopolitical Context
While the immediate content of the article does not directly relate to global power dynamics, advancements in medical technology like xenotransplantation could influence international collaborations in healthcare and research. As countries strive to address organ shortages, this area may become a focal point for medical diplomacy.
Use of Artificial Intelligence
There is no explicit indication that AI was used in the writing of the article. However, AI models could have been employed in data analysis or research for the historical aspects presented. If AI was involved, it might have influenced the presentation of facts in a manner that emphasizes positive outcomes while minimizing controversies.
In conclusion, the article presents a largely optimistic view of organ transplantation and xenotransplantation. While it is grounded in historical facts, the potential omission of critical perspectives and ethical considerations suggests a need for cautious interpretation. The overall reliability is moderate, and the article could serve as a catalyst for further discussion on the implications of these advancements.