Tag Archives: transplant

Miraculous Recovery: Man Saved by Fecal Transplant After Intestine Produces Alcohol

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A corrective approach to alter a man’s microbiome prevented excessive alcohol production in his body.

Science Photo Library / Alamy

A Massachusetts man experienced severe inebriation due to his intestines autonomously producing alcohol, a condition known as autobrewer syndrome. His recovery began after ingesting fecal bacteria from a healthy donor.

This retired U.S. Marine, in his 60s, faced unusual symptoms following multiple antibiotic treatments for prostate inflammation. Until then, he maintained good health and only occasionally drank alcohol. His sudden, overwhelming intoxication left him disoriented and lethargic.

He sought help at emergency rooms repeatedly, but medical staff were skeptical about his claims of not drinking. Eventually, a diagnosis of autobrewer syndrome—a rare condition where gut microbes produce excessive alcohol—was confirmed.

His severe inebriation hindered routine activities, and he even required breathalyzer locks on his vehicles to avoid legal issues.

After connecting with a patient support group, he discovered fecal transplants could potentially treat his condition. This led him to contact Dr. Elizabeth Homan from Massachusetts General Hospital.

Initially, Dr. Homan dismissed his voicemail messages, as he sounded intoxicated. Eventually, the man’s wife reached out, explaining the situation, which prompted a collaboration with Dr. Bernd Schnabl, an expert on autobrewer syndrome. Together, they planned a fecal transplant for him.

Prior to the procedure, Homan, Schnabl, and their team conducted a comprehensive study on the causes of autobrewer syndrome. They analyzed stool samples from 22 patients with the condition and 21 healthy relatives, looking for variations in gut bacteria. “Our lab had a distinct smell,” Schnabl recollects.

The research revealed that fecal samples from patients produced significant alcohol when cultured, likely due to high levels of specific intestinal bacteria such as Escherichia coli and Klebsiella pneumoniae, which ferment sugars to create alcohol. Previous cases had primarily linked the syndrome to excessive yeast growth.

To treat the Massachusetts man, Homan administered oral capsules derived from a healthy male donor’s fecal matter, known for having an optimal gut microbiome. “This donor has been carefully selected and is a personal trainer who prioritizes fitness,” she explains. When the capsules were analyzed, researchers noted exceptional gut microbiota within them.

Gradually, the man’s autobrewer syndrome resolved as the harmful alcohol-producing bacteria in his gut were replaced with healthier strains from the donor. “One of the highlights of this case was meeting his daughter, a medical school graduate, who expressed gratitude for bringing her ‘old dad back,'” Homan shared.

Schnabl mentions that most individuals likely produce minimal alcohol in their intestines due to the presence of Escherichia coli and Klebsiella pneumoniae. However, significantly elevated levels lead to inebriating alcohol production, often triggered by long-term antibiotic use that disrupts the microbiome, which was the case for this patient.

Currently, Homan and Schnabl are conducting a large-scale trial to assess the effectiveness of oral fecal transplants for other patients with autobrewer syndrome.

Topics:

  • Gut Health /
  • Intestinal Microbiota

Source: www.newscientist.com

Man Surprises Doctors with HIV Cure Following Stem Cell Transplant

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Human Cells Infected with HIV

Steve Gschmeisner/Science Photo Library

A man has become the seventh individual to rid himself of HIV after receiving a stem cell transplant for blood cancer. Notably, he was the second case among seven to receive stem cells that weren’t resistant to the virus, reinforcing the idea that resistant cells may not be essential for HIV treatment.

“Understanding that treatment can occur without this resistance offers us additional avenues for combating HIV,” remarks Christian Gabler at the Free University of Berlin.

So far, five individuals have been cleared of HIV following transplants from donors possessing mutations in both copies of a gene responsible for CCR5, a protein that HIV targets to infect immune cells. Scientists have drawn conclusions that having two copies of a mutation that eradicates CCR5 from immune cells is crucial for eliminating HIV. “It was previously thought that the use of HIV-resistant stem cells was key,” states Gabler.

However, last year, a sixth instance emerged, known as the Geneva patient, who was declared free of the virus. His infection persisted for over two years after receiving stem cells that lacked the CCR5 mutation, indicating that CCR5 might not be the complete narrative, though many scientists suggest that two years without viral infection may not suffice to confirm an actual cure, Gabler notes.

The recent cases bolster the hypothesis that the Geneva patient has indeed been cured. The research includes a male who received stem cells in October 2015 to address leukemia, a blood cancer characterized by uncontrolled growth of immune cells. At the time, the patient was 51 years old and was infected with HIV. During the treatment, he underwent chemotherapy to eliminate a majority of his immune cells, allowing the donor’s stem cells to generate a healthier immune system.

Ideally, the man would have received HIV-resistant stem cells; however, these were unavailable, leading doctors to use cells with one typical and one mutated copy of the CCR5 gene. During this time, the patient was undergoing conventional HIV care known as antiretroviral therapy (ART), a regimen of medications that suppress the virus to undetectable levels, preventing transmission and reducing the likelihood of donor cells becoming infected.

Approximately three years post-transplant, he opted to discontinue ART. “He felt that he had waited long enough after the stem cell transplant and believed his cancer was in remission, so he anticipated a positive outcome from the transplant,” Gabler explained.

Shortly thereafter, tests revealed no traces of the virus in the man’s blood samples. Since then, he has remained free of the virus for seven years and three months, qualifying him as “cured.” He holds the record for the second-longest duration HIV-free amongst the seven declared cases, achieving this status longer than some by around a dozen years. “It’s astonishing that a decade ago he was very likely facing death from cancer, and now he has conquered a terminal diagnosis of a lingering viral infection without any medication. He is in good health,” Gabler remarked.

This discovery challenges our perceptions of what it entails to treat HIV through this method. “We once believed that transplantation required a donor without CCR5, but now it seems that’s not the case,” points out Ravindra Gupta from the University of Cambridge, who was not part of the study.

It’s generally assumed that the success of such treatments hinges on the inability of the virus to hide within remaining immune cells of the recipient after chemotherapy, thus preventing infection or replication in the donor’s cells. “Essentially, you deplete the pool of host cells that the virus can infect,” argues Gabler.

Nevertheless, Gabler speculates that the latest cases imply a potential cure can be achieved as long as non-resistant donor cells can eliminate the recipient’s remaining original immune cells before the virus has a chance to spread. Such immune responses often arise from variations in the proteins that the two cell sets display. These, he notes, enable donor cells to recognize the remaining recipient cells as a threat that must be eradicated.

The findings indicate a wider array of stem cell transplants might offer the possibility of curing HIV than previously believed, including those that do not exhibit two copies of the CCR5 mutation, according to Gabler.

However, for this to be effective, several factors must align, such as the genetic compatibility between the recipient and donor to ensure the donor’s cells can swiftly eradicate the recipient’s cells. Additionally, in the most recent case, the man possessed one copy of the CCR5 mutation, which may have modified his immune cell dynamics throughout his body, aiding in the eradication of the virus, Gabler noted.

This suggests that most individuals undergoing stem cell transplants for HIV or blood cancers should ideally receive HIV-resistant stem cells, as emphasized by Gabler.

It’s crucial to recognize that individuals with HIV who do not have cancer will not gain from stem cell transplants, as these procedures are highly risky and prone to life-threatening infections, Gabler warns. Most experts agree that adhering to ART (typically taken in pill form daily) is substantially safer and more practical for halting HIV’s spread. This approach allows many to lead longer, healthier lives. Moreover, a newly available medication, lenacapavir, offers nearly complete protection against HIV with just two injections annually.

Despite this, research continues on treating HIV through gene editing of immune cells and exploring preventive vaccines.

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Source: www.newscientist.com

Oldest living recipient of pig organ transplant in Alabama is a woman

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An Alabama woman achieved a significant milestone on Saturday by becoming the longest surviving recipient of a pig organ transplant. After receiving a new kidney, she has been healthy and full of energy for 61 days.

Twana Rooney, who jokingly referred to herself as a “superwoman,” shared with The Associated Press her excitement about her recovery as she took a long walk through New York City. She expressed that the transplant has given her a fresh perspective on life.

Rooney’s remarkable progress following the transplant has provided hope in the advancement of animal-to-human organ transplants. While only four other individuals in the United States have received experimental pig organ transplants (including two hearts and two kidneys), none of them survived for over two months.

Dr. Robert Montgomery of Langone Health, who led Rooney’s transplant, expressed that her kidney function is now “absolutely normal.” The medical team is optimistic about her continued progress, enabling her to eventually return to her home in Gadsden, Alabama.

There is ongoing research involving genetically modified pigs to create more human-like organs to address the critical shortage of transplantable human organs in the US. With over 100,000 people on the US transplant waiting list, most in need of a kidney, and thousands dying while waiting, pig organ transplants have been implemented as acts of compassion.

Hospitals conducting these transplants are collaborating to share insights on the outcomes, paving the way for an upcoming formal study. United Therapeutics, the provider of Rooney’s kidney, has recently sought FDA approval to commence a trial.

Rooney’s experience of donating a kidney to her mother in 1999, subsequent pregnancy complications, and eight years on dialysis led her to explore pig organ transplants. Her journey has been closely monitored by medical professionals, demonstrating the possibility of successful long-term pig organ functionality in humans.

As an advocate and source of support for those navigating the transplant process, Rooney aims to inspire and educate others through her unique story. While the longevity of her new kidney remains uncertain, her resilience and determination offer hope for the future of organ transplantation.

Source: www.nbcnews.com

First-ever pig kidney transplant performed on a living human

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The kidney transplant surgery is the first of its kind in a living person.

Michelle Rose/Massachusetts General Hospital

Surgeons successfully transplanted a pig kidney into a 62-year-old man with end-stage renal disease. Recipient Richard Suleiman is recovering well and is expected to be discharged from the hospital soon, just a few days after surgery.

Is this your first pig kidney transplant?

This is the first time a pig kidney has been transplanted into a living human, marking a major milestone in the field of xenotransplantation, or transplanting animal organs into humans.

“This successful transplant is the culmination of decades of hard work by thousands of scientists and doctors.” Tatsuo Kawai At Massachusetts General Hospital statement. “Our hope is that this transplant approach will provide a lifeline to the millions of patients around the world suffering from kidney failure.”

However, strictly speaking, this is not the first time a kidney has been transplanted from a pig to a human. This surgery has been performed five times in the past, each time on a person declared brain dead and placed on life support. The most recent of these was conducted by Robert Montgomery and colleagues at New York University Langone Health in July 2023. The kidney continued to function for over a month with no signs of rejection or infection.

When was the surgery performed?

Kawai and his colleagues performed the surgery on March 16th. reported that the procedure lasted four hours, and shortly thereafter the kidneys began producing urine and the waste product creatinine. new york times. Suleiman was also able to stop dialysis, which is a further indication that his kidneys are functioning properly.

Where do pig kidneys come from?

The organs were donated by the pharmaceutical company EGenesis. The company breeds pigs that are genetically engineered to carry certain human genes and lack a specific set of pig genes that are harmful to humans. These genetic modifications reduce the chance of transplant rejection, where the immune system attacks the organ and causes it to malfunction. Suleiman is also being given a cocktail of immunosuppressants to further reduce this risk. So far, there are no signs of rejection and Suleiman is able to walk on his own. His doctors hope he will be discharged soon.

What do we know about the recipient?

Suleiman has type 2 diabetes, high blood pressure, and kidney disease. He had previously received a human kidney from a donor in December 2018. However, the organ showed signs of malfunctioning after about five years. He started dialysis in May last year, but complications arose, and he needed to go to the hospital every two weeks. This seriously affected his quality of life while awaiting his second transplant.

is more than 100,000 people in the US They are waiting for organ transplants, and 17 of them die every day. The U.S. Food and Drug Administration approved the experimental transplant for Suleiman due to a lack of other treatment options.

“I saw it as a way not only to help me but also to give hope to the thousands of people who need transplants to survive,” Suleiman said in a statement.

Have xenotransplant surgeries involving other organs been performed?

Only two other people received xenotransplants, and both received genetically modified pig hearts. The first, a man named David Bennett, died two months later from complications believed to be caused by a swine virus called porcine cytomegalovirus. So scientists genetically inactivated a virus similar to the pig virus from which Suleiman's kidneys came.

The second recipient, a man named Lawrence Fawcett, died six weeks later from transplant rejection.

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Source: www.newscientist.com