Nature Microbiology

HIV-positive Organ Transplants are Approved

Johns Hopkins received approval to start organ transplants between HIV positive patients.

Go to the profile of Michael Chao
Feb 10, 2016
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While not yet fully curable, HIV antiretroviral treatment has reached the point where many patients are virally suppressed for decades. That means that while AIDS associated opportunistic diseases have decreased, chronic diseases that afflict the general population are now common in long-term patients. This can include liver and cardiovascular disease and cancers (some of which are more common in HIV patients even with drug therapy).

But for severe cases requiring organ transplants, HIV patients have extra complications: they tend to have higher mortality rates on transplant waitlists and more importantly until 2013 (when the HOPE act was passed), the US barred doctors from performing transplantation of any HIV-positive organs, even to other HIV positive patients.

Since the passage of the law, no such transplants had yet been performed, much less scheduled. This all changed yesterday, when Johns Hopkins Hospital received the go ahead to be the first to transplant HIV positive organs (a kidney and liver) to other HIV positive patients, a development that could save hundreds to thousands of lives per year.

Aside from the obvious clinical benefit, I think this will also open up opportunities in the research arena to study important translational questions such as how do patient-adapted HIV strains respond (even on treatment) to new hosts with different immunological backgrounds or what are the clinical considerations for transplantation of organs infected with HIV carrying different antiretroviral resistance mutations.

Go to the profile of Michael Chao

Michael Chao

Senior Editor, Nature Microbiology

I first developed an interest in bacterial pathogenesis while at Cornell University. I then earned my PhD in Biomedical and Biological Sciences from Harvard University in Eric Rubin’s laboratory, studying cell wall remodelling in Mycobacterium tuberculosis. From 2012-2015, I continued my training as a postdoctoral fellow in Matthew Waldor’s lab at Harvard Medical School, investigating the role of DNA methylation on regulating fundamental cellular processes in Vibrio cholerae.

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