Study offers insights on how to decrease the discard rate of donated organs

news
06 October 2017

A new study indicates that many donated organs that are discarded might be suitable for transplantation if certain steps are taken to limit damage following donation. The findings appear in an upcoming issue of the Journal of the American Society of Nephrology (JASN).

In most cases in the United States, transplant organs come from donors following brain death, in which all the functions of the brain have stopped. Donation after circulatory death (DCD)--in which circulation, heartbeat, and breathing have stopped - has become increasingly more common, however, accounting for 17.7 per cent of deceased donor kidney transplants in 2015 compared with only 7.3 per cent in 2005.

A DCD organ must be chilled after its blood supply has been cut off and then later warmed when its blood supply is restored. The process of restoring blood flow following this period of "cold ischemia" can lead to tissue damage.

To examine the contemporary use and outcomes of DCD kidneys for transplantation in the United States, John Gill, MD, MS (University of British Columbia and Vancouver's Providence Health Care) and his colleagues examined national data obtained between 2008 and 2015.

The number of DCD kidneys recovered by the country's 58 donor service areas varied substantially (from 0 to 1072), and 25 per cent of DCD kidneys were recovered in only 4 donor service areas. Overall, 20 per cent of recovered DCD kidneys were discarded, varying from 3 per cent to 33 per cent among donor service areas.

DCD kidneys exhibited excellent organ survival, with a 5-year survival rate of 75%. Certain DCD kidneys were at higher risk of failing when compared with kidneys from brain dead donors, but only when the cold ischemia time was >12 hours.

"We found that use of DCD kidneys is variable throughout the United States, that the outcomes are generally excellent, and that the use of these organs could probably be safely increased if cold ischemia times are limited," said Dr. Gill.





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