https://www.youtube.com/watch?v=38AC03cf7YM
Liver transplantation has become a victim of its own success with far more recipients registered to waiting lists — roughly 30,000 in the US and Europe — than there are available donor organs . What ’s more , a staggering 2,000 workable livers must be discarded every year because they did n’t outlive the journey from donor to recipient . However , this new organ transporter will keep livers warm , oxygenated , and active during its trip , potentially saving thousands of lives yearly .
Current pipe organ transportation applied science tops out at an Igloo ice chest fill up with deoxyephedrine . The cold temperature is meant to slow the Hammond organ ’s metabolism and prevent it from going into oxygen debt . However , if the liver is already damaged or suffers from high-flown levels of inter - cellular fat , this freeze job can do more injury than good . A team from Oxford University ’s Nuffield Department of Surgical Sciences and Director of the Oxford Transplant Center led by Professor Constantin Coussios and Professor Peter Friend began growth on a fresh arrangement in 1994 . As Professor Peter Friend explain in a mechanical press release :
This newfangled proficiency allows us to assess how well an pipe organ is working before having to decide whether to commit a patient to the operation . So this technology promises to quality - assure reed organ which would otherwise be discarded . This would increase the number of transplantation without increasing the risks . It will make a real difference of opinion to what happen to patients on the wait leaning without requiring any modification in current contribution practices .
The OrganOx , which is currently in trials at King ’s College Hospital , is n’t just a cold liver container — quite the reverse in fact . This machine connects to the artery feed in the liver and continuously circulates blood through the organ ’s capillary tubing which keep the liver at body temperature , aerate , and actively produce gall for up to 24 hr . Your liver will barely notice you ’re die .
“ Despite all the advances in modern practice of medicine , the fundamental of liver transplantation have not deepen in ten , ” Professor Nigel Heaton , Director of Transplant Surgery at King ’s College , say in a military press release . “ This is why the gimmick is so exciting . If we can introduce applied science like this into daily practice , it could be a real , bona fide game changer for organ transplant as we recognise it . ”
The OrganOx has already been successfully hire in a span of transplants at King ’s College Hospital this past February . Wayel Jassem , the operating surgeon who perform these mathematical operation said , “ This technology has the potential to be hugely meaning , and could make more livers uncommitted for graft , and in turn save life . ” sawbones at the infirmary are optimistic that this twist could all but eliminate pipe organ discarding and double the number of available viable conferrer reed organ .
[ Oxford UniversityviaGizmag – Images : Oxford University ]
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