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14 February, 19:13

Will We Ever Grow Organs? module

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  1. 14 February, 21:33
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    In June 2011, an Eritrean man entered an operating theatre with a cancer-ridden windpipe, but left with a brand new one. People had received windpipe transplants before, but Andemariam Teklesenbet Beyene’s was different. His was the first organ of its kind to be completely grown in a lab using the patient’s own cells.

    Beyene’s windpipe is one of the latest successes in the ongoing quest to grow artificial organs in a lab. The goal is deceptively simple: build bespoke organs for individual patients by sculpting them from living flesh on demand. No-one will have to wait on lengthy transplant lists for donor organs and no-one will have to take powerful and debilitating drugs to prevent their immune systems from rejecting new body parts.

    The practicalities are, as you can imagine, less straightforward. Take the example I have already described. The process began with researchers taking 3D scans of Beyene’s windpipe, and from these scans Alexander Seifalian at University College London built an exact replica from a special polymer and a glass mould. This was flown to Sweden, where surgeon Paolo Macchiarini seeded this scaffold with stem cells taken from Beyene’s bone marrow. These stem cells, which can develop into every type of cell in the body, soaked into the structure and slowly recreated the man’s own tissues. The team at Stockholm’s Karolinska University Hospital incubated the growing windpipe in a bioreactor - a vat designed to mimic the conditions inside the human body.

    Two days later, Macchiarini transplanted the windpipe during a 12-hour operation, and after a month, Beyene was discharged from the hospital, cancer-free. A few months later, the team repeated the trick with another cancer patient, an American man called Christopher Lyles.

    Macchiarini’s success shows how far we have advanced towards the goal of bespoke organs. But even researchers at the cutting edge of this area admit that decades of research lie ahead to overcome all obstacles.

    "A good way to think about it is that there are four levels of complexity," says Anthony Atala from the Wake Forest Institute for Regenerative Medicine, one of the leaders of the field. The first level includes flat organs like skin, which comprise just a few types of cells. Next up are tubes, like windpipes or blood vessels, with slightly more complex shapes and more varied collections of cells. The third level includes hollow sac-like organs, like the bladder or stomach. Unlike the tubes, which just act as pipes for fluid, these organs have to perform on demand - secreting, expanding or filtering as the situation arises.
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