Silicone breast implants could soon be unnecessary, claim researchers in Australia. They say their work will make it possible for women to grow their own.
Tissue engineer Kevin Cronin of the Bernard O鈥橞rien Institute of Microsurgery in Melbourne told delegates at a recent meeting of the Royal Australasian College of Surgeons that he has successfully grown breast and fat tissue in rats, mice and rabbits. If the technique works in people, it could be used for cosmetic surgery or breast reconstruction after mastectomy.
Rather than growing the patient鈥檚 tissue in the lab and then transplanting it back into the body, as has been done in animal studies in the past, Cronin grows the tissue on site.
Advertisement
A 鈥渃hamber鈥 containing a scaffold is implanted into the area where new tissue is needed. Cells from surrounding tissue then migrate into the chamber and form a three-dimensional blob of tissue, in what Cronin calls a 鈥渨ound-healing鈥 response. Over time, the scaffold disintegrates.
The key to the technique鈥檚 success, says Cronin, is a 鈥渧ascular loop鈥 in the chamber that generates new blood vessels to supply the growing tissue. But he won鈥檛 reveal details about how it works or what it is made of until a patent has been granted.
Cronin has already grown fat and breast tissues in female mice by implanting the chamber into their groin fat pad. This area is on the animals鈥 鈥渕ilk line鈥, where the cells are pre-programmed to form breast and fat tissue.
Growing human breasts would involve a similar technique. Immune rejection wouldn鈥檛 be a problem, but Cronin鈥檚 mice did occasionally develop infections around the implanted chambers.
Dai Davis, a plastic surgeon from Stanford Hospital in London, says supplying blood to the new tissue will be difficult. 鈥淲e can move fat around [during breast enlargements], but we can鈥檛 always vascularise it鈥 it calcifies or just disappears altogether,鈥 he says.
He also points out that there could be cancer risks. 鈥淚f you are using cells from a woman who has had breast cancer, how do you know that the new tissue is not also going to turn into a cancer?鈥
Tissue engineer Julia Polak from Imperial College School of Medicine in London agrees. 鈥淚n the case of someone who has already had breast cancer, it would be difficult to ensure that the cells used to regenerate the breast tissue did not also contain the cancer-causing genetic machinery,鈥 she warns.
But she says the technique does have potential. 鈥淚t is certainly exciting. It is the way tissue engineering should be going 鈥 getting the body to regenerate itself rather than trying to grow complex body parts in a 鈥榯est tube鈥.鈥
Cronin predicts that financial backing to develop his new technology will centre on cosmetic surgery applications.
鈥淭here is an obvious spin-off into breast augmentation and facial aesthetic surgery,鈥 he says.
But he does admit the end result could be hard to control. 鈥淲e were just so happy at getting the desired tissue to grow at all that we haven鈥檛 even got around to working out how to control issues such as size and shape,鈥 he says.