快猫短视频

Yarn grown from human skin cells could be knitted into your body

A yarn-like material made from human skin cells could be used for surgery and complex tissue reconstruction without triggering an immune response
Knitting with human yarn
Knitting with yarn made from human skin cells
Magnan et al., Acta Biomater. (2020) 10.1016/j.actbio.2020.01.037 - Copyright Elsevier (2020)

Yarn grown from human skin cells could be used to make implantable 鈥渉uman textiles鈥 for tissue grafts or organ repair.

鈥淲e can sew pouches, create tubes, valves and perforated membranes,鈥 says Nicholas L鈥橦eureux, who led the work at the French National Institute of Health and Medical Research in Bordeaux. 鈥淲ith the yarn, any textile approach is feasible: knitting, braiding, weaving, even crocheting.鈥

Synthetic materials used for stitches and scaffolds for growing tissue grafts can often trigger an immune response, causing inflammation that can complicate healing. Surgeons can use dissolvable materials to reduce this risk, but these aren鈥檛 great for complex tissue reconstruction if they fail prematurely.

The human yarn avoids that by remaining undetected by the immune system. It builds on by L鈥橦eureux鈥檚 team that used human skin fibroblast cells to produce sheets of material that could be rolled into tubes to make artificial blood vessels.

To spin the yarn, the team cut such sheets into ribbons and twisted them to form threads. These were then intertwined to create yarns of different mechanical strengths that could be dried and spooled until required.

To show its potential, the researchers seeded individual threads with different blood vessel cells and braided them together. They also used the yarn as a stitch to close a wound on a rat that healed after 14 days.

Human yarn
Strands of the yarn can be knotted together
Magnan et al., Acta Biomater. (2020) 10.1016/j.actbio.2020.01.037 - Copyright Elsevier (2020)

Another experiment used a custom-made loom to weave a strong and implantable textile tube. When grafted into a sheep鈥檚 artery, it showed no leaks and kept blood flowing normally. 鈥淲ith a textile approach, once you鈥檙e done assembling, it鈥檚 ready to wear,鈥 says L鈥橦eureux.

鈥淭his intriguing investigation takes an initial step into appropriately scaled, mechanically tough constructs that will quietly integrate into and even become part of the host repair, a combination that has so far eluded bioengineers,鈥 says Jeffrey Ruberti, who investigates collagen-based biomaterials at Northeastern University in Boston, Massachusetts.

Acta Biomaterialia

Sign up to our free Health Check newsletter for a weekly round-up of all the health and fitness news you need to know about

Topics: Surgery