Researchers Develop Handheld 3D Printer To Repair Skeletal Muscle Injuries

computer generated image shows how the 3d bioprinter can place tissue in the defect site of the muscle. A hand is seen holding the bioprinter right over the muscle that requires regrowth

A group of biomedical engineers, led by associate professor Dr. Ali Tamayol from the University of Connecticut, has developed a handheld 3D bioprinter that can be potentially used to help repair and regrow lost tissue in muscles.

This compact handheld 3d printer allows surgeons to directly place tissue material on damaged skeletal muscles. The tissue material used with this 3D printer resembles the native tissue. The group behind this invention sees potential in it in helping treat Volumetric Muscle Loss. VML is the loss of skeletal muscle because of trauma, resulting in function loss.

Currently, VML requires reconstructive surgery that involves images of the defect site, generating 3D models and then 3D printing the tissue material, which has proven to be time consuming and challenging. This handheld 3D printer overcomes those challenges by directly printing tissue material even on non flat surfaces, as seen in the image above.

a closeup of the 3d bioprinter seen in someone's handClose up of 3D bioprinter

This bioprinter is currently being tested. However, Dr. Tamayol and another co-author have filed for a patent, indicating promising future for this concept. Read the source link to get details on this bioprinter, its mechanism, material used in it, etc.

Source: 3D Printing Industry

** This post was originally published on https://assistivetechnologyblog.com/2020/04/researchers-develop-handheld-3d-printer-to-repair-skeletal-muscle-injuries.html

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