There have been a lot of exciting developments in the medical field these last few weeks and self-healing muscles are definitely on the top of that list. Developed by a team of Duke University scientists, the self-healing muscles are entirely grown in the lab and have already been successfully implanted in a series of test mice. Being touted as a miracle surgery, the bioengineered tissue is capable of flexing and contracting with the same amount of strength as a person's natural muscles and even coaxes veins to grow into it.
The reason that they are being described as self-healing muscles is because they are capable of kicking off the healing process. But according to Dvice, "The research team still has to make sure that their creations can vascularize, innervate and function in the same way the tissue they replaced did over the long haul."
Self-Healing Muscles
Duke University Scientists Create Lab-Grown Muscles to Help Injured
Trend Themes
1. Lab-grown Muscles - Opportunity for developing bioengineered tissues that can flex and contract with the same strength as natural muscles.
2. Self-healing Muscles - Potential to create muscles that kickstart the healing process and promote regeneration of damaged tissue.
3. Vascularized Muscles - Possibility of developing lab-grown muscles that can form veins and other blood vessels, enabling better integration into the human body.
Industry Implications
1. Biomedical Engineering - Application of bioengineering principles to develop lab-grown muscles with self-healing and vascularization characteristics.
2. Medical Research - Opportunity for further research and development to improve the functionality and longevity of lab-grown muscles for clinical use.
3. Rehabilitation Services - Potential for incorporating self-healing muscles in rehabilitation programs to enhance muscle regeneration and recovery for injured individuals.