This is both really cool, and really unsettling. I wonder if this research might help in the other direction as well, such as with transplants and grafts
That was my first thought too; would this improve treatment for serious burn victims and such. Sounds like what they’ve made is better overall for sticking to applied surfaces and moving without tearing. Heck, maybe this could even lead to prosthetics that allow physical sensation
This was mentioned in the Discussion part of their paper:
The activity of facial muscles involved in forming expressions such as smiles is closely linked to the development of wrinkles. One significant next step in this research is to leverage this model to enhance our understanding of the mechanisms underlying wrinkle formation. Moreover, applying this knowledge to recreate such expressions on a chip could find applications in the cosmetics industry and the orthopedic surgery industry. Additionally, this study performed actuation on a dermis equivalent by controlling mechanical actuators positioned beneath the dermis equivalent. Substituting this mechanical actuator with cultured muscle tissue presents an intriguing prospect in the realization of a higher degree of biomimetics. Examining the correlation between facial muscle contractions and resulting facial expression can offer insights into the physiological aspects of emotion, leading to new exploration in the treatment of diseases, such as facial paralysis surgery.
This is both really cool, and really unsettling. I wonder if this research might help in the other direction as well, such as with transplants and grafts
That was my first thought too; would this improve treatment for serious burn victims and such. Sounds like what they’ve made is better overall for sticking to applied surfaces and moving without tearing. Heck, maybe this could even lead to prosthetics that allow physical sensation
This was mentioned in the Discussion part of their paper:
Very cool, thank you!