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Bio-fortification through plant breeding can improve the nutritional value of staple crops by adding essential minerals.

Alginate is great for tissue engineering because it's safe, easy to use, and helps heal tissues.

Asia has made significant progress in tissue engineering and regenerative medicine, but wider clinical use requires more development.

Sponge helps heal wounds faster with less inflammation and better skin/hair growth.

Electrospun nanofibers show promise for enhancing blood vessel growth in tissue engineering but need further research to improve their effectiveness.

Fetal cells could improve skin repair with minimal scarring and are a potential ready-to-use solution for tissue engineering.

Fully regenerating human hair follicles not yet achieved.

Herbal silver nanoparticles from Blumea lacera showed strong antibacterial and anti-inflammatory effects.

New methods for growing skin cells can improve skin grafts by building blood vessels within them.

Bio-based materials like hydrogels show promise in treating skin cancer with fewer side effects, but more research is needed.

Improving artificial vascular grafts requires better materials and surface designs to reduce blood clotting and support blood vessel cell growth.

Hydrogels could lead to better treatments for wound healing without scars.

Further research is needed to improve hair regeneration using stem cells and nanomaterials.

New scaffold materials help heal severe skin wounds and improve skin regeneration.

Stem cell treatments may improve burn wound healing.

Polyesters show promise for repairing damaged blood vessels.

Adding human fat-derived stem cells to hair follicle grafts greatly increases hair growth.

Biomaterials combined with stem cells show promise for improving tissue repair and medical treatments.

Metal organic frameworks-based scaffolds show promise for tissue repair due to their unique properties.

Photothermal hydrogels are promising for infection control and tissue repair, and combining them with other treatments could improve results and lower costs.

PDRN, derived from salmon sperm, shows promise in healing wounds, reducing inflammation, and regenerating tissues, but more research is needed to understand its mechanisms and improve its use.

Biomaterial characteristics can influence macrophages to promote healing and improve tissue regeneration.

Injectable cryogels can deliver drugs and aid tissue repair with minimal surgery.

AI and robotics are improving treatment and monitoring of neurodegenerative disorders like Parkinson's.

A new sustainable polyester is tough, recyclable, biodegradable, and aids wound healing, supporting a circular economy.

Bio-based electrospun fibers improve wound healing but face production and regulatory challenges.

The article concludes that the wool follicle is a valuable model for studying tissue interactions and has potential for genetic improvements in wool production.

Bio-nanovesicles could improve hair and skin regeneration by delivering important molecules to repair and heal.

Keratose, derived from human hair, is a non-toxic biomaterial good for tissue regeneration and integrates well with body tissues.

The hydrogels are strong, self-healing, and good for 3D printing and delivering treatments.