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Facial plastic surgery has evolved to focus on less invasive techniques and innovative technologies for cosmetic and reconstructive procedures.

The combined treatment with engineered bacteria and yellow LED light improved wound healing in mice.

Targeting dermal adipocytes may help combat skin aging.

Scaffold-based strategies show promise for regenerating hair follicles and teeth but need more research for clinical use.

Feather follicles form through specific cellular flows and mechanical changes in the skin.

Adipose tissue-derived therapies show promise for improving osteoarthritis symptoms but need more research for safety and effectiveness.

Understanding tissue self-organization can improve treatments for diseases and advance regenerative medicine.

The HATMSC1 cell line from fat tissue can produce helpful factors for regenerative and immune therapies.

Tissue stem cells originate from specific areas in organs and are vital for organ maintenance and repair.

Enzymatic digestion is an efficient method for isolating cells from hair follicles for tissue-engineered skin.

Using protein degradation to fight cancer drug resistance shows promise but needs more precise targeting and fewer side effects.

A detailed 3D model of human skin was created to help develop artificial skin.

Combining stem cells and targeted treatments can improve muscle and skin healing after cleft repair.

3D cultures can create active macrophages from fat tissue.

Bioengineered microneedles and nanomedicine offer promising, precise treatments for tissue regeneration.

The review concludes that innovations in regenerative medicine, tissue engineering, and developmental biology are essential for effective tissue repair and organ transplants.

Tissue engineering in cosmetics offers safer, more effective products and ethical alternatives to animal testing.

The new microwell device helps grow more hair stem cells that can regenerate hair.

Human platelet-rich plasma is better than fetal bovine serum for growing cells that help hair regrow.

Biopolymeric composites need advanced properties for better use in medicine and healing.

The best method for urethral reconstruction is using hypoxia-preconditioned stem cells with autologous cells on a vascularized synthetic scaffold.

A new 3D-printed hydrogel scaffold helps regenerate corneas and prevent scarring.

Older mice have stiffer skin with less elasticity due to changes in collagen and skin structure, affecting aging and hair loss.

Functionalized bacterial cellulose can improve medical tissue engineering.

The same hormone can affect gene expression differently in various tissues, which could lead to new treatments for conditions like hair loss.

Nelfb is crucial for forming skin fat tissue by regulating genes needed for fat cell development.

Engineered extracellular vesicles can improve tissue repair and regeneration.

Chitosan hydrogels are promising for repairing blood vessels but need improvements in strength and compatibility.

γδ T cells help control tissue scarring and blood vessel growth in response to foreign objects.

Bazhengsan reduces inflammation and tissue growth in chronic prostatitis.