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DMSO and microfinger devices show promise for preserving hair grafts for hair loss treatments.

New bio-ink can print complex tissues and organs.

Engineered skin using stem cells and collagen sponge effectively healed and regenerated complex skin features in mice.

Hair follicle stem cells helped heal a severe scalp burn without needing traditional skin grafts.

New methods for skin and nerve regeneration can improve healing and feeling after burns.

Hair follicles help guide nerve growth, improving touch recovery in skin grafts.

Tissue-engineered skin can support hair growth after grafting, especially with mouse-derived dermis.

The new 3D bioprinting method successfully regenerated hair follicles and shows promise for treating hair loss.

Using a perfusion system and 3D spheroid culture improves the growth of corneal cell layers for tissue engineering.

Adult skin cell-based early-stage skin substitutes improve wound healing and hair growth in mice.

Tissue-engineered scaffolds help heal difficult wounds by supporting cell growth and repair.

Epidermal stem cells improve skin graft survival by promoting early blood vessel formation.

Neurons from hair follicles can help repair damaged nerves.

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

Stem cell-derived fibroblasts can effectively repair skin wounds.

The new bioreactor improves skin grafts by evenly stretching cells and monitoring conditions for better growth.

The new hydrogel with curcumin speeds up wound healing safely and effectively.

Tissue-engineered skin substitutes can model junctional epidermolysis bullosa and may help develop gene therapy.

EX104 shows promise in treating hair loss by promoting hair growth and improving scalp health.

EX104 effectively promotes hair growth and regenerates follicles in androgenetic alopecia.

3D-printed scaffolds help regenerate hair follicles in lab-grown skin.

Human hair follicle stem cells can grow and turn into skin cells on chitosan templates, which may help in regenerative medicine.

Inserting hair follicle units improved the development of tissue-engineered skin.

Using dermal papillae cells and keratinocytes in skin substitutes speeds up healing and helps form hair follicles and glands.

Fractional infrared technology is effective and safe for treating cervical laxity.

The treatment successfully integrated hair follicles into a dermal template, showing new hair growth and blood vessel formation.

The model effectively studies how sensory nerves interact with skin components, aiding research on wound healing and hair growth.

Corrections were made to a previous work on 3D printing a gel-alginate mix for creating hair follicles, but the main finding - that this method can help grow hair - remains the same.

Tissue-engineered grafts can help regenerate hair follicles.

Biomedical engineers are crucial for developing better treatments for chronic and autoimmune diseases.