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Feather patterns form through genetic and epigenetic controls, with cells self-organizing into periodic patterns.

Lanceolate complexes in mouse hair follicles are essential for touch and depend on specific cells for maintenance and regeneration.

Chitosan, a natural substance, can be used to create tiny particles that effectively deliver various types of drugs, but more work is needed to improve stability and control of drug release.

New genetic locations explain much of hair color variation in Europeans.

Microneedles are effective for drug delivery, vaccinations, fluid extraction, and treating hair loss, with advancements in manufacturing like 3D printing.

Macroalgae compounds offer sustainable, effective benefits for cosmetics.

Tea, especially green tea, shows promise in cosmetics for skin and hair benefits but more research is needed for effective use.

Human stem cells can help form hair follicles in mice.

Spermidine may help reduce hair loss and deserves further testing as a treatment.

Certain genes in Iranian sheep are linked to wool production and heat adaptation.

The review suggests that other immune cells besides CD8+ T cells may contribute to alopecia areata and that targeting regulatory cell defects could improve treatment.

New therapies are being developed that target integrin pathways to treat various diseases.

New nanocarriers improve drug delivery for disease treatment.

Nanomaterials show promise in improving wound healing but require more research on their potential toxicity.

Microneedle technology has advanced for painless drug delivery and sensitive detection but faces a gap between experimental use and clinical needs.

Diabetes causes lasting cell dysfunctions, leading to serious complications even after blood sugar is controlled.

Stem cells, especially from fat tissue and Wharton's jelly, can potentially regenerate hair follicles and treat hair loss, but more research is needed to perfect the treatment.

RANKL causes lymph nodes to grow by making certain cells multiply.

Hydrogel with M2-derived exosomes improves wound healing by slowly releasing exosomes that help reduce inflammation and promote tissue repair.

SIRT7 protein is crucial for starting hair growth in mice.

Staphylococcus epidermidis A/C strains are more antibiotic-resistant and infection-adapted, while B strains thrive in hair follicles.

Platelet-rich plasma can help grow more mouse hair follicles, but it doesn't work for human hair follicles yet.

The conclusion is that understanding how hair follicle stem cells live or die is important for maintaining healthy tissue and repairing injuries, and could help treat hair loss, but there are still challenges to overcome.

Human skin can provide stem cells for tissue repair and regeneration, but there are challenges in obtaining and growing these cells safely.

Proper skin care and dermocosmetics improve skin issues in diabetes patients.

Studying premature aging syndromes helps understand human aging and suggests potential treatments.

The review suggests that a special cell-derived treatment shows promise for various skin conditions and hair growth but needs more research for confirmation.

Bioengineering can potentially treat hair loss by regenerating hair follicles and cloning hair, but the process is complex and needs more research.

MSCs and their exosomes may speed up skin wound healing but need more research for consistent use.

Hair follicle stem cells help maintain skin health and could improve skin replacement therapies.