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The human amniotic membrane is a promising material for skin treatments and hair growth.

Human dermal stem/progenitor cells can divide and differentiate more than hair follicle dermal papilla cells.

3D bioprinting with special hydrogels can create artificial skin that heals wounds and regrows hair in mice.

Oxidized LDL reduces cell growth but affects stem cell differentiation less negatively than cytokine-induced inflammation.

Mesenchymal stem cell secretome shows promise for skin treatments but needs more human trials.

Rat hair-follicle stem cells can become heart cells with specific supplements.

Targeting the HEDGEHOG-GLI1 pathway could help treat keloids.

Freezing gamma-irradiated amniotic fluid may help hair growth and speed up the growth phase.

Human stem cells were turned into cells similar to those that help grow hair and showed potential for hair follicle formation.

Wnt7a helps corneal cells grow and stick together, aiding in repair.

Fat grafting before FUE hair transplantation effectively treats scalp scars.

Enhanced stem cells from the placenta can reduce fat cell formation in eye disease.

Testosterone affects androgen receptors and lipid storage in cells, while DHEA does not convert to testosterone or affect these receptors in the same way.

The created skin model with melanoblasts improves the study of skin color and offers an alternative to animal testing.

Non-white organ transplant patients have worse skin cancer outcomes due to later diagnosis and treatment.

Centrosomes are essential for healthy skin and hair growth, and their role is different from that of cilia.

A woman with dermatomyositis improved after treatment for neck panniculitis, suggesting similar treatment for related conditions.

Polyunsaturated fatty acids, like arachidonic acid and eicosapentaenoic acid, can promote hair growth and may help treat hair loss.

The conclusion is that using light-sheet fluorescence microscopy with a special solution can effectively create detailed 3D images of human skin for dermatological research.

New treatments for hair loss show promise, including plasma, stem cells, and hair-stimulating complexes, but more research is needed to fully understand them.

The nucleus is key in controlling skin growth and repair by coordinating signals, gene regulators, and epigenetic changes.

The Siah1 and Siah2 genes are active in mouse skin development and hair growth, especially right after birth.

The study found that sweat glands normally suppress immune responses, but this is disrupted in certain skin diseases, possibly contributing to their development.

Researchers created human cells that can turn into sebocytes, which may help study and treat skin conditions like acne.

Certain miRNAs might be involved in a hair loss condition called frontal fibrosing alopecia and could possibly help in its diagnosis.

Skin and hair renewal is maintained by both fast and slow cycling stem cells, with hair regrowth primarily driven by specific stem cells in the hair follicle bulge. These cells can also help heal wounds and potentially treat hair loss.

PCOS may be influenced by factors in the blood, not just the ovaries.

Dormant melanoma cells in mice interact minimally with memory T cells due to a suppressive tumor environment.

Cells from skin and lung can help regenerate hair follicles.

The regenerative medicine industry saw business growth with new partnerships, clinical trials, and financial investments.