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Prolactin may play a significant role in skin and hair health and could be a target for treating skin and hair disorders.

Regulatory T cells help heal skin and grow hair, and their absence can lead to healing issues and hair loss.

Hair can regrow in adult mice's skin after injury, and this regrowth doesn't come from existing hair cells but from skin cells in the wound, with Wnt7a protein helping this process. This could help treat baldness and scarring.

Inflammation around hair follicles leads to hair loss, and treatments should focus on reducing this inflammation and other factors for effectiveness.

A gene called BMAL1 plays a role in controlling hair growth.

Hair can regrow in adult mice's skin after injury, and this regrowth doesn't come from existing hair cells but from skin cells in the wound, with Wnt7a protein helping this process. This could help treat baldness and scarring.

Hair can regrow in adult mice's skin after injury, and this process can be boosted by increasing Wnt7a, a protein. This could potentially help treat baldness and change our understanding of hair growth.

Understanding hair biology is key to developing better treatments for hair and scalp issues.

Using special stem cells, we can create new hair follicles, potentially making hair restoration easier and more affordable.

Japanese researchers created new hair follicles from human cells that grew hair when put into mice, and other findings showed a link between eye disease severity and corneal thickness, gene mutations affecting hearing and touch, and the safety of the shingles vaccine for adults over 50.

Ficus benghalensis leaf extracts can effectively promote hair growth and inhibit hair loss.

New biofabrication technologies could lead to treatments for hair loss.

EPDS and MS might share an immune-related cause.

Hair follicle cells age faster and lose pigment due to less catalase, causing hair to turn gray.

Adding insulin-like growth factor 1 and bone marrow-derived stem cells to a collagen-chitosan scaffold helps wounds heal faster and regrows hair follicles.

Dermal-epidermal interactions are crucial for hair growth and maintenance.

Platelet-rich plasma can potentially improve hair regeneration by increasing follicular gene expression and hair growth activity.

The document concludes that understanding hair follicle cell cycles is crucial for hair growth and alopecia research, and recommends specific techniques and future research directions.

Low oxygen conditions increase the hair-growing effects of substances from fat-derived stem cells by boosting growth factor release.

Genetically variant peptides are reliable for forensic identification despite age-related changes in hair proteins.

A new method quickly and efficiently isolates hair follicle stem cells from adult mice, promoting hair growth.

Androgens have complex effects on hair growth, promoting it in some areas but causing hair loss in others, and our understanding of this is still evolving.

Activating Nrf2 in skin cells causes skin disease similar to chloracne in mice.

Runx3 helps determine hair shape.

Prostaglandin D2 blocks new hair growth after skin injury through the Gpr44 receptor.

Activating the GDNF-GFRα1-RET signaling pathway could potentially promote skin and limb regeneration in humans and could be used to treat hair loss and promote wound healing.

White blood cells and their traps can slow down the process of new hair growth after a wound.

Different types of stem cells and their environments are key to skin repair and maintenance.

Hair loss in a drug reaction case involved both a common shedding phase and an immune attack on hair follicle stem cells.

Cathepsin L is essential for normal hair growth and development.