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Mutant mice help researchers understand hair growth and related genetic factors.

The document concludes that while lab results for hair growth promotion are promising, human trials are needed and better testing methods should be developed.

The book explains how to grow and repair organs using new lab techniques.

Mathematical modeling can improve regenerative medicine by predicting biological processes and optimizing therapy development.

Skin organoids are a promising new model for studying human skin development and testing treatments.

Botanicals like green tea extract show potential for hair growth, but more research is needed.

Older mice healed wounds better but lost more weight and might have weaker immune systems afterward.

The conclusion is that small hair follicles cause baldness in macaques, and treatments like antiandrogens and minoxidil can prevent hair loss and promote regrowth.

Animal models have helped understand hair loss from alopecia areata and find new treatments.

The best animal model for studying male-pattern baldness is the stumptailed macaque, not rats or mice.

miR-29 is a key factor that accelerates aging.

Testosterone causes hair loss in AGA mice, which are good for testing baldness treatments, and both minoxidil and cyproterone acetate can prevent this hair loss.

Mice are useful for researching human hair loss and testing treatments, despite some differences between species.

Erbium glass laser treatment may help with skin remodeling, reduce inflammation, and improve skin cell maturation.

The mouse models are effective for testing new hair loss treatments.

Dicer is crucial for hair growth in mice.

Minoxidil treatment improves heart defects in a DiGeorge syndrome model.

Activating TLR9 helps heal large wounds and regrow hair by involving a specific type of immune cell.

Merkel cells stabilize nerve endings in the skin, and they change independently of each other.

The Multi-Organ-Chip improves the growth and quality of skin and hair in the lab, potentially replacing animal testing.

Both mouse and rat models are effective for testing alopecia areata treatments.

Animal models are crucial for learning about hair loss and finding treatments.

Animal models, especially mice, are essential for advancing hair loss research and treatment.

A protein called EGFR protects hair follicle stem cells, and when it's disrupted, hair follicles can be damaged, but blocking certain pathways can restore hair growth.

Telocytes, cells with long extensions, are vital for hair growth because they produce Wnt signals, which are necessary for hair follicle regeneration.

Using deep learning to predict gene expression from images could help assess colorectal cancer metastasis.

The research provided new insights into the genetic factors contributing to hair loss and skin conditions by analyzing individual cells from the human scalp.

Skin lesions in Carney complex are likely caused by a specific group of skin cells that promote pigment production due to a genetic mutation.

The gp130 receptor helps in tissue regeneration and disease progression, and manipulating it could improve healing and prevent disease.

Neutrophil extracellular traps slow down hair follicle healing after injury.