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Wnt signaling is crucial for pigmented hair regeneration by controlling stem cell activation and differentiation.

Aging mice have slower hair regeneration due to changes in signal balance, but the environment, not stem cell loss, controls this, suggesting treatments could focus on environmental factors.

Laser therapy and hair growth factors significantly improve hair density in male baldness.

Mice with too much sPLA₂-IIA have hair loss and poor wound healing due to abnormal hair growth and stem cell depletion.

Hdac1 and Hdac2 help maintain and protect the cells that control hair growth.

Blocking a specific immune cell signal can trigger hair growth.

The research found that a specific skin cell type not only triggers hair growth but also controls hair color, and that aging can lead to hair loss and color changes.

Hair follicle biology advancements may lead to better hair growth disorder treatments.

PRP and HF-MSCs treatment improves hair growth, thickness, and density in androgenetic alopecia.

The hair follicle is a great model for research to improve hair growth treatments.

Further research is needed to improve hair regeneration using stem cells and nanomaterials.

Cultured dermal papilla cells can regenerate hair follicles and sustain hair growth.

Fisetin, a type of polyphenol, may help hair grow by increasing certain protein activities in cells.

A substance from a specific gel helped to grow hair effectively in mice, suggesting it could potentially be used to treat hair loss in humans.

Finasteride and baicalin in phospholipid vesicles effectively promote hair growth and increase follicle count.

The study concluded that hair growth in mice is regulated by a stable interaction between skin cell types, and disrupting this can cause hair loss.

A person with a specific gene mutation had extra teeth, unique jaw and hair features not seen before in this condition.

A hormone linked to collagen helps hair grow back in mice after chemotherapy, and may also prevent bone loss.

The research provides a gene-based framework for hair biology, highlighting the Hippo pathway's importance and suggesting links between hair disorders, cancer pathways, and the immune system.

Certain small molecules can help regrow hair by turning on the body's cell cleanup process.

The document provides a method to classify human hair growth stages using a model with human scalp on mice, aiming to standardize hair research.

Certain cells from hair follicles can create new hair and contribute to hair growth when implanted in mice.

Blocking Wnt/β-catenin signaling with EGF receptor is necessary for proper hair growth.

miR-195-5p reduces hair growth ability in cells by blocking a specific growth signal.

XIST RNA helps regenerate hair follicles by targeting miR-424 and activating hedgehog signaling.

Chilled ATPv-supplemented saline best preserves hair grafts' key genes.

Hair health depends on various factors and hair loss can significantly affect a person's well-being; understanding hair biology is key for creating effective hair care treatments.

Blocking the FGF5 gene in sheep leads to more fine wool and active hair follicles due to changes in certain cell signaling pathways.

Storing hair follicle micrografts for longer times can cause them to enter a state similar to the natural hair shedding phase, which might impact hair transplant results.

β-catenin is essential for stem cell activation and proliferation in hair follicles.