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Different types of stem cells in hair follicles play unique roles in wound healing and hair growth, with some stem cells not originating from existing hair follicles but from non-hair follicle cells. WNT signaling and the Lhx2 factor are key in creating new hair follicles.

New research suggests that skin cell renewal may not require a special type of cell previously thought to be essential.

LGR5 helps maintain corneal cell characteristics and prevents unwanted changes by controlling specific cell signaling pathways.

Plant cell culture is a promising method for creating sustainable and high-quality cosmetic ingredients.

EdnrB signaling helps melanocyte stem cells regenerate and could be targeted to treat pigmentation issues.

Bone marrow and umbilical cord stem cells can help grow new hair.

The conclusion is that future hair loss treatments should target the root causes of hair thinning, not just promote hair growth.

Human hair follicle cells can be successfully transformed into different types of cells, but not more efficiently than other adult cells.

The protein CCN2 controls hair growth by affecting hair follicle formation and stem cell activity in mice.

Understanding how epigenetic regulation affects stem cells is key to cancer insights and new treatments.

Vitamin D and calcium are important for skin stem cell function and wound healing.

Epidermal stem cells have potential for personalized regenerative medicine but need careful handling to avoid cancer.

A Japanese bone marrow transplant patient developed a rare skin cancer possibly linked to long-term use of the medication voriconazole.

Transplanting melanocyte stem cells from hair follicles can effectively treat vitiligo.

MicroRNA-205 helps hair grow by changing the stiffness and contraction of hair follicle cells.

2011 dermatology discussions highlighted stem cell hair treatments, new lichen planopilaris therapies, skin side effects from cancer drugs, emerging allergens, and the link between food allergies and skin issues.

Fat tissue cells are a promising option for healing various diseases, but more research is needed to ensure they are safe and effective.

Using fat-derived stem cells for hair loss treatment is safe and effective, improving hair growth and patient satisfaction.

WNT10A helps esophageal cancer cells spread and keep renewing themselves.

A special stem cell fluid can speed up wound healing and hair growth in mice.

Hair follicle stem cells are a practical and ethical option for nerve repair in regenerative medicine.

Cell therapy shows promise for treating severe psoriasis but needs more research to confirm safety and effectiveness.

Ionizing radiation causes irreversible skin damage, with single doses leading to acute injury and hair graying, and fractional doses causing more severe long-term tissue damage.

TR3 is mainly found in hair follicle stem cells and may be involved in hair loss.

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

Hair follicle stem cells are similar to bone marrow stem cells but are better for fat cell research.

Less differentiated melanoma cells are more vulnerable to a type of cell death, which could improve cancer treatments.

Researchers found that hair follicle stem cells can become squamous cell carcinoma due to Ras activation, which could lead to new treatments.

Elaine Fuchs' research shows how skin stem cells maintain health, aid in healing, and are involved in cancer.

Hair loss in Androgenetic alopecia (AGA) is due to altered cell sensitivity to hormones, not increased hormone levels. Hair growth periods shorten over time, causing hair to become thinner and shorter. This is linked to miscommunication between cell pathways in hair follicles. There's also a change in gene expression related to blood vessels and cell growth in balding hair follicles. The exact molecular causes of AGA are still unclear.