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Hair follicle shape determines hair type: curly, straight, or in-between.

The study found that certain three-dimensional scaffolds can help regenerate hair effectively.

Measuring bald patch size can help grade hair loss severity, with photograph-based evaluation being more reliable.

A new antiandrogen compound was made and its detailed three-dimensional shape was described.

Sox2-positive dermal papilla cells have unique characteristics and contribute more to skin and hair follicle formation than Sox2-negative cells.

The guide explains how to study human and mouse sebaceous glands using various staining and imaging techniques, and emphasizes the need for standardized assessment methods.

Platelet-rich plasma can help grow more mouse hair follicles, but it doesn't work for human hair follicles yet.

Dermal papilla cells are crucial for hair growth and can induce new hair follicles.

Adipose-derived stem cells show promise in treating skin conditions like vitiligo, alopecia, and nonhealing wounds.

New culture method keeps human skin stem cells more stem-like.

Hair follicle culture helps study cell interactions and effects of substances on tissue growth.

A mix of specific inhibitors and a growth factor helps keep hair growth cells from losing their properties in the lab.

Scientists have developed a new method using stem cells to grow and transplant hair follicles, which could be useful for hair regeneration treatments.

Scientists can now grow hair-like structures in a lab using special 3D culture systems, which could potentially help people with hair loss or severe burns.

Confocal Laser Scanning Microscopy (CLSM) is a useful tool for studying how drugs interact with skin and diagnosing skin disorders, despite some limitations.

Stem cells could improve hair growth and new treatments for baldness are being researched.

Regenerative medicine may help reduce radiotherapy side effects like skin cancer, fibrosis, pain, and hair loss.

Iron improves the DAMO-anammox process for treating water but too much iron can hinder it.

The new method can create hair follicle-like structures but not complete hair with roots and shafts, needing more improvement.

The research found specific genes that are more active in balding cells, which could be causing hair loss.

New biofabrication technologies could lead to treatments for hair loss.

The symposium showed that stem cells are key for understanding and treating skin diseases and for developing new skin models and therapies.

Hair follicle cloning is possible but faces many challenges before it can replace traditional hair transplants.

The research provided a detailed view of the non-keratinous parts of human hair fibers.

The review concluded that keeping the hair-growing ability of human dermal papilla cells is key for hair development and growth.

The gene LRRC15 is more active in balding areas of the scalp compared to non-balding areas.

Researchers created a fully functional, bioengineered skin system with hair from stem cells that successfully integrated when transplanted into mice.

Researchers developed a 3D model of human hair follicle cells that can help understand hair growth and test new hair loss treatments.

Skin organoids from stem cells could better mimic real skin but face challenges.

Rice bran extract boosts melanin production in hair follicles.