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New treatments for diabetes, central nervous system repair, and cartilage injury were found, and a way to create functional hair follicles from stem cells was developed.

Aging changes hair stem cells and their environment, leading to gray hair and hair thinning, but understanding these changes could help develop treatments for hair regeneration.

Fetal skin heals without scarring due to unique cells and processes not present in adult skin healing.

The conclusion is that understanding how hair follicle stem cells live or die is important for maintaining healthy tissue and repairing injuries, and could help treat hair loss, but there are still challenges to overcome.

The environment around melanocyte stem cells is key for hair regeneration and color, with certain injuries affecting hair color and potential treatments for pigmentation disorders.

Fetal-maternal stem cells in a mother's hair can help with tissue repair and regeneration long after childbirth.

Cells with active Wnt signaling are less likely to turn into cancer when exposed to a cancer-causing gene.

GDNF helps grow hair and heal skin wounds by acting on hair stem cells.

Mesenchymal stem cells show promise for treating various skin conditions and may help regenerate hair.

Aging reduces skin stem cell function, leading to changes like hair loss and slower wound healing.

Stem cells, PRP, and exosomes show promise in treating skin conditions but face regulatory and safety challenges.

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.

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

Pig skin cells can turn into mesodermal cells but lose their ability to become neural cells.

Mesenchymal stem cells could help treat aging-related diseases better than current methods.

Low oxygen areas help maintain and protect blood stem cells by using a simple sugar breakdown process for energy and managing their activity levels.

Hair follicle stem cells can become different cell types and may help treat neurodegenerative disorders.

Researchers found stem cells in dog hair follicles using specific markers.

Scientists successfully grew mini hair follicles using human skin cells, which could help treat baldness.

Gamma-rays exposure during the resting phase of hair growth can damage hair regeneration and color in mice.

Stem cells and their secretions could potentially treat stress-induced hair loss, but more human trials are needed.

The Wnt/β-catenin pathway is important for tissue development and has potential in regenerative medicine, but requires more research for therapeutic use.

Stem cell niches are adaptable and key for tissue maintenance and repair.

The symposium concluded that understanding how different species repair tissue and how this changes with age can help advance regenerative medicine.

Understanding and manipulating epigenetic changes can potentially lead to human organ regeneration therapies, but more research is needed to improve these methods and minimize risks.

Gamma-ray exposure can cause long-lasting damage to hair follicles, affecting hair structure and color.

Gamma rays did not change hair follicle density but increased white and hypopigmented hairs in mice.

The reviewers found the manuscript on inflammation's role in cancer stem cells to be relevant but suggested it needs clarity, more background information, discussion on immune cells' role in tumors, updated references, and grammar corrections.

The revised study on how inflammation affects cancer stem cells was accepted after improving clarity and structure.

The revised manuscript on how inflammation affects cancer stem cells was accepted after addressing issues with clarity and detail.