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Aging changes scalp cells, possibly affecting hair health in older women.

The research mapped diverse cell types in mouse lacrimal glands, aiding understanding of gland biology and diseases.

Certain plasma proteins and genes are linked to obstructive sleep apnea, suggesting potential new treatments.

Machine learning and single-cell analysis improve understanding and treatment of wound healing.

Different types of skin cells are organized in a special way in large wounds to help with healing and hair growth.

Zebrafish regenerate sensory hair cells through three phases, offering insights for potential mammal applications.

Fibroblasts and myeloid cells in mouse skin wounds are diverse and can change into different cell types during healing.

Human nails and hair follicles have similar gene activity, especially in the cells that contribute to their growth and development.

The research found that different types of fibroblasts are involved in wound healing and that some blood cells can turn into fat cells during this process.

Clonally expanded CD8+ T cells cause alopecia areata.

Arg1+ macrophages may play a role in Alopecia Areata, offering new treatment targets.

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

Ancestry affects skin healing, with non-Hispanic Black patients showing more healing-related fibroblasts than White patients.

The research identified genes that explain why some sheep have curly wool and others have straight wool.

Belatacept may be a promising treatment for alopecia areata.

DP cells interact with immune cells, possibly causing hair loss in Alopecia Areata.

A humanized CXCL12 antibody may delay and treat alopecia areata by altering the immune response.

A new tool helps study hair follicle cells to develop better treatments for hair disorders.

The study suggests that a specific type of immune cell, memory-like NK cells, may increase during active hair loss in Alopecia areata.

New drug targets for hair loss treatment were identified by studying cell interactions in hair follicles.

Skin cells and certain hair follicle areas produce hemoglobin, which may help protect against oxidative stress like UV damage.

Disrupting YAP signaling in skin cells leads to scar-free healing directed by specific cell signals.

Skin bacteria help hair regrow by boosting cell metabolism.

scMC effectively separates biological signals from technical noise in single-cell genomics data.

Adult fibroblasts help heart cells mature and improve heart function.

Hair follicle stem cells change states with age, affecting hair growth and aging.

Heat shock proteins help basal cell carcinoma grow by responding to inflammation signals.

GBP1 is a key target for treating Epstein-Barr virus-related kidney cancer, and finasteride may help.

Moles may stop growing because of cell cooperation, not just because of aging cells.