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Single-cell engineered biotherapeutics show promise for skin treatment but need more research and trials.

Hidradenitis suppurativa is caused by genetic factors, inflammation, bacteria, hormones, and lifestyle factors like obesity and smoking.

Root hairs are key for developing cereals that can fertilize themselves with nitrogen.

Exogenous testosterone use may be linked to developing hidradenitis suppurativa.

Men generally have more severe COVID-19 cases and higher death rates than women due to biological differences.

Different species and human skin models vary in their skin enzyme activities, with pig skin and some models closely matching human skin, useful for safety assessments and understanding the skin's protective roles.

SIM01 significantly reduced post-COVID symptoms and is safe.

Some cells may slow melanoma growth, a protein could affect skin pigmentation, a gene-silencing method might treat hair defects, skin bacteria changes likely result from eczema, and a defensin protein could help treat multiple sclerosis.

Different tiny organisms live in human hair follicles and can affect both health and skin conditions, including acne and hair loss.

Organ transplant recipients have a higher risk of skin cancer over time, atopic dermatitis skin shows unusual bacterial and fungal patterns, a new tool for measuring hidradenitis suppurativa severity was created, and gene expression changes in male baldness suggest new treatments.

The symposium highlighted the importance of genetics in understanding and treating complex skin diseases.

The Rotterdam Study found risk factors for elderly diseases, links between lifestyle and genetics with health conditions, and aimed to explore new areas like DNA methylation and sensory input effects on brain function.

Bacteria in our hair can affect its health and growth, and studying these bacteria could help us understand hair diseases better.

The microbiome may be linked to hair loss and could be a target for new treatments.

Antibiotics can reduce acne but may lead to resistant bacteria, and understanding the skin's bacteria is important for treatment.

Human hair contains diverse proteins, including keratins and histones, which could help assess hair health and aging.

Changes in skin microbes play a role in some skin diseases and could lead to new treatments.

The health of the gut may be important in developing new ways to prevent, diagnose, and treat alopecia areata.

The skin microbiome helps heal wounds and can be targeted to improve healing.

The skin's bacteria might influence the development of a hair loss condition called alopecia areata.

Omics techniques are needed to understand the scalp microbiome's role in alopecia areata for new treatments.

Lindera strychnifolia root extract may help balance scalp bacteria and potentially reduce hair loss.

Blue light might help treat skin conditions by affecting the skin's bacteria.

SLFC can improve scalp health and reduce sensitive scalp symptoms.

Changes in skin bacteria can affect hair loss and new treatments targeting these bacteria may prevent balding without sexual side effects.

Sensitive scalp has higher pH, more redness, abnormal sebum, and altered bacterial makeup.

Physical activity, height, and smoking affect prostate cancer risk.

Acne is linked to complex skin microbe interactions, and new findings suggest microbiome-based treatments could be effective.

Eating barley for life may lead to healthier aging in mice.

Men with androgenetic alopecia have different scalp oils and microbes compared to those without.