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

Blocking the virus's entry into cells by targeting certain pathways could lead to early COVID-19 treatments.

Short-chain fatty acids from *Cutibacterium acnes* cause skin inflammation, contributing to acne.

Cancer can hijack the body's cell repair system to promote tumor growth, and targeting this process may improve cancer treatments.

Advanced nanocarrier and microneedle drug delivery methods are more effective, safer, and less invasive for treating skin diseases.

Using CRISPR for gene editing in the body is promising but needs better delivery methods to be more efficient and specific.

There are still challenges in diagnosing and treating chronic skin diseases, but there is hope for future improvements.

The document concludes that the skin's immune system is complex, involving interactions with hair follicles, nerves, and microbes, and can protect or cause disease, offering targets for new treatments.

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

The document concludes that future heart disease research should account for sex-specific differences to improve diagnosis, treatment, and outcomes.

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.

Adult skin quickly reacts to short-term environmental and internal stress, leading to various skin issues and the need for protective measures.

Cell aging can be both good and bad for tissue repair.

The document concludes that certain mutations may contribute to the inflammation in hidradenitis suppurativa and suggests that targeting TNFα could be a treatment strategy.

Understanding hair follicle biology and stem cell control could lead to new hair loss treatments.

Sebaceous glands play a key role in skin health, immunity, and various skin diseases.

Juniperus plants contain compounds with potential for developing various medical treatments.

Inflammation plays a key role in activating skin stem cells for hair growth and wound healing, but more research is needed to understand how it directs cell behavior.

Minoxidil can stop the growth of ovarian cancer cells without harming the heart.

Lepidium sativum seed extracts helped reduce inflammation and improve insulin response in obese rats on a high-fat diet.

Deleting the Far2 gene in mice causes sebaceous gland issues and patchy hair loss.

Targeting immune tolerance issues in Alopecia Areata could restore hair growth and maintain remission.

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

Impatiens plants have health-promoting compounds and are used for natural food coloring, but more research is needed to understand their full benefits.

Modified KGF mRNA helps skin cells grow and move faster, which may improve wound healing.

New hair can grow from large wounds in mice, but less so as they age, involving reprogramming of skin cells and specific molecular pathways.

ECM-inspired wound dressings can help heal chronic wounds by controlling macrophage activity.

Skin cell-derived vesicles can help heal skin injuries effectively.

Extra virgin olive oil may boost the immune system and help fight infections like COVID-19.

Mice with more Flightless I protein grew back their claws better after amputation.