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Hair follicle organoids can help study hair biology and disorders but need improvements for wider use.

Wedelolactone may help treat inflammation, infections, cancer, bone loss, and organ damage.

γδ T cells help control tissue scarring and blood vessel growth in response to foreign objects.

Nanotechnology could improve treatment for scars and atopic dermatitis by targeting skin issues more effectively.

Mammalian organs regenerate using stem cells and cell plasticity, but this ability declines with age.

Morroniside has many health benefits, including protection against diabetes complications, bone and brain diseases, heart and skin issues, and it supports hair growth and reduces inflammation.

Understanding wound healing involves coordinating different phases and areas to improve treatment strategies.

EMT plays a key role in skin fibrosis and offers new therapy targets.

Collagen networks play a key role in hair loss and follicle miniaturization.

Hydrogel-based hair follicle organoids could help treat hair loss and improve drug testing.

The conclusion is that the nuclear lamina and LINC complex in skin cells respond to mechanical signals, affecting gene expression and cell differentiation, which is important for skin health and can impact skin diseases.

Understanding phenotypic plasticity is crucial for developing effective cancer therapies.

Radiotherapy can cause skin fibrosis, which is often overlooked and needs better treatment and evaluation.

Different types of skin cells have unique genetic markers that affect how likely they are to spread cancer.

SOX11 and SOX4 help skin cells act like embryonic cells to heal wounds in mice.

Using a perfusion system and 3D spheroid culture improves the growth of corneal cell layers for tissue engineering.

Newly divided skin cells quickly move to join skin structures due to tissue tension and specific signals.

Skin stretching can improve vaccine delivery through hair follicles and boost immune response.

Metal-organic frameworks can help heal wounds, reduce scars, and promote hair growth, but more research is needed.

Hair thinning causes stem cell loss through a process involving Piezo1, calcium, and TNF-α.

Reprogramming adult fibroblasts may enable scar-free healing.

Targeting mitochondria can improve skin healing and rejuvenation.

Mitochondrial activity varies in cells before they stop growing, affecting their growth potential.

Stem cells from hair follicles in a special gel show strong potential for bone regeneration.

The conclusion is that accurately replicating the complexity of the extracellular matrix in the lab is crucial for creating realistic human tissue models.

Afatinib, neratinib, and zanubrutinib could be effective against KRASG12C-mutant tumors.

Inhibiting Zyxin may help treat androgenetic alopecia by promoting hair growth.

Tissue stiffness helps shape how organisms develop.

The intestinal lymphatic system is active and promising for targeted drug delivery and therapies.