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Proretinal nanoparticles are a safe and effective way to deliver retinal to the skin.

A new method allows detailed, continuous imaging of crustacean leg regeneration without harming the cells.

Keratinocytes help keep hair follicle cells and skin cells separate in 3D cultures, which is important for hair growth research.

Two-photon microscopy effectively tracks live stem cell activity in mouse skin with minimal harm and clear images.

Multiphoton microscopy is a promising tool for detailed skin imaging and could improve patient care if its challenges are addressed.

3D bioprinting with special hydrogels can create artificial skin that heals wounds and regrows hair in mice.

Inositol and arginine solutions improve hair follicle health and turnover.

Multiphoton microscopy can non-invasively tell apart scarring from non-scarring hair loss and could aid in treatment.

Microscopic hair analysis is important in forensics but has limitations; new technologies are improving its accuracy.

Glycol chitosan hydrogels enable quick, safe 3D cell spheroid formation for various applications.

FoxN1 gene is essential for proper thymus structure and preventing hair loss.

Stem cells are more dynamic and adaptable than previously believed.

Dynamic, light touch is sensed through a common mechanism involving Piezo2 channels in sensory axons.

The guide explains how to study human skin fat cells and their tissue, aiming to improve research and medical treatments.

Different levels of shear stress affect where cells move and gather in a 3D-printed model, helping to better understand cell behavior in blood vessels.

The "Two-Cell Assemblage" assay is a new, simple method to identify substances that may promote hair growth.

Human hair keratins can be turned into useful 3D biomedical scaffolds through a freeze-thaw process.

Dermal papilla cells are key for hair growth and color, influencing hair type and size, and their interaction with stem cells could help treat hair loss and color disorders.

HA-gel-dex hydrogels help heal wounds and regenerate tissue effectively.

Scientists created a lab-grown hair follicle model that behaves like real hair and could improve hair loss treatment research.

Innovative methods are reducing animal testing and improving biomedical research.

Progress has been made in skin and nerve regeneration, but more research is needed to improve methods and ensure safety.

Laminin-511 may contribute to psoriasis by affecting skin cell growth and survival.

Researchers created human hair follicles using a new method that could help treat hair loss.

The study showed that hair follicle stem cells can maintain and organize themselves in a lab setting, keeping their ability to renew and form hair and skin.

Changes in keratin make hair follicles stiffer.

Growing human skin cells in a 3D environment can stimulate new hair growth.

Facial plastic surgery has evolved to focus on less invasive techniques and innovative technologies for cosmetic and reconstructive procedures.

Touch sensitivity in mouse skin decreases during hair growth due to changes in touch receptors.

The AC 2 peptide from Trapa japonica fruit helps protect hair cells and may treat hair loss.