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New imaging technologies improve skin diagnosis but face cost and training challenges.

Microencapsulation helps protect and track therapeutic cells, showing promise for treating various diseases, but more work is needed to improve the technology.

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

A new laser-based microscope can clearly image biological structures without labels.

Researchers can now observe live cell processes in the Drosophila midgut for extended periods.

A new method helps detect androgen receptor movement in cells, aiding research on hair loss treatments.

TRASER effectively targets blood vessels and hair follicles for potential use in vascular and hair removal treatments.

PBM helps improve cell survival in 3D tissue engineering.

FLASH radiation reduces tissue damage more than conventional radiation.

A portable imaging system shows promise for diagnosing skin diseases and checking laser treatment effects.

New imaging tools help doctors better examine hair and scalp health without surgery.

NIR-II imaging effectively tracked stem cells that helped repair facial nerve defects in rats.

The model effectively mimics radiation-induced skin damage for future research.

3D bioprinted lung cancer models in a mouse-like structure offer a better way to study radiation effects without using live animals.

The nature of the side chain in RU 58841 derivatives greatly affects its AR affinity, with the N-(iodopropenyl) derivative 13 showing the highest AR binding affinity, suggesting its potential for developing high-affinity radioiodinated AR radioligands.

Noninvasive scalp imaging techniques can improve patient care by reducing the need for biopsies.

Radiation-induced hair loss may be caused by hair growth stopping and inflammation in blood vessels.

Live imaging has advanced our understanding of stem cell behavior and raised new research questions.

This new method makes checking for female infertility less painful, less invasive, and doesn't use radiation.

Intravital imaging helps us better understand stem cells in their natural environment and could improve knowledge of organ regeneration and cancer development.

The PIRL laser cuts tissue with less damage and scarring than traditional methods.

Researchers developed a mouse model that successfully mimics the bladder damage seen in humans after radiation therapy.

Low-level laser therapy speeds up skin healing and stimulates hair follicles in mice after radiation exposure.

The method successfully imaged hair follicles under the skin using iron nanoparticles.

Radiotherapy can cause rare changes in hair color, which should be discussed with patients.

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

Infrared and Raman imaging can non-destructively analyze hair structure and help diagnose hair conditions.

The improved algorithm enhances low-dose CT image quality significantly better than other methods.

A 30 Gy radiation dose effectively causes severe radiodermatitis in rabbits.

QMSI effectively maps and quantifies drug distribution in skin tissues.