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LC-OCT is an effective new method for diagnosing classic lichen planopilaris.

Confocal Laser Scanning Microscopy (CLSM) is a useful tool for studying how drugs interact with skin and diagnosing skin disorders, despite some limitations.

Multiphoton microscopy can effectively image live cells in cornea, skin, and hair follicles over time.

New laser particles can track thousands of cells in 3D models, improving single-cell analysis.

A new tool helps study hair follicle cells to develop better treatments for hair disorders.

A new device mimics hair follicle functions and detects tiny forces with high sensitivity.

The method accurately detects and removes hair from skin images to improve melanoma diagnosis.

Fibre optic confocal imaging can visualize skin layers, blood vessels, and nerves in live mice.

3D models from confocal microscopy improve melanoma detection on sun-damaged skin.

The ultrapulse carbon dioxide laser can effectively resurface skin without scarring.

Researchers made a detailed map of gene activity for different parts of human hair follicles to help create targeted hair disorder treatments.

AI can accurately measure hair loss severity in alopecia areata.

Large-scale reconstructions enhance understanding of vibrissal sensory mapping in the brain.

Confocal microscopy is better than scanning electron microscopy for studying hair in its natural state and understanding hair products' effects.

Raman micro-spectroscopy can help distinguish basal cell carcinoma from hair follicles in skin tissue.

AI can effectively detect hair and scalp disorders from images.

The new microscope method helps study energy from pre-cancerous skin cells.

The new algorithm accurately captures both facial hair and skin in 3D using a camera-based system.

Computer-aided imaging system accurately measures baldness in Chinese women with hair loss.

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

ScalpEye accurately diagnoses scalp issues like dandruff and hair loss.

Reliable, non-invasive tools are needed for better vitiligo diagnosis.

"TRICHOASSIST" is a system that analyzes hair and scalp images to help diagnose scalp diseases.

The model explains how mammal ear hair cells respond to sound and adapt.

A new laser method helps observe and understand how intestines heal and change over time.

The MIRA technique improves cellulite treatment results and patient satisfaction.

X-ray microscopy can non-invasively show hair structure changes after treatments, but it's less detailed than TEM and needs improvement.

Hair properties change under electromagnetic fields and are influenced by individual characteristics and the environment.

Digital microscopy can help diagnose hirsutism by measuring hair growth.

TrichoScan often makes mistakes and needs improvement for correct hair growth analysis.