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VGG19 is more accurate, but MobileNetV2 is faster and uses fewer resources.

The system effectively detects scalp diseases and classifies hair fall stages with high precision.

Better datasets and methods are needed for reliable vitiligo detection using deep learning.

Deep learning effectively diagnoses scalp disorders, but improvements are needed.

The method creates realistic, anonymous acne face images for research, achieving 97.6% accuracy in classification.

The new model detects hair clusters more accurately and efficiently, helping with early hair loss treatment and diagnosis.

Deep learning helps detect skin conditions and is advancing dermatology diagnosis and treatment.

The method improves hair image segmentation accuracy while reducing annotation costs.

The framework helps develop medical apps on mobile devices to reduce reliance on desktop computers.

MSF-VMDNet accurately segments skin cancer images better than existing methods.

The model can effectively help diagnose meibomian gland dysfunction automatically.

The new method improves hair segmentation in skin images, helping detect skin cancer more accurately.

A wireless, battery-free system uses Wi-Fi signals to enhance wound healing and enable smart healthcare at home.

A new AI model diagnoses hair and scalp disorders with 92% accuracy, better than previous models.

The smart bandage improved healing in diabetic mice by delivering drugs directly into wounds.

DLP bioprinting shows promise for medical uses, but needs more material options and strength improvements.

Machine learning can accurately predict hair loss early, improving treatment options.

Machine learning can predict symptoms and quality of life in chronic skin disease patients using smartphone app data, and shows that app use varies with patient characteristics.

Desmoglein 3 organization in cell connections changes without calcium, affecting cell adhesion.

Nobiletin-loaded vesicles effectively treat skin cancer by restoring normal miRNA and antioxidant levels.

Smartphone-based teledermatology is effective for diagnosing skin diseases in the military with good accuracy.

The new micelle formulation delivers acne treatment more effectively and safely than current gels.

A deep learning model accurately predicts male hair loss types using scalp images.

The conclusion is that a new method combining magnetic tweezers and traction force microscopy may help understand skin cell interactions and diseases.

Triboelectric nanogenerators can use body movement to power therapeutic treatments, potentially transforming personalized healthcare.

A new 3-D bioreactor system improves drug screening and reduces animal testing.

3D cell-derived matrices improve tissue regeneration and disease modeling.

A small 3D skin model helps study how immune cells move in the skin.

The new GelMet hydrogel can effectively support skin cell growth for tissue engineering.