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The study found unique microscopic features for hair or feather in five animal ingredients in Shenrongbian pill.

Swellable microneedles could improve drug delivery and diagnostics but need more research on materials and technology integration.

The cuticle layer in hair follicles thickens during keratinization due to incomplete cytosol loss.

Hair properties are interconnected; a comprehensive, cross-disciplinary approach is essential for understanding hair behavior.

Microneedles improve drug delivery, patient compliance, and have potential in cancer treatment and skin care.

High flux X-ray beams quickly damage the structure of human hair.

Fiber implantation for pattern baldness was largely unsuccessful with many complications and is not recommended.

Cosmetic residues on individual hairs can be identified and differentiated using ATR FT-IR microspectroscopy.

Proteomic analysis can identify genetic differences in mouse hair, helping understand hair defects and variations.

3D images of skin show collagen is evenly spread, but elastic fibers are fewer near hair follicles.

Multiphoton microscopy can effectively detect early endometrial cancer by analyzing collagen changes.

Bubble microneedles deliver drugs quickly and effectively through the skin and mouth.

Hair has unevenly distributed proteins and lipids, with lipids mainly in the cuticle and proteins in the cortex and medulla.

DP and DS cells are different from DF cells in structure and function.

MicroRNAs play a crucial role in skin and hair health, affecting everything from growth to aging, and could potentially be used in treating skin diseases.

Bubble microneedles effectively deliver drugs through the skin and mouth, improving treatment speed and efficiency.

Certain hair follicle traits in Merino sheep may be inherited.

Microneedling helps increase the absorption of a melanin product into hair follicles, which may improve laser hair removal effectiveness.

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

Smart microneedles improve hair loss treatment by delivering drugs precisely with fewer side effects.

Transgenic sheep cells with spider silk gene were successfully created for future sheep hair expression.

The film-trigger applicator improves microneedle skin delivery and drug efficiency using simple finger force.

Fibroblasts can be turned into melanocytes for potential skin treatments.

Microspicule cosmetics improve skin whitening, pores, and barrier strength.

The method allows detailed observation of hair tissue structures.

Scientists created a colored thread-like material containing a common hair loss treatment, which slowly releases the treatment over time, potentially offering an effective, neat, and visually appealing solution for hair loss.

Rabbit skin analysis showed changes in hair growth and identified miRNAs that may regulate hair follicle development.

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