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CTHRC1 is essential for healing and preventing heart rupture after a heart attack.

Overactive sonic hedgehog signaling worsens uterine scarring by reducing cell recycling.

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

Researchers developed a method to grow hair follicle cells for transplantation using a special chip.

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

HSP90 and lamin A/C are crucial for hair growth and could be targets for treating hair loss.

Calcium reduces involucrin in rat hair bulbs but doesn't affect filaggrin and Kdap.

Phospholipase A2 is necessary for the correct placement of PIN proteins in plant roots, affecting root growth.

3D cultures can create active macrophages from fat tissue.

Scientists found a new method using 3D cell cultures to grow human hair which may improve hair restoration treatments.

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

Perhexiline can effectively target ovarian cancer cells left after treatment.

3D bioprinting is useful for making tissues, testing drugs, and delivering drugs, but needs better materials, resolution, and scalability.

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

Combining biomaterials and cell pathways can improve hair follicle regeneration.

A 3D cell model can rejuvenate stem cells to improve wound healing.

3D-printed hydrogels show promise in medicine but face challenges in resolution, cell viability, cost, and regulations.

3D-oxy exosomes may significantly boost hair growth, offering new treatment options for hair loss.

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

Layer-by-Layer self-assembly is promising for biomedical uses like tissue engineering and cell therapy, but challenges remain in material safety and process optimization.

Hair follicle regeneration needs special conditions and young cells.

3D-printed microneedles improve drug delivery and diagnostics but face scalability and regulatory challenges.

Improving the environment and cell interactions is key for creating human hair in the lab.

3D bioprinting can now create skin with hair-like structures for medical use.

Advancements in creating skin grafts with biomaterials and stem cells are promising, but more research is needed for clinical application.

Scientists have made progress in growing mini-organs and regenerating parts of the skin, with plans to treat hair loss in a future trial.

Stem cell therapy is a promising approach for hair regrowth despite potential side effects.

Adipose-derived stem cells show promise in treating skin conditions like vitiligo, alopecia, and nonhealing wounds.

3D bioprinting in plastic surgery could lead to personalized grafts and fewer complications.

A new 3D-printed hydrogel scaffold helps regenerate corneas and prevent scarring.