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Platelet-rich plasma is as effective as mineral trioxide aggregate for pulp capping and may offer better cellular responses.

A special hydrogel helps stem cells heal wounds better by boosting growth factors.

PEG and keratin scaffolds can effectively deliver protein drugs by controlling release based on pH levels.

Some viruses can cause cancer by changing cell processes and avoiding the immune system; vaccines and targeted treatments help reduce these cancers.

Platelet-rich treatments can help improve wound healing and tissue repair.

The ALGCS/GO30 scaffold effectively boosts mouse spermatogonial stem cell growth.

A new vaccine using a porous scaffold boosts immunity and protects against the flu better than traditional methods.

Adipose-derived stem cells show potential for skin rejuvenation and wound healing but require more research to overcome challenges and ensure safety.

Certain cells in the adult mouse ear come from cranial neural crest cells, but muscle and hair cells do not.

Certain proteins help nerve cells branch, and other findings relate to cancer, stem cell behavior, and cell division.

Advanced hydrogel systems with therapeutic agents could greatly improve acute and chronic wound treatment.

The best method for urethral reconstruction is using hypoxia-preconditioned stem cells with autologous cells on a vascularized synthetic scaffold.

Different types of stem cells and their environments are key to skin repair and maintenance.

Scientists found new, better-working inhibitors for a hormone-related enzyme.

Genes related to keratin, skin cell differentiation, and immune functions are key in hedgehog skin and spine development.

Quercetin delivery systems are improving its effectiveness for medical use.

Chronic tonsillitis is linked to NETosis activity, which may help tailor treatments and reduce tonsil removal surgeries.

Alginate is great for tissue engineering because it's safe, easy to use, and helps heal tissues.

Fat stem cells from diabetic mice can still help heal wounds.

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

Using gelatin sponges for deep skin wounds helps bone marrow cells repair tissue without scarring.

Keratins are crucial for cell structure, growth, and disease risk.

Keratins help protect cells, aid in cancer diagnosis, and influence cancer behavior and treatment.

Fat tissue-derived cells show promise for repairing body tissues, but more research and regulation are needed for safe use.

Skin development in mammals is controlled by key proteins and signals from underlying cells, involving stem cells for maintenance and repair.

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

Collagen membranes improve melanocyte growth for treating skin depigmentation.

Engineering the cell microenvironment is key for advancing tissue engineering and regenerative medicine.

Understanding skin structure and development helps diagnose and treat skin disorders.

Newly designed proteins can effectively degrade specific proteins in cells, offering a potential new therapy method.