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July 1999 in “Journal of Anatomy” Methylene blue staining effectively highlights detailed nerve structures in rat fur.
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July 1999 in “Journal of Anatomy” Methylene blue staining effectively reveals detailed nerve structures in rat snouts.
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April 1997 in “Biochemical and Biophysical Research Communications” Insulin-dependent diabetes alters hair's molecular structure, making it useful for studying diabetes effects.
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August 2013 in “Acta Biomaterialia” The new matrix improves skin regeneration and graft performance.
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April 2013 in “Journal of Investigative Dermatology” Hair follicle stem cells rely on nearby blood vessels for their maintenance and function.
October 2025 in “Research Square (Research Square)” Enhancing blood vessel interactions with hair cells may help treat hair loss and skin aging.
January 2007 in “The Year book of surgery” Mast cells and VEGF contribute to post-surgery adhesions, and blocking VEGF can reduce these adhesions; also, certain factors affect wound healing and fetal skin heals differently with age.
June 2018 in “Chinese Journal of Dermatology” Connective tissue nevi have distinct features, and reflectance confocal microscopy is useful for early diagnosis.
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October 2023 in “Small” Microneedles show promise for treating hair loss, eye, and mouth diseases.
December 2009 in “Saengmyeong gwahag hoeji/Saengmyeong gwahak hoeji” Thymosin β4 and VEGF are important for blood vessel formation in many organs.
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November 2010 in “Tissue Engineering Part A” Hair follicle cells and intestinal tissue can create strong, functional blood vessel replacements.
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April 2009 in “Circulation Research” CD133+ cells help heal diabetic ulcers by promoting blood vessel growth and activating Wnt signaling.
Using a combination of AMD3100 and FK506 can speed up and improve wound healing in diabetic rats.
Hair follicles influence blood vessels during hair growth, suggesting potential treatments for hair growth issues.
November 2022 in “Journal of Investigative Dermatology” Growing dermal papilla cells in 3D improves their ability to help form new blood vessels.
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February 2020 in “Advanced Functional Materials” The smart bandage improved healing in diabetic mice by delivering drugs directly into wounds.
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January 2014 in “BioMed Research International” Engineering the cell microenvironment is key for advancing tissue engineering and regenerative medicine.
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January 2023 in “Materials horizons” The new biomaterial helps grow blood vessels and hair for skin repair.
June 2021 in “Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature” The skin basement membrane is specialized for different tissue interactions, important for hair growth and attachment.
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February 2015 in “Biomaterials” A surface with VEGF can specifically capture endothelial cells from flowing fluids.
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March 2008 in “Surgical Neurology” New techniques for treating scalp blood vessel malformations are effective and can have good cosmetic results.
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February 2025 in “Journal of Nanobiotechnology” Biomimetic nanovesicles can speed up diabetic wound healing by regulating immune cell behavior and metabolism.
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June 2024 in “PLoS ONE” HAP-cell-sheets improved wound healing in diabetic mice.
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May 2013 in “Dermatologic Surgery” Three new techniques simplify and improve the preparation of tissue samples for skin cancer surgery.
January 2026 in “Advanced Science” A new wound dressing helps heal diabetic wounds faster by reducing inflammation and promoting tissue growth.
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January 2024 in “Regenerative Biomaterials” The new nanofiber patch speeds up diabetic wound healing and improves healing quality.
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November 2024 in “Romanian Journal of Morphology and Embryology” Recent findings in cell biology help understand cell roles in health and disease.
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August 2020 in “Nanomaterials” Electrospun nanofibers show promise for enhancing blood vessel growth in tissue engineering but need further research to improve their effectiveness.
March 2026 in “International Journal of Molecular Sciences” A temporary capillary cell type helps skin repair after radiation by promoting blood vessel growth.
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February 1998 in “Journal of Anatomy” Fibre optic confocal imaging can visualize skin layers, blood vessels, and nerves in live mice.