In situ vascular regeneration using substance P-immobilised poly(L-Lactide-co-ε-caprolactone) scaffolds: Stem cell recruitment, angiogenesis, and tissue regeneration

Engineering & Materials Science

• Assays 22%
• Biocompatibility 11%
• Biomolecules 13%
• Blood vessels 11%
• Bone 9%
• Collagen 12%
• Electrospinning 13%
• Enzymes 11%
• Experiments 3%
• Fabrication 7%
• Grafts 25%
• Immunosorbents 16%
• Infiltration 11%
• Membranes 8%
• Rats 11%
• Regenerative Medicine 30%
• Scaffolds 68%
• Stem cells 82%
• Tissue 8%
• Tissue engineering 12%
• Tissue regeneration 92%

Medicine & Life Sciences

• Blood Vessels 34%
• caprolactone 15%
• Collagen 7%
• Control Groups 5%
• Enzyme-Linked Immunosorbent Assay 6%
• In Vitro Techniques 4%
• lactide-caprolactone copolymer 100%
• Laminin 10%
• Membranes 5%
• Mesenchymal Stem Cells 8%
• poly(lactide) 11%
• Regeneration 48%
• Regenerative Medicine 21%
• Sprague Dawley Rats 8%
• Stem Cells 42%
• Substance P 62%
• Tissue Engineering 9%
• Transplants 12%
• von Willebrand Factor 10%

Chemical Compounds

• Application 6%
• Collagen 9%
• Substance P 78%
• Time 3%