Bacterial protease-responsive shape memory polymers for infection surveillance and biofilm inhibition in chronic wounds

Engineering & Materials Science

• Peptide Hydrolases 92%
• Shape-memory polymer 86%
• Biofilms 82%
• Staphylococcus aureus 48%
• Recovery 34%
• Bacteria 34%
• Acids 18%
• Peptides 13%
• Escherichia coli 12%
• Biomaterials 12%
• Enzymes 11%
• Superconducting transition temperature 11%
• Polyurethanes 10%
• Cells 9%
• Polymers 7%
• Temperature 4%

Medicine & Life Sciences

• Smart Materials 100%
• Biofilms 60%
• Peptide Hydrolases 51%
• Wounds and Injuries 29%
• Infections 29%
• Staphylococcus aureus 26%
• Bandages 21%
• Bacteria 20%
• Glutamic Acid 17%
• Transition Temperature 14%
• Polyurethanes 12%
• Staphylococcus epidermidis 12%
• Body Temperature 10%
• Biocompatible Materials 10%
• Polymers 9%
• Wound Healing 8%
• In Vitro Techniques 8%
• Escherichia coli 7%
• Peptides 6%
• Enzymes 5%

Chemical Compounds

• Shape 39%
• Biofilm Formation 19%
• Glutamic Acid 10%
• Mammalian Cell 5%
• Biomaterial 4%
• Antimicrobial Agent 3%
• Strain 3%
• Resistance 3%
• Peptide 2%
• Liquid Film 2%
• Surface 1%