Gases and gas-releasing materials for the treatment of chronic diabetic wounds
S. Ye, Neng Jin, Nan Liu, Feixiang Cheng, Liang Hu, Guiyang Zhang, Qi Li, Juehua Jing
Abstract
O), along with gas-releasing materials associated with them have emerged as promising therapeutic solutions due to their ability to regulate angiogenesis, intracellular oxygenation levels, exhibit antibacterial and anti-inflammatory effects while effectively minimizing drug residue-induced damage and circumventing drug resistance issues. In this review, we discuss the latest advances in the mechanisms of action and treatment of these gases and related gas-releasing materials in diabetic wound repair. We hope that this review can provide different ideas for the future design and application of gas therapy for chronic diabetic wounds.
Topics & Concepts
Mechanism (biology)ChemistryIntensive care medicineMedicineNanotechnologyMaterials sciencePhysicsQuantum mechanicsMedical and Biological Ozone ResearchHydrogen's biological and therapeutic effectsLaser Applications in Dentistry and Medicine