CO2 Delivery To Accelerate Incisional Wound Healing Following Single Irradiation of Near-Infrared Lamp on the Coordinated Colloids.
Wei-Peng LiChia-Hao SuSheng-Jung WangFu-Ju TsaiChun-Ting ChangMin-Chiao LiaoChun-Chieh YuThi-Tuong Vi TranChaw-Ning LeeWen-Tai ChiuTak-Wah WongChen-Sheng YehPublished in: ACS nano (2017)
Traditional wound care methods include wound infection control, adequate nutritional supplements, education of changing position every 2-3 h to avoid tissue hypoxia, vacuum assistant closure, debridement, skin graft, and tissue flap. Electric current stimulation, ultrasound, laser, and hydrotherapy have emerged as adjuvant therapies. However, most, if not all, of these therapies are expensive, and the treatment results are variable. The development of the active methods to improve wound healing is mandatory. CO2 administration has been known to improve microcirculation and local oxygen supply that are beneficial to wound healing. Here, the metal ion-ligand coordination nanoarchitecture was designed to reveal NIR light-induced CO2 generation for wound healing. The administration simply topically dropped the colloidal solution on the incisional wound, followed by exposure of near-infrared (NIR) lamp to yield CO2, resulting in the observation of the accelerated wound healing.
Keyphrases
- wound healing
- healthcare
- palliative care
- early stage
- magnetic resonance imaging
- quality improvement
- drug release
- fluorescence imaging
- surgical site infection
- computed tomography
- gene expression
- radiation therapy
- high resolution
- soft tissue
- loop mediated isothermal amplification
- mass spectrometry
- radiation induced
- solid state
- affordable care act