Low-molecular-weight heparin calcium attenuates the tourniquet-induced ischemia-reperfusion injury in rats

“…Pain degree of the wound: Visual analogue scale 10 was used to assess the degree of pain on admission and after treatment, with a total score of 0–10. The higher the score, the more obvious the pain degree of the affected limb.…”

“…[7][8][9] Low molecular weight heparin calcium is a widely used anticoagulant in the clinic, which can effectively prevent venous thrombosis, and the occurrence of venous thrombosis can aggravate scar or hinder scar healing, and low molecular weight heparin calcium can effectively improve the burn with microcirculation of venous thromboembolism, accelerate local blood supply, so as to improve scar hyperplasia. 8,10 At present, there are few clinical reports about hydrocolloid dressing combined with low molecular weight heparin calcium in burn patients with venous thromboembolism. This study observed that hydrocolloid dressing combined with low molecular weight heparin calcium can effectively improve the scar hyperplasia degree of burn patients with venous thromboembolism, and the curative effect is remarkable.…”

“…It is widely used in chronic wounds such as pressure ulcers and venous ulcers, as well as acute wounds such as surgical wounds, superficial wounds and skin donation wounds 7‐9 . Low molecular weight heparin calcium is a widely used anticoagulant in the clinic, which can effectively prevent venous thrombosis, and the occurrence of venous thrombosis can aggravate scar or hinder scar healing, and low molecular weight heparin calcium can effectively improve the burn with microcirculation of venous thromboembolism, accelerate local blood supply, so as to improve scar hyperplasia 8,10 . At present, there are few clinical reports about hydrocolloid dressing combined with low molecular weight heparin calcium in burn patients with venous thromboembolism.…”

Effect of hydrocolloid dressing combined with low molecular weight heparin and calcium on scar hyperplasia in burn patients with venous thromboembolism

“…Pain degree of the wound: Visual analogue scale 10 was used to assess the degree of pain on admission and after treatment, with a total score of 0–10. The higher the score, the more obvious the pain degree of the affected limb.…”

“…[7][8][9] Low molecular weight heparin calcium is a widely used anticoagulant in the clinic, which can effectively prevent venous thrombosis, and the occurrence of venous thrombosis can aggravate scar or hinder scar healing, and low molecular weight heparin calcium can effectively improve the burn with microcirculation of venous thromboembolism, accelerate local blood supply, so as to improve scar hyperplasia. 8,10 At present, there are few clinical reports about hydrocolloid dressing combined with low molecular weight heparin calcium in burn patients with venous thromboembolism. This study observed that hydrocolloid dressing combined with low molecular weight heparin calcium can effectively improve the scar hyperplasia degree of burn patients with venous thromboembolism, and the curative effect is remarkable.…”

“…It is widely used in chronic wounds such as pressure ulcers and venous ulcers, as well as acute wounds such as surgical wounds, superficial wounds and skin donation wounds 7‐9 . Low molecular weight heparin calcium is a widely used anticoagulant in the clinic, which can effectively prevent venous thrombosis, and the occurrence of venous thrombosis can aggravate scar or hinder scar healing, and low molecular weight heparin calcium can effectively improve the burn with microcirculation of venous thromboembolism, accelerate local blood supply, so as to improve scar hyperplasia 8,10 . At present, there are few clinical reports about hydrocolloid dressing combined with low molecular weight heparin calcium in burn patients with venous thromboembolism.…”

Effect of hydrocolloid dressing combined with low molecular weight heparin and calcium on scar hyperplasia in burn patients with venous thromboembolism

“…In order to evaluate the presence of tissue edema, the wet-to-dry ratio was calculated utilizing the following formula: wet/dry ratio = (wet weight/dry weight) × 100%. 4,28…”

Benzoylaconine Protects Skeletal Muscle Against Ischemia-Reperfusion Injury Through Activation of IF1-Dependent AMPK/Nrf2 Axis