急性炎症常指各种类型的损伤所引起的一种迅速发生的组织反应。不管外加致炎固子为何,其表现基本上是相同的。这种非特异性的即时反应主要由内源性的系列炎症介质所激发。在以往的实验中,我们曾以六种炎症模型反复证明旋磁场有显著的控制炎症的作用,本文试图探索这种抗炎作用(消肿止痛)是否与影响炎症介质的效价有关,并进一步估价我们提出的磁场有降低组织反应性作用的概念。材料和方法:实验用大白鼠进行,选用既促进渗出又强烈致痛的四种炎症介质注入双侧足蹠皮下,药量均为0.1毫升,一侧作磁处理,另侧作对照,以排水容积法测定不同 Acute inflammation often refers to a rapid tissue reaction caused by various types of injury. Regardless of the added inflammation of the solid why, its performance is basically the same. This unspecified immediate response is triggered mainly by a series of endogenous inflammatory mediators. In previous experiments, we have repeatedly demonstrated that the gyromagnetic field has a dramatic effect on controlling inflammation with six inflammatory models. This article attempts to explore whether this anti-inflammatory (swelling and pain-relieving) effect is related to the potency of inflammatory mediators and further Valuation Our proposed magnetic field has the concept of reducing tissue reactivity. MATERIALS AND METHODS: Experiments were conducted in rats. Four inflammatory mediators that promote both exudative and potent pain were injected subcutaneously on both sides of the foot. The doses were both 0.1 ml. One side was treated with magnetic treatment and the other side was treated with Drainage volume method for the determination of different