自由基清除剂对暴露于治疗性超声时离子电导变化的影响。

M A Adinno, A M al-Karmi, D A Stoltz, J C Matthews, L A Crum
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引用次数: 19

摘要

超声用于物理治疗已有40多年的历史。最近的研究表明,所观察到的效应涉及非热机制,如空化。自由基和其他高活性化合物在声空化相关的声化学反应中形成。使用青蛙皮肤作为生物模型,研究了暴露于治疗性超声时离子电导(Gt)增加的可能性是由于声化学反应产生的自由基的影响。研究发现,半胱胺、半胱胺和抗坏血酸钠的存在显著降低了暴露于300 mW/cm2 (1 MHz连续波)治疗性超声所引起的电导增加。影响的衰减取决于所使用的自由基清除剂/抗氧化剂的浓度、培养时间和超声强度。这种影响还取决于自由基清除剂/抗氧化剂的脂溶性。超声波暴露后,在自由基清除剂和抗氧化剂存在下,Gt恢复过程的时间常数与对照组无显著差异。这些结果表明,超声引起的Gt增加是由声空化产生的自由基和其他反应物质引起的。这项研究为自由基在细胞内产生和作用的可能性提供了间接证据。此外,所使用的自由基清除剂和抗氧化剂提供了对氧化损伤的保护,而不参与超声波后Gt向稳态值的恢复。
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Effect of free radical scavengers on changes in ion conductance during exposure to therapeutic ultrasound.

Ultrasound has been used in physical therapy for > 4 decades. Recent studies indicate that non-thermal mechanisms such as cavitation are involved in the observed effects. Free radicals and other highly reactive compounds are known to form during sonochemical reactions associated with acoustic cavitation. Using frog skin as a biological model, the possibility that the increase in ionic conductance (Gt) upon exposure to therapeutic ultrasound is due to the effect of free radicals generated by sonochemical reactions, was investigated. It was found that the presence of cystamine, cysteamine and sodium ascorbate significantly reduced the increase in conductance caused by the exposure to 300 mW/cm2 (1 MHz CW) therapeutic ultrasound. The attenuation in the effects was dependent on the concentration of the radical scavengers/antioxidants used, the incubation time, and the intensity of ultrasound. The effects were also dependent on the lipid solubility of free radical scavengers/antioxidants. The time constant for the recovery process of Gt in the presence of free radical scavengers and antioxidants after exposure to ultrasound was found to be not significantly different from control. These results suggest that the increase in Gt due to ultrasound is induced by free radicals and other reactive species generated from acoustic cavitation. This study provides an indirect evidence to the contingent that free radicals are generated and act inside the cells. Furthermore, the radical scavengers and antioxidants used provide protection from oxidative damage without being involved in the recovery of Gt towards steady state values after sonication.

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