介绍了一种新型的多功能药物离子导入仪及其软、硬件设计。
This paper introduces a new multi functional medicine inductive therapeutical instrument, and gives the design of its hardware and software.
目的:设计实现药物离子导入和干扰电多功能治疗仪的电路。
Objective to design the circuit used in drug-iontophoresis and interference electric current therapy, which is a multi-functional apparatus.
目的研究超声药物离子导入结合半导体激光治疗慢性盆腔炎的效果。
ObjectiveTo study the effect of ultrasound transdermal drug delivery combining with semiconductor laser on chronic pelvic inflammation disease(CPID).
目的观察直流电药物离子导入联合超短波治疗颈椎病源性心律失常的疗效。
ObjectiveTo observe the curative effect of galvanoiontophoresis combined with ultrashort wave therapy on cervical vertebrae disease-derived arrhythmia.
但总的来说,药物经皮离子导入技术还是安全、有效的,适用于局部和全身性治疗。
But generally speaking, ion import technology of percutaneous administration was safe and effective, suitable for local and systematic treatment.
结论:直流电药物离子透入疗法,药物离子的导入量随机体离子浓度的增加而减少。
Conclusion: DC electric ions penetrating therapy, the pharmaceutical ions transmission quantity decreased as the density of organism ions increased.
结果推拿整脊手法调整平衡中药离子导入治疗组效果优于非甾体抗炎药物治疗组,统计学处理有明显差异(P<0.01)。
Result The effect of manipulation treatment was better than that of non steroid anti inflammatory drug treatment, there were significant different between two group(P< 0.01).
它可以是特别有用的药物释放的应用,如在离子导入设备。
It can be particularly useful in drug delivery applications such as in iontophoresis devices.
应用离子淌度-孔模型研究了药物物化性质与离子导入的关系。
The quantitative relationship between physicochemical properties and transdermal flux of drug iontophoresis was studied using an ionic mobility pore model.
直流电导入药物离子,可以解决口服和注射药物难以到达的组织部位以及剂量不足的问题。
The drug ion is infused to tissue part by adding direct current bias to overcome the difficulty in achieving the deep tissue part of the oral and injected drugs.
目的研究电穿孔及离子导入时电场方向对分子型药物咖啡因经皮渗透的影响。
Objective to study the effect of electric field direction on the percutaneous penetration of the non-ionic drug caffeine mediated by skin electroporation and iontophoresis.
结论:离子导入可以显著提高药物渗透速率,增渗倍数(ER)随着电流强度的增加而增加,但与药物浓度无关。
CONCLUSION: Iontophoresis increased the flux of drug obviously. The enhancing rate (ER) correlated closely to the current intensity, but had is no relationship with drug concentration.
结论:离子导入可以显著提高药物渗透速率,增渗倍数(ER)随着电流强度的增加而增加,但与药物浓度无关。
CONCLUSION: Iontophoresis increased the flux of drug obviously. The enhancing rate (ER) correlated closely to the current intensity, but had is no relationship with drug concentration.
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