电化学疗法与猪皮肤光学、力学和声学阻抗特性的关联
Association of Electrochemical Therapy With Optical, Mechanical, and Acoustic Impedance Properties of Porcine Skin.
作者信息
Moy Wesley J, Su Erica, Chen Jason J, Oh Connie, Jing Joe C, Qu Yueqiao, He Youmin, Chen Zhongping, Wong Brian J F
机构信息
Beckman Laser Institute and Medical Clinic, University of California, Irvine.
Department of Biomedical Engineering, University of California, Irvine.
出版信息
JAMA Facial Plast Surg. 2017 Dec 1;19(6):502-509. doi: 10.1001/jamafacial.2017.0341.
IMPORTANCE
The classic management of burn scars and other injuries to the skin has largely relied on soft-tissue transfer to resurface damaged tissue with local tissue transfer or skin graft placement. In situ generation of electrochemical reactions using needle electrodes and an application of current may be a new approach to treat scars and skin.
OBJECTIVE
To examine the changes in optical, mechanical, and acoustic impedance properties in porcine skin after electrochemical therapy.
DESIGN, SETTING, AND PARTICIPANTS: This preclinical pilot study, performed from August 1, 2015, to November 1, 2016, investigated the effects of localized pH-driven electrochemical therapy of ex vivo porcine skin using 24 skin samples. Platinum-plated needle electrodes were inserted into fresh porcine skin samples. A DC power supply provided a voltage of 4 to 5 V with a 3-minute application time. Specimens were analyzed using optical coherence tomography, optical coherence elastography, and ultrasonography. Ultrasonography was performed under 3 conditions (n = 2 per condition), optical coherence tomography was performed under 2 conditions (n = 2 per condition), and optical coherence elastography was performed under 2 conditions (n = 2 per condition). The remaining samples were used for the positive and negative control groups (n = 10).
EXPOSURES
Platinum-plated needle electrodes were inserted into fresh porcine skin samples. A DC power supply provided a voltage of 4 to 5 V with a 3-minute application.
MAIN OUTCOMES AND MEASURES
Tissue softening was observed at the anode and cathode sites as a result of electrochemical modification. Volumetric changes were noted using each optical and acoustic technique.
RESULTS
A total of 24 ex vivo porcine skin samples were used for this pilot study. Optical coherence tomography measured spatial distribution of superficial tissue changes around each electrode site. At 4 V for 3 minutes, a total volumetric effect of 0.47 mm3 was found at the anode site and 0.51 mm3 at the cathode site. For 5 V for 3 minutes, a total volumetric effect of 0.85 mm3 was found at the anode site and 1.05 mm3 at the cathode site.
CONCLUSIONS AND RELEVANCE
Electrochemical therapy is a low-cost technique that is on par with the costs of suture and scalpel. The use of electrochemical therapy to create mechanical and physiologic changes in tissue has the potential to locally remodel the soft-tissue matrix, which ultimately may lead to an inexpensive scar treatment or skin rejuvenation therapy.
LEVEL OF EVIDENCE
NA.
重要性
烧伤瘢痕及其他皮肤损伤的传统治疗方法主要依靠软组织转移,通过局部组织转移或植皮来覆盖受损组织。使用针电极原位产生电化学反应并施加电流可能是一种治疗瘢痕和皮肤的新方法。
目的
研究电化学治疗后猪皮肤光学、力学和声学阻抗特性的变化。
设计、地点和参与者:这项临床前初步研究于2015年8月1日至2016年11月1日进行,使用24个皮肤样本研究离体猪皮肤局部pH驱动的电化学治疗效果。将镀铂针电极插入新鲜猪皮肤样本中。直流电源提供4至5V的电压,施加时间为3分钟。使用光学相干断层扫描、光学相干弹性成像和超声检查对样本进行分析。超声检查在3种条件下进行(每种条件n = 2),光学相干断层扫描在2种条件下进行(每种条件n = 2),光学相干弹性成像在2种条件下进行(每种条件n = 2)。其余样本用于阳性和阴性对照组(n = 10)。
暴露因素
将镀铂针电极插入新鲜猪皮肤样本中。直流电源提供4至5V的电压,施加3分钟。
主要结局和测量指标
由于电化学修饰,在阳极和阴极部位观察到组织软化。使用每种光学和声学技术记录体积变化。
结果
本初步研究共使用了24个离体猪皮肤样本。光学相干断层扫描测量了每个电极部位周围浅表组织变化的空间分布。在4V下施加3分钟时,阳极部位的总体积效应为0.47mm³,阴极部位为0.51mm³。在5V下施加3分钟时,阳极部位的总体积效应为0.85mm³,阴极部位为1.05mm³。
结论及相关性
电化学治疗是一种低成本技术,与缝线和手术刀的成本相当。使用电化学治疗在组织中产生机械和生理变化有可能局部重塑软组织基质,最终可能导致一种廉价的瘢痕治疗或皮肤年轻化疗法。
证据水平
无。
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