Nanosecond electric pulses modulate skeletal muscle calcium dynamics and contraction

机译：纳秒级的电脉冲调节骨骼肌钙动力学和收缩

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Irreversible electroporation therapy is utilized to remove cancerous tissues thru the delivery of rapid (250Hz) and high voltage (V) (l,500V/cm) electric pulses across microsecond durations. Clinical research demonstrated that bipolar (BP) high voltage microsecond pulses opposed to monophasic waveforms relieve muscle contraction during electroporation treatment. Our group along with others discovered that nanosecond electric pulses (nsEP) can activate second messenger cascades, induce cytoskeletal rearrangement, and depending on the nsEP duration and frequency, initiate apoptotic pathways. Of high interest across in vivo and in vitro applications, is how nsEP affects muscle physiology, and if nuances exist in comparison to longer duration electroporation applications. To this end, we exposed mature skeletal muscle cells to monopolar (MP) and BP nsEP stimulation across a wide range of electric field amplitudes (1-20 kV/cm). From live confocal microscopy, we simultaneously monitored intracellular calcium dynamics along with nsEP-induced muscle movement on a single cell level. In addition, we also evaluated membrane permeability with Yo-PRO®-l and Propidium Iodide (PI) across various nsEP parameters. The results from our findings suggest that skeletal muscle calcium dynamics, and nsEP-induced contraction exhibit exclusive responses to both MP and BP nsEP exposure. Overall the results suggest in vivo nsEP application may elicit unique physiology and field applications compared to longer pulse duration electroporation.

机译：利用不可逆的电穿孔疗法，通过微秒持续时间的快速（250Hz）和高压（V）（1,500V / cm）电脉冲的输送来去除癌组织。临床研究表明，与单相波形相反的双极（BP）高压微秒脉冲可缓解电穿孔治疗期间的肌肉收缩。我们的小组与其他人一起发现，纳秒电脉冲（nsEP）可以激活第二信使级联反应，诱导细胞骨架重排，并根据nsEP持续时间和频率，启动凋亡途径。在体内和体外应用中，nsEP如何影响肌肉生理学以及与更长持续时间的电穿孔应用相比是否存在细微差别，引起了人们的极大关注。为此，我们将成熟的骨骼肌细胞在很宽的电场幅度（1-20 kV / cm）范围内暴露于单极（MP）和BP nsEP刺激下。通过实时共聚焦显微镜，我们可以在单个细胞水平上同时监测细胞内钙动力学以及nsEP诱导的肌肉运动。此外，我们还通过Yo-PRO®-1和碘化丙啶（PI）在各种nsEP参数之间评估了膜的渗透性。我们发现的结果表明，骨骼肌钙动力学和nsEP诱导的收缩表现出对MP和BP nsEP暴露的排他性反应。总体而言，结果表明与更长的脉冲持续时间电穿孔相比，体内nsEP的应用可能会引发独特的生理和现场应用。

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《Energy-based treatment of tissue and assessment IX》|2017年|100660X.1-100660X.9|共9页
会议地点 San Francisco(US)
作者
Chris Valdez; Michael B. Jirjis; Caleb C. Roth; Ronald A. Barnes Jr; Bennett L Ibey;
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作者单位

National Research Council Research Associateship Program, Air Force Research Laboratory, 4141 Petroleum Road, JBSA Fort Sam Houston, Texas, United States of America 78234;

Radio Frequency Bioeffects Branch, Bioeffects Division, Airman Systems Directorate, 711th Human Performance Wing, Air Force Research Laboratory, 4141 Petroleum Road, JBSA Fort Sam Houston, Texas, United States of America 78234;

Radio Frequency Bioeffects Branch, Bioeffects Division, Airman Systems Directorate, 711th Human Performance Wing, Air Force Research Laboratory, 4141 Petroleum Road, JBSA Fort Sam Houston, Texas, United States of America 78234;

Radio Frequency Bioeffects Branch, Bioeffects Division, Airman Systems Directorate, 711th Human Performance Wing, Air Force Research Laboratory, 4141 Petroleum Road, JBSA Fort Sam Houston, Texas, United States of America 78234;

Radio Frequency Bioeffects Branch, Bioeffects Division, Airman Systems Directorate, 711th Human Performance Wing, Air Force Research Laboratory, 4141 Petroleum Road, JBSA Fort Sam Houston, Texas, United States of America 78234;

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正文语种 eng
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关键词
C2C12; nanosecond electric pulses; calcium; nanoporation; skeletal muscle;

机译：C2C12；纳秒电脉冲；钙;纳米穿孔骨骼肌;

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专利

1. Impact of phase difference between cardiac systole and skeletal muscle contraction on hemodynamic response during electrically-induced muscle contractions [J] . Kimura T., Kameda N., Moritani T. Journal of electromyography and kinesiology: Official journal of the International Society of Electrophysiological Kinesiology . 2010,第4期

机译：心脏收缩和骨骼肌收缩之间的相位差对电诱发的肌肉收缩过程中血液动力学反应的影响
2. Calcium-independent disruption of microtubule dynamics by nanosecond pulsed electric fields in U87 human glioblastoma cells [J] . Lynn Carr, Sylvia M. Bardet, Ryan C. Burke, Scientific reports. . 2017,第1期

机译：U87人胶质母细胞瘤细胞中纳秒脉冲电场的微管动态的钙无关中断
3. S100A1 modulates skeletal muscle contraction by desensitizing calcium activation of isometric tension, stiffness and ATPase [J] . Adhikari Bishow B, Wang Kuan FEBS Letters . 2001,第2a3期

机译：S100A1通过使等轴测张力，刚度和ATPase的钙激活脱敏来调节骨骼肌收缩
4. Nanosecond electric pulses modulate skeletal muscle calcium dynamics and contraction [C] . Chris Valdez, Michael B. Jirjis, Caleb C. Roth, Conference on energy-based treatment of tissue and assessment IX . 2017

机译：纳秒电脉冲调节骨骼肌钙动力学和收缩
5. Dynamical studies of model membrane and cellular response to nanosecond, high-intensity pulsed electric fields. [D] . Hu, Qin. 2004

机译：模型膜和细胞对纳秒高强度脉冲电场响应的动力学研究。
6. Calcium-independent disruption of microtubule dynamics by nanosecond pulsed electric fields in U87 human glioblastoma cells [O] . Lynn Carr, Sylvia M. Bardet, Ryan C. Burke, -1

机译：U87人胶质母细胞瘤细胞中纳秒脉冲电场的钙非依赖性微管动力学破坏。
7. Calcium-independent disruption of microtubule dynamics by nanosecond pulsed electric fields in U87 human glioblastoma cells [O] . Carr, Lynn, Bardet, Sylvia,, Burke, Ryan, 2017

机译：U87人胶质母细胞瘤细胞纳秒脉冲电场不依赖于钙的微管动力学破坏

Nanosecond electric pulses modulate skeletal muscle calcium dynamics and contraction

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