Physiology and cell biology of acupuncture observed in calcium signaling activated by acoustic shear wave

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• 作者：Geng Li (1)
  Jie-Ming Liang (2)
  Pei-Wen Li (4)
  Xiaoqiang Yao (5)
  Peter Zhong Pei (6)
  Wei Li (6)
  Qi-Hua He (7)
  Xifei Yang (8)
  Queenie C. C. Chan (9)
  Paul Y. S. Cheung (3)
  Qi Yuan Ma (1)
  Siu Kam Lam (3)
  Patrick Y. C. Cheng (3)
  Edward S. Yang (1) (10) (3) (4)
  
• 关键词：Acupuncture ; Acoustic wave ; MRE ; Ca2+ ion channel ; Human ; Mice ; Fibroblast ; Endothelial cells
• 刊名：Pfl眉gers Archiv - European Journal of Physiology
• 出版年：2011
• 出版时间：October 2011
• 年：2011
• 卷：462
• 期：4
• 页码：587-597
• 全文大小：697KB
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• 作者单位：Geng Li (1)
  Jie-Ming Liang (2)
  Pei-Wen Li (4)
  Xiaoqiang Yao (5)
  Peter Zhong Pei (6)
  Wei Li (6)
  Qi-Hua He (7)
  Xifei Yang (8)
  Queenie C. C. Chan (9)
  Paul Y. S. Cheung (3)
  Qi Yuan Ma (1)
  Siu Kam Lam (3)
  Patrick Y. C. Cheng (3)
  Edward S. Yang (1) (10) (3) (4)
  
  1. Time Medical Systems, No. 2, Science Park West Avenue, Hong Kong, China
  2. Biomedical Engineering, The University of Hong Kong, Hong Kong, China
  4. EE Department, National Central University, Chungli, Taiwan
  5. School of Biomedical Sciences, Chinese University of Hong Kong, Hong Kong, China
  6. Department Neurology, The First Affiliated Hospital of Sun Yat-Sen University, Guangzhou, China
  7. Health Science Center, Peking University, Beijing, China
  8. Shenzhen Center for Disease Control and Prevention, Shenzhen, China
  9. Philips Electronics HK Ltd, Science Park, Hong Kong, China
  3. The University of Hong Kong, Hong Kong, China
  10. Columbia University, New York, NY, USA
  
• ISSN：1432-2013

文摘

This article presents a novel model of acupuncture physiology based on cellular calcium activation by an acoustic shear wave (ASW) generated by the mechanical movement of the needle. An acupuncture needle was driven by a piezoelectric transducer at 100?Hz or below, and the ASW in human calf was imaged by magnetic resonance elastography. At the cell level, the ASW activated intracellular Ca2+ transients and oscillations in fibroblasts and endothelial, ventricular myocytes and neuronal PC-12 cells along with frequency–amplitude tuning and memory capabilities. Monitoring in vivo mammalian experiments with ASW, enhancement of endorphin in blood plasma and blocking by Gd3+ were observed; and increased Ca2+ fluorescence in mouse hind leg muscle was imaged by two-photon microscopy. In contrast with traditional acupuncture models, the signal source is derived from the total acoustic energy. ASW signaling makes use of the anisotropy of elasticity of tissues as its waveguides for transmission and that cell activation is not based on the nervous system.