Computational and Structural Biotechnology Journal (Jan 2021)

Spatial topological analysis of sympathetic neurovascular characteristic of acupoints in Ren meridian using advanced tissue-clearing and near infrared II imaging

  • Wei Hu,
  • Junda Chen,
  • Caixia Sun,
  • Xiaoyu Tong,
  • Wenhan Lu,
  • Ziyong Ju,
  • Yong Xia,
  • Zhenle Pei,
  • Mingzhen Xu,
  • Xiaoqing Xu,
  • Jiemei Shi,
  • Yi Li,
  • Haofeng Chen,
  • Yizhou Lu,
  • Ying Ying,
  • Hongru Gao,
  • Aaron J.W. Hsueh,
  • Fan Zhang,
  • Zhi Lü,
  • Yi Feng

Journal volume & issue
Vol. 19
pp. 2236 – 2245

Abstract

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Acupuncture has been used for treating various medical conditions in traditional Chinese medicine. Both manual and electro-acupuncture stimulate specific acupoints to obtain local and systemic biological effects, but the underlying mechanisms remain unclear. Here, we used three-dimensional tissue-clearing technology to study acupoints on the Ren meridian of mice to reveal the distribution, density, branching, and relationships between blood vessels and nerves. Using topological Mapper methods, we found that sympathetic neurovascular networks were denser in the CV 4 acupoint compared with surrounding non-acupoints. Furthermore, high resolution in vivo real-time vascular imaging using the near infrared-II probe LZ-1105 demonstrated increased blood flow in the CV 4 acupoint compared with neighboring non-acupoints after manual or electro-acupuncture. Consistent with earlier findings, our research indicated that acupuncture could enhance local blood flow, and our high-resolution 3D images show for the first time the important role of sympathetic neurovascular networks in the CV 4 acupoint.

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