首页> 外文会议>ASME summer bioengineering conference;SBC2010 >THE GEOMETRY OF CONNECTIVE TISSUE PLANES ACCENTUATES THE BIOPHYSICAL RESPONSE TO TRADITIONAL ACUPUNCTURE: AN IN VITRO STUDY

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THE GEOMETRY OF CONNECTIVE TISSUE PLANES ACCENTUATES THE BIOPHYSICAL RESPONSE TO TRADITIONAL ACUPUNCTURE: AN IN VITRO STUDY

机译：结缔组织平面的几何形状增强了对传统针灸的生物物理反应：一项体外研究

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In traditional acupuncture, fine needles are inserted and rotated at defined points that correspond to specific therapeutic effects, which can occur locally or at a distance from the needling point. The majority of acupuncture points co-align with fascial planes under the skin, which present more subcutaneous loose connective tissue [1] (Fig 1 -black dot). Needle rotation induces this connective tissue specifically to couple to and wind around the needle, forming a whorl of alignment and generating measurable force on the needle that is significantly higher at fascial planes in comparison to insertion above a muscle (Fig 1A - black dot) [2, 3]. At these planes, the loose connective tissue is bounded on two sides by skeletal muscle and generally becomes narrower with increasing depth, presenting distinct geometry and boundary conditions compared to locations above a muscle, which resembles an infinite plane (Fig 1B&C).

机译：在传统的针灸中，细针被插入并在与特定治疗效果相对应的定义点旋转，这些特定效果可能会局部出现或与针刺点有一定距离。大多数针刺点与皮肤下的筋膜平面对齐，从而呈现出更多的皮下疏松结缔组织[1]（图1-黑点）。针头旋转会导致该结缔组织专门与针头耦合并围绕针头缠绕，从而形成对齐螺纹并在针头上产生可测量的力，与在肌肉上方插入相比，该力在筋膜平面上明显更高（图1A-黑点）[ 2、3]。在这些平面上，疏松的结缔组织在两侧被骨骼肌界定，并且通常随着深度的增加而变窄，与类似于无限平面的肌肉上方的位置相比，呈现出独特的几何形状和边界条件（图1B＆C）。

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《ASME summer bioengineering conference;SBC2010》|2010年|p.777-778|共2页
会议地点 Naples FL(US);Naples FL(US)
作者
Margaret Julias; Helen M. Buettner; David I. Shreiber;
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Department of Chemical Biochemical Engineering Rutgers, The State University of New Jersey, Piscataway, NJ, USA;

Department of Chemical Biochemical Engineering Rutgers, The State University of New Jersey, Piscataway, NJ, USA Department of Biomedical Engineering Rutgers, The State University of New Jersey, Piscataway, NJ, USA;

Department of Biomedical Engineering Rutgers, The State University of New Jersey, Piscataway, NJ, USA;

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正文语种 eng
中图分类人体工程学;
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专利

1. Varying assay geometry to emulate connective tissue planes in an in vitro model of acupuncture needling. [J] . Julias M, Buettner HM, Shreiber DI The anatomical record: advances in integrative anatomy and evolutionary biology . 2011,第2期

机译：在体外针灸针刺模型中，改变检测几何形状以模拟结缔组织平面。
2. Anisotropic tissue motion induced by acupuncture needling along Intermuscular connective tissue planes [J] . FoxJ.R., GrayW., KoptiuchC., The journal of alternative and complementary medicine: research on paradigm, practice, and policy . 2014,第4期

机译：针刺沿着肌间结缔组织平面引起的各向异性组织运动
3. Electrical impedance along connective tissue planes associated with acupuncture meridians [J] . Andrew C Ahn, Junru Wu, Gary J Badger, BMC Complementary and Alternative Medicine . 2005,第1期

机译：沿着与经络相关的结缔组织平面的电阻抗
4. THE GEOMETRY OF CONNECTIVE TISSUE PLANES ACCENTUATES THE BIOPHYSICAL RESPONSE TO TRADITIONAL ACUPUNCTURE: AN IN VITRO STUDY [C] . Margaret Julias, Helen M. Buettner, David I. Shreiber ASME Bioengineering Conference . 2010

机译：结缔组织平面的几何形状突出了对传统针灸的生物物理反应：体外研究
5. An in vitro assay for acupuncture: Effects of gel composition, properties, and geometry on the alignment response. [D] . Julias, Margaret. 2010

机译：针刺的体外测定：凝胶成分，性质和几何形状对对准反应的影响。
6. Varying assay geometry to emulate connective tissue planes in an in vitro model of acupuncture needling [O] . Margaret Julias, Helen M. Buettner, David I. Shreiber -1

机译：变化的测定几何仿效在针刺的针刺的体外模型结缔组织平面
7. Varying Assay Geometry to Emulate Connective Tissue Planes in an In Vitro Model of Acupuncture Needling [O] . Margaret Julias, Helen M. Buettner, David I. Shreiber 2010

机译：不同的测定几何形状，以模拟针刺针刺的体外模型中的结缔组织平面

THE GEOMETRY OF CONNECTIVE TISSUE PLANES ACCENTUATES THE BIOPHYSICAL RESPONSE TO TRADITIONAL ACUPUNCTURE: AN IN VITRO STUDY

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