van Wijk Roeland, van der Greef Jan, van Wijk Eduard
Meluna Research, Amersfoort, The Netherlands.
J Acupunct Meridian Stud. 2010 Dec;3(4):221-31. doi: 10.1016/S2005-2901(10)60041-6.
The relationship between connective tissue and meridian function is discussed in terms of energy transmission. The network of hydrogen-bonded water molecules interspersed within the collagen fibrillar matrix is especially significant for both the sensitivity of connective tissue to weak signals of mechanical pressure, heat, or electricity and the electrical intercommunication that may correlate with the meridian acupuncture system. Special electromagnetic properties of connective tissue have similar collective properties of ultraweak photon emission. A relationship between ultraweak photon emission and yin yang dynamics is based on three types of ultraweak photon emission studies, focusing on diurnal and annual dynamics, diseased states, and acupuncture points. A novel concept explains the functional (health) integrity of physiologic systems in relation to the left-right balance in ultraweak photon emission by pointing to, (1) balanced corticoneuromusculoskeletal activities and triboluminescent aspects of ultraweak photon emission by skeletal structures, and (2) local fine-tuning in oxygen supply and the formation of radical oxygen species. This approach offers testable hypotheses for further validation utilizing a combination of human photon recording techniques and specialized metabolomics for the estimation of organ-specific oxidative states.
从能量传递的角度探讨了结缔组织与经络功能之间的关系。散布在胶原纤维基质中的氢键结合水分子网络,对于结缔组织对机械压力、热或电的微弱信号的敏感性以及可能与经络针灸系统相关的电相互通信而言都尤为重要。结缔组织的特殊电磁特性具有与超微弱光子发射相似的集体特性。基于对昼夜和年度动态、疾病状态以及穴位的三类超微弱光子发射研究,超微弱光子发射与阴阳动态之间存在一种关系。一个新颖的概念通过指出以下两点来解释生理系统的功能(健康)完整性与超微弱光子发射中的左右平衡的关系:(1)皮质神经肌肉骨骼活动的平衡以及骨骼结构超微弱光子发射的摩擦发光方面;(2)氧气供应的局部微调以及活性氧的形成。这种方法为利用人类光子记录技术和专门的代谢组学相结合来估计器官特异性氧化状态以进行进一步验证提供了可检验的假设。
