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Graphical abstract
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Abbreviations
11C β-CFT, [(2β-carbomethoxy-3β- (4-fluorophenyl) tropane); 2-DE, two-dimensional electrophoresis; aCGH BOLD, array comparative genomic hybridization blood oxygenation level-dependent; CR, Carrageenan; CypA, cyclophilin A; DAT, dopamine transporter; dmPFC, dorsomedial prefrontal cortex; EA, electro-acupuncture; FD, functional dyspepsia; fMRI GV, functional magnetic resonance Governor vessel; HDL, high-density lipoprotein; HPSLs, high percussion sound lines; IGF-1, growth factor-1; IL-6, interleukin-6; JOGL, Java Bindings for OpenGL; LDL/VLDL, (very) low-density lipoprotein; LILs, low impedance lines; MALDI-TOF/TOF MS, matrix-assisted laser desorption/ionization time of flight mass spectrometry; MC4-R, melanocortin 4 receptor; MFB, medial forebrain bundle; MPTP, 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine; MS, mass spectrometry; NGF, nerve growth factor; NMR, nuclear magnetic resonance; PD, Parkinson's Disease; PET, positron emission tomography; PMS, propagated meridian sensations; PSC, propagated sensations along channels; PVS, perivascular space; RCTs, randomized controlled trial; RQLQ, Rhinoconjunctivitis Quality of Life Questionnaire; RT-qPCR, Real-Time quantitative Polymerase Chain Reaction; SAMP8,, senescence-accelerated mouse P8 strain; SCI, spinal cord injury; TCM, Traditional Chinese Medicine; TIMP-1, tissue inhibitor of metalloproteinase; VCH, visible Chinese human
Keywords
Acupuncture-moxibustion; Meridian system; Acupoints; Omics; Systems biology
1. Introduction and ‘pre–Omics’ knowledge of the nature of meridians and acupoints
Acupuncture which originated in China has been used as a therapeutic intervention for the treatment of various diseases and symptoms for more than 2500 years. The ancient texts have informed the knowledge basis for acupuncture today (Kaptchuk, 1983, Unschuld, 1986, Unschuld, 1990 and Sivin, 2000). Acupuncture has been practiced in many Asian and western countries and a diverse variety of conceptual models and styles of clinical practice and techniques have developed (Robinson et al., 2012; in this special issue). According to Traditional Chinese Medicine (TCM) theory, Qi (which is also referred as the vital life force), flows along the networks, paths or channels in the human body. A series of acupoints occur along each path, forming meridian systems, which relate in part to the function of internal organs and their physiological or pathological conditions. By stimulating the acupoints with needles (with or without penetration of the subcutaneous tissues), the regulation of organ or body functional states can be achieved by altering the flow of Qi in the meridian system. Both in the classics and in contemporary TCM practice, the imbalance of Yin-Yang in the circulation of Qi is believed to be the ultimate cause of disease, therefore, acupuncture treatments at selective points will be able to restore the body homeostasis and alleviate symptoms.

As an important part of TCM, the meridian system has been documented, described and characterized since ancient times (Lu and Needham, 1980, Kaptchuk, 1983, Unschuld, 1986 and Unschuld, 2003). Various symptoms and conditions have been treated in clinical practice according to these theories. However, the search for anatomical proof of the existence of meridians with modern biology and Western medical systems has been problematic (Ma et al., 2003). The meridian network does not fit into the patterns of blood vessels, nerves, lymph ducts or any other known structures in human anatomy. More recently, a number of anatomical or structural phenomena have been proposed to explain meridians. Helms (1999) described the tendino-muscular meridians, as a system of superficial meridians located between the organism and the external environment. Electrodermal screening employing measurement of the skin resistance at different locations has been used in several studies to determine the meridian paths and hence guide treatment (Reichmanis et al., 1975 and Voll, 1975). Thermal imaging has also been utilized to evaluate acupuncture responses and has attempted to provide evidence for the existence of meridians (Yang et al., 2007). Kim Bong-Han identified the primo-nodes (Bonghan corpuscles) in rabbits in 1963 (Han, 1964 and Han, 1966). However, the existence of these duct-like structures could not be verified by Chinese scientists (Li, 2001). Primo-vessels remain controversial and lacking general acceptance, in addition their relationship to the meridians has not been proven (Soh, 2009). None of the discoveries or theories so far have confirmed traditional acupuncture's well-coordinated meridian map or been able to convincingly interpret the meridian phenomena. This is perhaps not surprising: meridians and points are Qi phenomena and there is as yet no rationale for believing that they can be measured using the tools of Western science (Birch and Felt, 1999).

More recently, modern physiologists have suggested the “neural hypothesis” indicating that the influence of acupuncture can be transmitted through stimulation of sensory nerves that send signals to the brain, which leads to clinical changes (Longhurst, 2010). The concepts of meridians and acupoints, which closely relates to clinical principles, practical protocols and long-standing empirical experience still needs to be clarified.

1.1. The current advances and understanding of the meridian phenomena

Although the physical evidence for the existence of meridians has not been identified after years of investigation, it appears that some meridian phenomena can be demonstrated, especially with modern technologies (Wang et al., 2010). For example, in studies on a number of skin diseases, the migration of radioactive isotopes and the propagated meridian sensations (PMS) correlate well with the documented meridian systems, providing good evidence for their existence (Li, 1980, Meng et al., 1989 and Hu and Cheng, 1997).

In the 1970s, propagated sensations along channels (PSC) as a representative meridian phenomenon have been investigated in over 100,000 people in China (Wang et al., 2010). These studies concluded that approximately 0.3% of people exhibited PSC. However, such propagated sensation appeared to be a subjective feeling, which must therefore be associated with the central nervous system, particularly the sensory cortex. This has led some researchers to believe that PSCs can be defined as an expanding excitation occurring within the sensory cortex (Xue, 1988). If this is the case, it could not account for why propagated sensations involve comprehensive reactions in the skin, blood vessels and nerves.

Recent studies have found suggestive, but not conclusive, evidence that meridians exhibit increased capacitance and decreased electrical impedance compared to adjacent body parts (Ahn et al., 2008). In addition these low impedance areas correlate with the existence of subcutaneous collagenous bands, detectable by ultrasound echogenicity (Ahn et al., 2010). These studies emphasized the electrical impedance of certain acupoints in association with the connective tissues, but may not apply to the entire meridian systems, which lies in both subcutaneous and inter-muscular tissues. Networks of collagen fibres have also been proposed as a possible mechanical transduction and signaling system for acupuncture-related effects (Langevin et al., 2007).

Another hypothesis is that the meridians are the trace marks of embryological development or the evolutional remains of the central nervous system but this is too hypothetical to be tested with scientific experiments (Shang, 2001 and Lee, 2002). Further efforts or novel ideas in acupuncture-related studies intended to establish theoretical principles will continue to inspire innovative therapeutic methods for the treatment of various difficult medical conditions (Lee, 2002).

In summary, the findings from these studies may provide important insights into the nature of acupuncture and has highlighted that the underlying mechanisms are still under debate and require investigation.

1.2. Mapping of meridians and acupoints in animals

In China, acupuncture treatment for a variety of animals, including horses, cows, camels, pigs, donkeys and birds, has been historically documented. In 1836, veterinary acupuncture was first described in written records in the West (Jaggar, 1992). This was long after the 17th century when the French priests introduced acupuncture to the Europeans Therefore the western practice of veterinary acupuncture is fairly recent, and emerged in America when it was observed that acupuncture appeared to treat equine laminitis better than Western medications, with an efficacy of 90% reported (Justin and Xie, 2011). In dogs, it was used to treat dysplasia, arthritis, allergic or neuronal dermatitis, intervertebral disc syndrome, spondylitis and paralysis. Today, veterinary acupuncture is used for other small and large animals for a wide range of conditions (Habacher et al., 2006).

Veterinary acupuncture follows the same principles as that for human; however, the anatomy of humans is considerably different. There are approximately 361 meridian acupoints mapped in humans, whereas 159 have been described for use in horses (Yu and Yu, 1963) and 76 in dogs. The mapping of acupoints in animals was based on historic veterinary acupuncture literature for the classical acupoints in combination with the definition of the transpositional points projected from humans (Xie and Preast, 2007). As such, most meridians could be mapped on to various experimental mammalian animal models, including mouse, rat, rabbit, pigs, cat and dogs. It is a two-dimensional coordinate system that lacks spatial measures (Ma et al., 2003).

With the help of modern technologies, researchers have tried different approaches to identify and verify the acupoints and meridians in animals, including s