ebook img

Title Neural acupuncture unit PDF

24 Pages·2012·2.73 MB·English
by  
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview Title Neural acupuncture unit

HindawiPublishingCorporation Evidence-BasedComplementaryandAlternativeMedicine Volume2012,ArticleID429412,23pages doi:10.1155/2012/429412 Review Article Neural Acupuncture Unit: A New Concept for Interpreting Effects and Mechanisms of Acupuncture Zhang-JinZhang,1Xiao-MinWang,2andGrainneM.McAlonan3 1SchoolofChineseMedicine,LKSFacultyofMedicine,TheUniversityofHongKong,10SassoonRoad,Pokfulam,HongKong 2NationalInstituteofNursingResearch,NationalInstitutesofHealth,Bethesda,MD20892,USA 3DepartmentofForensicandNeurodevelopmentalScience,InstituteofPsychiatry,King’sCollegeLondon,London,UK CorrespondenceshouldbeaddressedtoZhang-JinZhang,[email protected] Received24September2011;Revised30November2011;Accepted1December2011 AcademicEditor:TokuTakahashi Copyright©2012Zhang-JinZhangetal. This is an open access article distributed under the Creative Commons Attribution License,whichpermitsunrestricteduse,distribution,andreproductioninanymedium,providedtheoriginalworkisproperly cited. Whenanacupunctureneedleisinsertedintoadesignatedpointonthebodyandmechanicalorelectricalstimulationisdelivered, various neural and neuroactive components are activated. The collection of the activated neural and neuroactive components distributedintheskin,muscle,andconnectivetissuessurroundingtheinsertedneedleisdefinedasaneuralacupunctureunit (NAU).ThetraditionallydefinedacupointsrepresentananatomicallandmarksystemthatindicateslocalsiteswhereNAUsmay contain relatively dense and concentrated neural and neuroactive components, upon which acupuncture stimulation would elicit a more efficient therapeutic response. The NAU-based local mechanisms of biochemical and biophysical reactions play an important role in acupuncture-induced analgesia. Different properties of NAUs are associated with different components of needling sensation. There exist several central pathways to convey NAU-induced acupuncture signals, Electroacupuncture (EA) frequency-specific neurochemical effects are related to different peripheral and central pathways transmitting afferent signals from different frequency of NAU stimulation. More widespread and intense neuroimaging responses of brain regions toacupuncturemaybeaconsequenceofmoreefficientNAUstimulationmodes.TheintroductionoftheconceptionofNAU providesanewtheoreticalapproachtointerpretingeffectsandmechanismsofacupunctureinmodernbiomedicalknowledge framework. 1.Introduction neuropsychiatric disorders [2]. Despite this, several funda- mentalissuesremainunresolvedinacupunctureresearch. Modern acupuncture can be defined as a therapeutic tech- niqueinwhichsharp,thinneedlesareinsertedintospecific 1.1. Metaphysical Concepts of Acupoint and Meridian in pointsonthebodywithmechanical,electrical,orotherphys- TCM. ThedoctrineofTCMwasoriginallydevelopedfrom icalstimulation.Thenomenclatureandlocalizationofmost elementary anatomical knowledge obtained in early days specific points, known as acupuncture points or acupoints, [4].Thisisevidencedinnumerousgrossanatomicalstudies wereestablishedintraditionalChinesemedicine(TCM)dur- with measurement and a vast number of anatomical terms ingaboutB.C.400–A.D.1740s.Overthepastfourdecades, recorded in ancient TCM bibliographies. Ancient doctors numerousclinicalobservationsandstudieshaveshownthat hadobservedperipheralnervetrunks,branches,andplexus acupuncture therapy possesses broad therapeutic benefits widely distributed in the superficial and deep tissues as [1,2].Alargebodyofexperimentalevidenceobtainedinani- well as on visceral organs, referring to as “meridians” and malsandhumansubjectsprovidesmanyinsightsintoneural “collaterals” (Jing and Luo in Chinese). They believed that mechanisms of acupuncture effects, in particular acupunc- the meridians with the collaterals constitute an extensive ture analgesia [3]. Today, this ancient healing technique is network that communicates all parts of the body via the increasinglyintroducedintoclinicalpractice,particularlyfor meridianenergy(Jing-QiinChinese).Themeridianenergy 2 Evidence-BasedComplementaryandAlternativeMedicine can flow onto specific loci, termed “convergences” or “con- an alternative concept that substantially differentiates from junctions”inancienttermsand“acupoints”today.Thedoc- the metaphysical concept of acupoint. Such concept would trine of TCM clearly states that acupoints are not the skin, provideamoreaccuratetermandanewtheoreticalapproach muscles, connective tissues, or bones, but local sites where tointerpretingeffectsandmechanismsofacupuncture. the meridian energy effuses onto the superficial tissues and infusesintothedeeptissuesandvisceralorgans[4]. 2.TheDefinitionofNeuralAcupunctureUnit Ancient doctors also had observed that pathological (NAU)andItsDifferentiationfromAcupoint conditions occurred in the deep tissues and visceral organs can be manifested as pain or tender points on the body, Insertion into the skin with filiform needles is the most calledA-Shipoints.Thelocalizationsandclinicalindications commonlyusedformofacupuncturestimulationinclinical formostmeridian-basedacupointswereinitiallydeveloped practice.Whenafiliformneedleisinsertedintoadesignated fromA-Shipoints.Ancientdoctorssuggestedthatstagnation point on the body and mechanical (manual manipulation) ofthemeridianenergyisadeterminingfactorinthepatho- orelectricalstimulationisdelivered,avarietyofneuraland genesisofdiseases.Needling,moxibustion,andotherforms neuroactive components are activated. A collection of the of stimulation on acupoints were considered to improve activatedneuralandneuroactivecomponentsdistributedin pathologicalconditionsbyunblockingthestagnationofthe the skin, muscle, and connective tissues surrounding the meridian energy and rearranging the balance of Yin and inserted needle is defined as a neural acupuncture unit Yang,thatis,homeostasis. (NAU). Here, the designated points include not only the Itwouldseemthatthemetaphysicalconceptsofacupoint traditionally defined acupoints, which are often called as andmeridianrepresentanentitywithparticularanatomical meridian-based acupoints or acupoints in short, but also and physiological neural profiles. Nevertheless, how to pre- A-Shi points and control points (sometimes called non- cisely elucidate the metaphysical concepts of acupoint and acupoints or placebo points) as specifically designated in meridianintheframeworkofmodernbiomedicalknowledge acupunctureresearch. hasbeenakeyissueinacupunctureresearch. Apparently, NAU is a hypothetical concept that repre- sentslocalneuralandneuroactivecomponentsinthephys- iological,biochemical,andtherapeuticresponsetoneedling 1.2. “Specific” and “Nonspecific” Properties of Acupoints. As stimulation, rather than localization of the stimulation. On acupoints are deemed “specific” points in the doctrine of TCM, many efforts have been made to identify their “spe- theotherhand,viewedfromancientandmodernanatomical cific”properties.Potentialdifferencesbetweenthetradition- perspective[4],thetraditionallydefinedacupointscouldbe defined as an anatomical landmark system that indicates ally defined acupoints and so-called “nonacupoints” have local sites where NAUs may contain relatively dense and beenexaminedatanatomical,histological,biochemical,and concentrated neural and neuroactive components, upon electrophysiologicallevelsinbothanimalsandhumansub- whichacupuncturestimulationwouldelicitamoreefficient jects[4].Althoughearlystudiesindicatethatmostacupoints therapeutic response comparedtononacupoints. Intheory, are located on or adjacent to peripheral nerve trunks or thereareinnumerableNAUsexistinginthebodyasacupunc- branches,andthemeridianscorrespondwithtrajectoriesof tureprocedurecanbeperformedindifferentdirectionsatthe relevant peripheral nerves [4], there is no convincing evi- samepointandonmostareasofthebody,includingmyriad dencetosupporttheexistenceofnovelorspecialstructures A-Shi points and 361 WHO-defined standard acupoints beneathacupoints.However,histologicalstudiesindeedhave [6]. The pattern of NAUs varies, mainly depending upon revealed a relatively dense and concentrated distribution of designatedpointsandacupuncturestimulationmodeaswell certain neural and neuroactive components beneath many as needling direction and depth. A hypothetical NAU is acupoints commonly used in clinical practice compared to illustratedinFigure1. adjacent areas [4]. Electrophysiological studies also have shown that the skin along with acupoints and meridians may possess distinct electrical properties which are closely 3.MajorNeuralandNeuroactive associated with the activity of local neural and neuroactive ComponentsofNAUs components [5]. These results suggest the relativity of the “specific”and“nonspecific”propertiesofacupoints. 3.1.NeuralComponents. Earlystudiesinanimalsandhuman Thedefinitionandidentificationofthepatternof“spe- autopsies revealed that most acupoints contained abun- cific”and“nonspecific”neuralandneuroactivecomponents dant free nerve endings, encapsulated cutaneous receptors in the response to acupuncture stimulation would help us (Merkel,Meissner,Ruffini,andPaciniancorpuscles),sarcous betterunderstandtheessentialmechanismsofacupuncture sensoryreceptors(musclespindlesandtendonorgans),and anddevelopmoreefficientacupuncturestimulationmodes. their afferent fibers [4]. Somatic efferent fibers innervating However,themetaphysicalconceptofacupointandmeridian muscles,smallnervebundles,andplexuswerealsoobserved itselfcannotprovidesufficientinformationfordefiningand in acupoint tissues, but no novel structures were found identifyingtheresponsepattern.Interactionsbetweenneural beneathacupoints.Manyacupointsexaminedhadrelatively andneuroactivecomponentsaswellastherelationshipwith dense neural components, particularly nerves fibers, with a thelocalandcentralresponsetoacupuncturestimulationare ratio of nearly 1.4:1 compared to non-acupoint areas [7– alsonotwellelucidated.Thus,itwasnecessarytointroduce 9].Theratiooflocalmyelinatedtononmyelinatedfiberswas Evidence-BasedComplementaryandAlternativeMedicine 3 Cutaneous afferent nerve Free nerve endings Merkel disc ending Lymph vessel Meissner’s corpuscle Vein Ruffini’s corpuscle Artery and arterioles Pacinian corpuscle Nerve and branches Muscle spindles Figure1:Arepresentativemuscle-spindle-richNAUintheresponsetomanualtwistsofacupuncturestimulation.TheNAUwiththerelated neural and neuroactive components is illustrated as the dotted line-defined vase-like pattern, which is principally determined by twist- produceddifferentdistanteffectsonmechanoreceptorslocatedincutaneousandmuscletissues(seeSection5.1). found to be nearly 4-fold higher than surrounding areas in fibers(seebelow).Table1summarizesmajornon-neuronal humanZu-San-Li(ST36)[9,10].Asimilarphenomenonwas cell-released neuroactive mediators and their correspond- alsorecordedinrats,showingthatsarcoussensoryreceptors ing receptors. Based on their effects on afferent fiber andtheirafferentfibersareconcentratedatacupointslocated excitability of NAUs, the mediators can be classified as onthickmuscles[11]. inhibitoryandstimulatory.Theinhibitorymediatorsmainly AnotherimportantneuralcomponentofNAUsisdense include acetylcholine, noradrenaline (NA), γ-aminobutyric andfineautonomicnervefibers[12].Acloseapproximation acid (GABA), β-endorphin, SP, somatostatin, nitric oxide of autonomic fiber varicosities and somatic afferent fiber (NO), ATP/cGMP, and adenosine, which suppress afferent terminals is often observed in rabbit acupoint areas [12]. fiber excitability of NAUs. Most cytokines, prostaglandins, Mostautonomicnervesarenoradrenaline-(NA-)containing bradykinin, and other proinflammatory factors are stimu- sympatheticfibers,andaninteractionbetweensomaticand latory mediators that directly or indirectly enhance afferent autonomicneuralcomponentsmayservetomodulatelocal fiber excitability of NAUs. Serotonin (5-HT) and histamine andafferentsignalsinNAUs(seebelow). canexerteitherinhibitoryorstimulatoryeffects,depending uponwhichreceptorstheyacton(Figure2). 3.2.NeuroactiveComponentsandRelatedMediators. Broadly speaking,neuroactivecomponentsofNAUscanbedefinedas 4.BiochemicalReactionsofNAUs nonneuronaltissuesandcellsthatreleasevariousmediators capable of modulating afferent fiber transmission of NAUs. When an acupuncture needle is inserted into a designated point and repetitively manipulated in different directions, The most apparent neuroactive components are mast cells, it is assumed to cause local tissue injury and biochemical sympathetic nerve-rich blood vessels, and small lymphatic reactions, with the release of various inflammatory and vessels[4].Inaddition tomastcellsthatreleasemanyneu- immunemediatorsinNAUs.Nevertheless,unlikemostother roactive mediators, including histamine, substance P (SP), forms of tissue injury, acupuncture-induced tissue injury and other immune factors via a degranulation mechanism may represent a “positive” biochemical process resulting in inresponsetoacupuncturestimulation[13–15],othernon- therapeutic responses at local and systemic levels. This is neuronalcells,includingmacrophages,fibroblasts,lympho- considered due to a robust axon reflex and modulation of cytes, platelets, and keratinocytes are also involved in the modulation of local and afferent signals of NAUs. These afferentfibertransmissioninNAUs. cellsreleasevarioustransmitters,modulators,inflammatory and immune factors, which directly or indirectly act at 4.1. Acupuncture-Induced Robust Axon Reflex in NAUs. The correspondingreceptorsonthesurfaceofperipheralafferent axon reflex is a response to peripheral tissue injury, which 4 Evidence-BasedComplementaryandAlternativeMedicine Table1:Majornon-neuronalneuroactivemediatorsinvolvedinthemodulationofNAUafferentfiberexcitability. Non-neuronalcellsreleasingneuroactive ReceptorsandactionsonNAU Effects on NAU affer- Mediators Reference mediators afferentfiberterminals entfiberexcitability Serotonin(5-HT) Platelets,mastcells 5-HT receptor + [17] 3 5-HT receptor – [203] 1 Mainlyreleasedfromsympatheticnerve Noradrenaline(NA) varicosities.Epidermalcellsmaybe α Receptors – [51] 2 NA-storingcells. Keratinocytesandinjuredefferentfiber Acetylcholine MuscarinicM receptor – [204] terminals 2 Histamine Mastcells H receptor – [17] 3 H receptor + 1 Glutamate/aspartate Allskinepithelialcellsandmacrophage Autoreceptors(?) –(?) [35,36,205] γ-aminobutyricacid Macrophagesandlymphocytes GABA receptors – [206,207] (GABA) A Keratinocytes,melanocytes,dermal β-endorphin μ-opiatereceptors – [47,48,208] fibroblasts,andleukocytes Mastcells,fibroblasts,platelets, SubstanceP(SP) Autoreceptor(?) –(?) [14,37,38,46] keratinocytes,andmacrophages. Calcitonin gene-relatedpeptide Epithelialcells,Tcells,macrophages Autoreceptor(?) –(?) [39,209,210] (CGRP) Somatostatin(SS) Merkelcells,keratinocytes SSreceptors – [21,211–213] InhibitsSPreleasefromprimary NitricOxide(NO) Localtissues afferentterminalsandenhances – [50,214,215] acetylcholineandβ-endorphin. ATP/cGMP Epidermalcells P2XandP2Yreceptor – [31,214,216] DegradedfromATPreleasedinresponseto Adenosine A receptor – [31] mechanical,electrical,orheatstimulation. 1 Bradykinin Localtissuesandcells B1/2receptors + [217–219] Cytokines(IL-1β, Stimulateafferentfibersand IL-6,IL-8,and Localtissuesandcells + [217–221] augmenttheirexcitability TNF-α) Inhibitstheproductionof Cytokines(IL-4and Localtissuesandcells inflammatorypainsignalsin – [220,222] IL-10) afferentterminals Prostaglandins Localtissuesandcells EPreceptors + [221,223] aQuestionmarks(?)indicatetobedetermined. produces an impulse that moves from one nerve branch to bynervesfromtotallydifferentspinalsegments,becominga other branches in close contact with nonneural tissues, redlineaccompaniedbythepropagationoftheneedlingsen- mainlybloodvessels,sweatglands,andmastcells[16].This sation.Thisphenomenoniscalledthepropagatedsensation resultsinvasodilatationandreleaseofvascularandneuroact- alongmeridians(PSM),whichoccursin0.3%ofthehealthy ivemediatorsfromimmunecellsleakingfromdilatedvessels population[18]. [17].Itiswelldocumentedthattheaxonreflexplaysacentral The robust axon reflex of NAUs and PSM observed role in immune-nerve crosstalk, especially in neurogenic during acupuncture stimulation may be closely related to inflammation[17].Clinicalobservationshavedemonstrated dense sympathetic nerve-rich arterioles, lymphatic vessels, that acupuncture-induced axon reflex is strongly apparent andmastcellsaswellasconcentratedprimaryafferentfibers in acupoint areas, particularly in the back and abdominal in NAUs [4, 19]. The acupuncture-induced robust axon acupoints. It is characterized by a hyperemia (flare) that reflexismorelikelyduetotransientvasodilatationandtem- rapidly(generallywithin2–5min)spreadsbeyondneedling porary neural communication between adjacent branches points of the skin with a diameter of 1–3cm (Figure3(a)). of nerves from different spinal segments via vascular and Moreover, the acupuncture-evoked flare sometimes can neural mediators released from neural and nonneuronal spreadalongameridianacrossseveraldermatomessupplied tissues(Figure3(b))[15,20,21].Apparently,therobustaxon Evidence-BasedComplementaryandAlternativeMedicine 5 Epidermal MacrophageMelanocyte Merkel cell Platelets cells Fibroblast Mast cells Keratinocyte Arteriole with NA fibers Leukocytes Lymph cells IL-1β, IL-6, IL-4, BKs PGs ATP/NA Glu 5-HT His SP AChGABAβ-ENDCGRP SSIL-8,TNF-α IL-10 CGMP Adenosine No ? ? ? − + + SP + P2X/α2-R Auto-R 5-HT15-HT3H1 H3Auto-RM2 GABAA μopioidAuto-R − B1/2 Ep A1 P2Y SSR Afferent fiber terminal Figure2:Schematicillustrationofmajornonneuronalneuroactivemediatorsandtheircorrespondingreceptorsinvolvedinthemodulation of NAU afferent impulses. Molecules in red, green, and violet color represent stimulatory, inhibitory, and both effects on afferent fiber excitability, respectively. Autoreceptors to be identified are indicated with question symbols (?). A , adenosine A receptor; ACh, 1 1 acetylcholine;Auto-R,autoreceptor;B1/2,bradykininreceptors1and2;BK,bradykinin;CGRP,calcitonin-gene-relatedpeptide;β-END, β-endorphin;EP,prostaglandinEreceptor;GABA,γ-aminobutyricacid;Glu,glutamate;H /H ,histamineH /H receptors;His,histamine; 1 2 1 2 5-HT,5-hydroxytryptamine;IL,interleukin;M ,muscarinicM receptor;NA,noradrenaline;NO,nitricoxide;PG,prostaglandins;P2X/P2Y, 2 2 purinergicreceptorsP2XandP2Y;α -R,α adrenoceptor;SP,substanceP;SS,somatostatin;SSR,somatostatinreceptor;TNF-α,tumor 2 2 necrosisfactor-α. reflexplaysanimportantroleintheproductionoflocaland afferents,whichdevelopsynapse-likecontactswithpostgan- afferentsignalsinNAUs[19]. glionicsympatheticnervevaricosities,whereNAreleaseacts on α-adrenoceptors on afferent nerve terminals of NAUs 4.2. Local Modulation of NAU Afferent Impulses by Neuro- [22,23]. active Mediators. In response to acupuncture-caused tissue Althoughacupuncture-causedtissueinjurycouldinduce injury,mastcells,platelets,andotherimmunecellsmigrate the release of both inhibitory and stimulatory mediators tomakeclosecontactwithafferentnerveterminalsinNAUs. fromnon-neuronalcellsinNAUsviatherobustaxonreflex, Theinjuredandmigratedcellsconsequentlyreleasevarious as shown in Table1, inhibitory mediators released may neuroactive mediators, which infiltrate the tissues and act predominate over stimulatory mediators. Several lines of at corresponding receptors on the surface of afferent nerve evidenceindicatethatthepredominanteffectofacupuncture terminals in NAUs via the axon reflex [17]. Meanwhile, istoenhancetheactivityofinhibitorymediatorsunderpain tissueinjuryresultsinplasticchangesinperipheralprimary conditions. First, compared to most other tissue injuries, 6 Evidence-BasedComplementaryandAlternativeMedicine Skin Stlmulus Neuroactive mediators 5 cm Recording (a) (b) Figure 3: Acupuncture-induced robust axon reflex (a) and its involvement in the propagated sensation along meridians (PSM) (b). In (a), hyperemia (flare) was induced by acupuncture needling in acupoint areas of Bladder Meridian Foot Taiyang in the back. (b) illustratesputativecommunicationbetweenadjacentbranchesofnervesfromdifferentspinalsegmentsvianeuroactivemediatorsreleased byacupuncturestimulationfromneuralandnon-neuronaltissues.(b)wasreproducedbasedontheworkdonebyProfessorZhao’sresearch groupwithhisgenerouspermission(alsosee[20,21,224]). acupuncture-caused tissue injury is minimal. This may tissues are believed to at least partly come from non- mean that the release of proinflammatory factors, most of neuronal cells, accounting for nearly 50% of total levels which enhance NAU afferent fiber excitability, is limited. of SP in rodent peripheral tissues [45, 46]. The elevation On the other hand, a large number of studies have shown of non-neuronal mediators activates the negative feedback thatacupuncturesignificantlyelevatestheconcentrationsof mechanismbyactingatcorrespondingautoreceptorsand,in many non-neuronal cell-released neuroactive mediators in turn,suppressesafferentfiberexcitabilityofNAUs. local tissues at acupoints, especially including NA [24–26], Taken together, it can be assumed that, in addition to β-endorphin [27, 28], somatostatin [29], and acetylcholine central mechanisms, NAU-based local mechanisms play an (ACh) [30], all of which suppress afferent fiber excitability equally important role in acupuncture analgesia, via which of NAUs. Second, it is generally accepted that acupuncture afferent noxious signals from sites distal to needling points is not only a noxious stimulus but is also mechanical and are blocked mostly by enhancing the activity of inhibitory can be electrical (see below). Many inhibitory mediators, mediators and activating the autoreceptor-based negative such as ATP and its metabolite adenosine, are released feedback in NAUs. There have been many studies proving in response to mechanical and electrical stimulation [31]. the NAU-based local mechanism of acupuncture analgesia. Acupuncturestimulationhasbeenfoundtorobustlyincrease A recent study found that, while manual acupuncture the extracellular concentrations of ATP and adenosine in on rat Zu-San-Li (ST36) produced pronounced analgesic mice’s acupoint tissues, while analgesic effects were elicited effects, it also enhanced the degranulation of mast cells in [31]. local acupoint tissues; however, the analgesic effects were Lastly, it is well known that a majority of peripheral completely abolished by local injection of disodium chro- small-diameterafferentfibersofthespinalandcranialnerves moglycate, an inhibitor of mast cell degranulation, indi- usetheexcitatoryaminoacidglutamate(Glu)asatransmit- cating the involvement of mast cell-released mediators in ter [32, 33]. Most Glu-containing afferent fibers cocontain acupuncture analgesia [15]. Local injection of naloxone, oneormorepeptides.SubstanceP(SP)andcalcitoningene- an opioid receptor antagonist, an antibody against β- related peptide (CGRP) are the most common peptides endorphin,orcorticotropin-releasingfactorantagonistalso that are colocalized in a majority of afferent fibers [34]. eliminatedanalgesicpotencyofelectroacupuncture(EA)in Many non-neuronal cells also synthesize and release Glu, animalmodelsofacuteandchronicinflammatorypain[47, SP, and CGRP as shown in Table1. It has been proposed 48]. Likewise, subcutaneous acupoint injection of neostig- that peripheral afferent fibers bear autoreceptors for Glu mine,acholinesteraseinhibitor,significantlyenhancedpain- [35, 36], SP [37, 38], and CGRP [39]. A number of studies relievingeffectsofEAinrats[30].Thesestudiessuggestthat in rats and humans have shown that electroacupuncture the local β-endorphin and ACh play a key role in the local increased the quantity of CGRP [40–42] and SP [42–44] mechanismofanalgesiceffectsofacupuncture. in peripheral tissues and in blood circulation, although the Most recently, it was found that, while acupuncture effectsonlocalnon-neuronalglutamateandotherexcitatory on mice’s Zu-San-Li (ST36) significantly reduced chronic transmitters are unclear. The increased mediators in local pain in the ipsilateral paw and increased the extracellular Evidence-BasedComplementaryandAlternativeMedicine 7 concentrations of ATP and adenosine in acupoint tissues, theinsertedneedlewouldbeexpectedtoproducemechanical thelocalapplicationof2-chloro-N(6)-cyclopentyladenosine pressureandtissuedistortionthatactivateNAUmechanore- (CCPA), an adenosine A receptor agonist, replicated the ceptorslocatedintheskin,muscle,andtendontissues[58– 1 analgesic effect of acupuncture. The local inhibition of 63].Thismechanicaleffecthasbeenwellconfirmedinrecent enzymesinvolvedinadenosinedegradationalsopotentiated studiesofbothmiceandhumansubjects[64,65]. theacupuncture-elicitedincreaseinadenosine,aswellasits It is well documented that the distant effect is mainly antinociceptive effect [31]. These data strongly suggest that achieved by shear force- and stress-induced tissue displace- acupuncture-released ATP and its metabolite adenosine in ments during manual manipulation [63–65]. All types of local acupoint tissues block pain impulses from sites distal manualtechniquestestedhaveyieldedgreaterdistanteffects toneedlingpoint. onsarcousstretchreceptorsthancutaneousmechanorecep- tors; twist/rotation has the greatest distant effects on the 4.3.TheRelationshipbetweenNAUsandElectrodermalProp- cutaneous superficial and deep receptors as well as sarcous ertiesofAcupoints. Itiswelldocumentedthatmanyimmune stretch receptors compared to other techniques in rabbits mediators, in particular, local tissue-released NA, nitric (Figure4)[58,59].Theorderofthedistanteffectsoftwist/ oxide (NO), tumor-related factors, and mast cell-released rotation is sarcous stretch receptors, cutaneous superficial histamineand5-HT[15,24,49–52],areheavilyinvolvedin mechanoreceptors, and deep pressure-detected receptors. the determination of electrical properties of acupoints and Basedonthisorder,thetwist-associatedmuscle-spindle-rich meridians, namely, higher conductance, lower impedance, NAUscanbeproposedtobeavase-likepatternasillustrated and higher capacitance compared to adjacent tissues [5]. inFigure1. Electrodermalmeasureshavebeenshowntobesignificantly All types of manual techniques tested can activate Aα, associatedwithclinicaloutcomesofacupuncturetreatments β, and δ fibers of NAUs. Twist/rotation additionally excites inpatientswithchronicpelvicpain[53].Acupuncturestim- C-fibers on most occasions, whereas other types of manual ulation was found to change the human skin sympathetic techniquesseldomdoso[62,66]. nerveactivity[54].Normalizationofskinelectricalconduc- tanceatrelatedacupointshasalsobeenlinkedtotherapeutic 5.2.Electroacupuncture-(EA-)InducedDistantEffects. Elec- responses to acupuncture in subjects with heart stress [55], troacupuncture(EA)stimulationproducesthedistanteffects obesity[56],andacutejointinjury[57].Theseobservations inexcitingcutaneousmechanoreceptorsandsarcousstretch suggest that normalization of electrodermal properties at receptors of NAUs, with a range of nearly 25–45mm from acupoints is perhaps associated with the modulation of needling point. The EA intensity-dependent distant effect neuroactivemediatorsinacupuncturestimulation.Whether was observed on only the cutaneous superficial receptors, electrodermalmeasuresofacupointscouldserveasareliable but not the cutaneous deep receptors and sarcous stretch and valid approach in detecting biochemical properties of receptorsinrabbits(Figure5)[60,61]. NAUsdeservesfurtherinvestigation. Collectively, while most nociceptors are innervated by thinmyelinatedAδ andCfibers,mostsomaticmechanore- 5.BiophysicalReactionsofNAUs ceptorsareinnervatedbyAβfibers.Therefore,theactivation ofmechanoreceptorsandtheirAβafferentfibersappearsto As mentioned above, acupuncture is not only a noxious play a dominant role in the biophysical reactions of NAUs, stimulusbutcanincludemechanicalandelectricalstimula- particularlyinmuscle-spindle-richNAUs. tion. Thus, apart from biochemical reactions, acupuncture also elicits biophysical reactions in NAUs. Early studies in rabbits have examined the responses of different types of 6.NAUClassificationandItsDifferentialEffects NAUmechanoreceptorstodifferentmanualtechniquesand intensitiesofelectricalstimulation[58–62].Thestudieshave 6.1.ClassificationofNAUs. Itiswelldocumentedthatsoma- revealed that the activation of the mechanoreceptors is not tosensoryreceptorsandtheirafferentfibersplaythecentral necessarilylimitedsurroundingneedlingpointbutalsocan role in the production of NAU afferent impulses [3]. Based spreadtoadistancefromneedlingpointandthisisreferred onthepredominanceofsomatosensoryreceptors,NAUscan toas“distanteffect.”Moreover,therearehighnegativelinear be roughly classified into the three types: muscle-spindle- correlations between the number of the activated receptors rich NAUs, cutaneous-receptor-rich NAUs, and tendon- anddistancefromneedlingpoint(seeFigures4and5).The organ-rich NAUs. Table2 summarizes the definition, char- distant effect is, therefore, a most important component of acteristics,andrelatedacupointsofthethreetypesofNAUs. thebiophysicalreactionsofNAUs. 6.2. Differential Properties of Afferent Impulses Produced in 5.1.ManualAcupuncture-(MA-)InducedDistantEffects. In Different Types of NAUs. It is generally accepted that NAU acupuncture practice, manual manipulation is often per- afferentimpulsesareinitiallyproducedthroughbiochemical formed on the inserted needles to enhance needling sensa- and biophysical reactions and transmitted dominantly by tion and therapeutic responses. The most commonly used thin fibers (Aδ and C fibers) and thick fibers (Aβ fibers), manualtechniquesincludelift,thrust,twist,rotation,shake, respectively.Theimpulsesrepresenttherapeuticinformation scrape, and flick. Gentle and repetitive manipulation onto thatmainlyconsistsofboth“positive”tissueinjury-induced 8 Evidence-BasedComplementaryandAlternativeMedicine Number of activated receptors (%)2211505050 Number of activated receptors (%) 432100000 0 5 10 15 20 25 30 35 40 0 5 10 15 20 25 30 35 Scrape Lift/thrust Scrape/flick Flick Twist/rotation Shake/lift/thrust Shake Twist/rotation (a) (b) %) 20 ors ( pt 15 e c e d r e at 10 v cti a er of 5 b m u N 0 0 20 40 60 80 100 120 140 160 180 200 220 Distance from acupuncture needling point (mm) Scrape/flick Shake/lift/thrust Twist/rotation (c) Figure4:Thedistanteffectsofdifferentmanualtechniquesofacupunctureinactivatingcutaneoussuperficialmechanoreceptors(a),deep pressure-detectedreceptors(b),andmusclestretchreceptors(c)locatedintheposterioraspectofthelegofBladderMeridianFootTaiyang inrabbits.Percentofthenumberoftheactivatedreceptorsineachdefinedareasurroundingneedlingpointwascalculatedfromthetotal numberoftheactivatedreceptors.Theplotswereproducedbasedonthedatareportedin[58,59]. and mechanoreceptor-activated signals. However, the pre- In contrast, for most cutaneous-receptor-rich NAUs, dominant components may vary, largely depending upon forexample,Ren-Zhong(GV26)andShi-Xuan(EX-UE11), different types of NAUs. For most muscle-spindle- and which are often used as consciousness-awakening, spirit- tendon-organ-rich NAUs, the stretch receptor-activated quieting,andmind-stabilizingacupointsforacuteandsevere signals dominate NAU afferent impulses. This assertion is neuropsychiatricconditions,suchassummerstroke,shock, supported by an early study on acupuncture analgesia in coma,acutefever-causedconvulsion,trance,manicepisode, healthy volunteers, revealing that increased pain threshold and severe depression, the treatment effects are closely produced by manual acupuncture at He-Gu (LI4) was associatedwithpatients’strongfeelingofsharppainevoked completely reversed by blockade of deep nerve branches byprickingontheacupoints[71].Itappearsthat“positive” innervatingmusclefibers,butnotcutaneousnervebranches tissueinjury-inducedsignalstransmittedbysmall-diameter [67].Similarphenomenawerealsoobservedinacupuncture afferent fibers (mainly Aδ and C fibers) may dominate modulation of visceral functions in anesthetized rats, re- afferentimpulsesfromcutaneous-receptor-richNAUs. vealing that arterial blood pressure and heart rate were significantly reduced by manual acupuncture on acupoints with the muscles alone, but not the skin alone [68, 69]. 6.3. The Relationship between NAU Properties and Compo- Likewise, bidirectional rotation of a needle deeply inserted nents of Needling Sensation. A large body of empirical and into a muscle-spindle-rich NAU beneath the human acu- experimental evidence confirms that acupuncture stimula- pointShou-San-Li(LI10)producedgreaterneedlesensation tion with and without accompanying needling sensation intensities compared to superficial needle insertion with (De-Qi in Chinese) leads to notable differences in neu- mockdeeppenetrationandbidirectionalrotation[70]. roimaging[72,73],electroencephalogram[74],andclinical Evidence-BasedComplementaryandAlternativeMedicine 9 %) 40 %) 80 mber of activated receptors ( 1122335050505 mber of activated receptors ( 12345670000000 Nu Nu 0 0 0 5 10 15 20 25 30 0 5 10 15 20 25 30 (a) (b) 45 %) ors ( 3450 pt ce 30 e d r 25 e vat 20 cti a 15 of er 10 b m 5 u N 0 0 5 10 15 20 25 30 35 40 45 50 Distance from acupuncture needling point (mm) 20 V 30 V 40 V (c) Figure5:Thedistanteffectsofdifferentintensitiesofelectroacupuncture(EA)inactivatingcutaneoussuperficialmechanoreceptors(a), deeppressure-detectedreceptors(b),andmusclestretchreceptors(c)locatedinrabbittricepssuraemuscleareasofBladderMeridianFoot Taiyang.Percentofthenumberoftheactivatedreceptorsineachdefinedareasurroundingneedlepointwascalculatedfromthetotalnumber oftheactivatedreceptors.Theplotswereproducedbasedonthedatareportedin[60,61]. Table2:ClassificationofNAUsbasedonapredominanceofsomatosensoryreceptors. Type Definitionandcharacteristics Relatedacupoints Whenanacupunctureneedleisinserted,alarge Nearly60%acupointslocatedonthickmuscleareas portionoftheinsertedneedlebodyissurroundedby containthistypeofNAUs,forexample,Zu-San-Li Muscle-spindle-rich musclefibers.Musclespindlesarethemajorneural (ST36),He-Gu(LI4),andHuan-Tiao(GB30).Most NAUs componentsinthistypeofNAUs.Thereareabout acupointscanbeperformedwithlarge-scalemanual 210–2,860musclespindles/cm3inmuscletissuesinthe techniques. backoftheBladder-Meridian[225]. MostacupointscontainingthistypeofNAUsare Relativelydenseandconcentratedcutaneousreceptors locatedonthefingerpads,palms,plantarareas,andthe Cutaneous-receptor- dominateinNAUs.About100–240encapsulated surroundingofthelips,forexample,Shao-Shang rich cutaneousreceptors/mm2and300freenerve (LU11),Lao-Gong(PC12),andRen-Zhong(GV26). NAUs endings/mm2aredistributedinthecutaneoustissuesof Onlyprickandshallowneedlingcangenerallybe thefingerpads[226]. performedontheseacupoints. MostacupointscontainingthistypeofNAUsare Tendon-organ-rich Tendonorgans,RuffiniandPaciniancorpuscles locatedaroundtheelbow,wrist,knee,andanklejoints, NAUs dominateinNAUs. forexample,Chi-Ze(LU5),Da-Ling(PC7),Du-Bi (ST35),andJie-Xi(ST41). 10 Evidence-BasedComplementaryandAlternativeMedicine Table3:TheputativerelationshipbetweenNAUpropertiesandneedlingsensation. Componentsofneedlingsensation NAUproperties Aching/soreness/warmth Numbness/heaviness/distension TypeofNAUs Cutaneous-receptor-richNAUswithapredominance Muscle-spindle-andtendon-organ-richNAUs. ofnociceptors. NAUreactions Biochemicalreaction Biophysicalreaction Dominantafferent AδandC AβandAδ fibers Acupuncture Prick; shallow needling; high-frequency EA; laser Mostmanualtechniquesingentleandrepetitivemanip- stimulationmodesa acupuncture;heatacupuncture. ulation;low-frequency,high-intensityEAandTENS. aLow-frequency,high-intensityEAandTENSisthoughttodominantlyactivatesmyelinatedfibers(AβandAδ),whereashigh-frequencyEAmainlyactivate small-diametermyelinatedAδfibersandunmyelinatedCfibers[133,134]. bEA,electroacupuncture;TENS,transcutaneouselectricalnervestimulation. outcomes[75].Needlingsensationis,therefore,suggestedto pathway is involved in the transmission of NAU afferent beapredictorforacupunctureanalgesia[76].Althoughthe impulses from the trigeminal territory [84]. Via these perceptionofneedlingsensationmayvaryinindividualsand pathways, most NAU afferent signals are carried up to the with manual techniques, this distinct sensation is generally brainstem,wherethesignalsarerelayedtoothersubcortical characterized by soreness, numbness, heaviness, distension, andcorticalareasviadirectprojectionsandcollateralbranch andachinginthedeeptissuessurroundingtheinsertednee- connections.MajorcentralneuralpathwaysprocessingNAU dle[76],andoftenaccompaniesincreasedbloodflowwitha afferentimpulsesareillustratedinFigure6. feeling of warmth at acupoint areas [77, 78]. The sensation alsocanbetransmittedtotheacupuncturist’sfingers,which 7.1. The Spinal-Supraspinal Pathways. The spinal-suprasp- feelincreasedresistancetofurthermovementoftheinserted inal pathways responsible for transmitting NAU afferent needle [79]. Thus, the needling sensation is not a single, impulses from the territory innervated by the spinal nerves but a compound sensation that is generated from the acti- mainlycomprisethespinothalamictract,thespinoreticular vation of various sensory receptors and their afferent fibers tract, and the dorsal column-medial lemniscus tract. Most in NAUs, in particular, small fiber-innervated nociceptors peripheral small afferent fibers bearing “positive” noxious and myelinated fiber-innervated mechanoreceptors, which, signals from NAUs in the limbs, the trunk, and the neck respectively, produce afferent impulses via biochemical and terminate in the superficial layers of the spinal dorsal biophysicalmechanismsofNAUsasdescribed. horn, where the signals are relayed and carried up by the It is also well demonstrated that numbness, heaviness, contralateral spinothalamic tract to supraspinal levels [83]. and distension during needling are closely associated with Most peripheral thick myelinated afferent fibers bearing the activation of myelinated Aβ and Aδ afferents in deep NAU mechanoreceptor-activated signals in the spinal nerve issues of acupoints, whereas aching and soreness are highly territory separately enter the ipsilateral dorsal column- correlated with stimulation of small myelinated Aδ and medial lemniscus tract and emerge into the contralat- unmyelinated C fibers [10, 80–82]. Clinical practice also eral spinothalamic tract. NAU impulses conveyed by the suggeststhatnumbness,heaviness,anddistensionaremore spinothalamic tract and the dorsal column are further often elicited when manual manipulation is performed relayed in the brainstem and the thalamus and ultimately in muscle-spindle- and tendon-organ-rich NAUs, whereas sent to the somatosensory cortex in a somatotopic fashion the sensation evoked in cutaneous-receptor-rich NAUs is [83].Paralleltothesomatotopicpathways,thespinoreticular dominatedbyachingandsoreness.Theputativerelationship tractreceivesNAUimpulseslargelyviacollateralconnections betweenNAUpropertiesandcomponentsofneedlingsensa- withthesomatotopicpathwaysatthespinalandsupraspinal tionissummarizedinTable3. levelsanddiffuselyprojectstosubcorticalandcorticalareas [83]. 7.MultipleCentralNeuralPathwaysConveying It is well documented that the spinothalamic and spin- NAUAfferentImpulses oreticulartractsarethetwokeyascendingpathways,which convey NAU “positive” tissue injury-evoked signals and As described above, acupuncture-evoked afferent impulses activate the descending noxious inhibitory system [3, 83]. in most NAUs are mainly constituted by “positive” tis- Thelattermainlyconsistsoftheperiaqueductalgray(PAG) sue injury-induced and mechanoreceptor-activated com- nucleus raphe magnus (NRM) spinal pathway and the ponents. Neuroanatomically, there exist separate central locus coeruleus (LC)-spinal pathway. These send inhibitory pathways processing NAU afferent impulses from different information to the spinal dorsal horn and block noxious components and from different parts of the body. Several signal inputs from the periphery [3, 83, 85]. In addition to spinal-supraspinal pathways responsible for acupuncture receivingsignalsfromtheascendingpathways,thedescend- analgesiahavebeenidentified[3,83].Thetrigeminalsensory inginhibitorysystemalsoreceiveswideafferentmodulation

Description:
The NAU-based local mechanisms of biochemical and biophysical reactions play an important role in for most meridian-based acupoints were initially developed from A-Shi .. modulation of visceral functions in anesthetized rats, re- changes according to the subjective acupuncture sensation,”.
See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.