《英文医学课件:8 心血管系统概述心肌细胞电活动点活动》由会员分享,可在线阅读,更多相关《英文医学课件:8 心血管系统概述心肌细胞电活动点活动(83页珍藏版)》请在金锄头文库上搜索。
1、CardiovascularPhysiology(心血管生理学)Components of the cardiovascular system:HeartVascular systemBloodSystem Overview The heart is the pumpthat propels theblood through the systemic and pulmonary circuits.Red color indicates blood that isfully oxygenated.Blue color representsblood that is only partially
2、oxygenated.The distribution of blood in a comfortable, restingperson is shown here.Dynamic adjustments inblood delivery allow aperson to respond to widely varying circumstances, including emergencies.FunctionsoftheheartPumping(泵血)Endocrine(内分泌)Atrialnatriureticpeptide(ANP)Brainnatriureticpeptide(BNP
3、)OtherbioactivatorsThe major external andinternal parts of the heart areshown in thisdiagram.The black arrowsindicate the routetaken by theblood as it ispumped along.The Heart Valves of the heartThemajortypesofcardiacmuscle:AtrialmuscleVentricularmuscleSpecializedexcitatoryandconductivemuscleContrac
4、tilecells(收缩细胞)Autorhythmiccells(自律细胞)Conducting system of the heartCardiac muscleThe sinoatrial node is the hearts pacemaker because it initiates each wave of excitation with atrial contraction. The Bundle of His and other parts of the conducting system deliver the excitation to the apex of the hea
5、rt so that ventricular contraction occurs in an upward sweep. Sequence of cardiac excitationGeneralprocessofexcitationandcontractionofcardiacmuscleInitiationofactionpotentialsinsinoatrialnodeConductionofactionpotentialsalongspecializedconductivesystemExcitation-contractioncouplingMusclecontractionTr
6、ansmembranepotentialsrecordedindifferentheartregionsTransmembranepotentialofventricularcellsanditsionicmechanismsRestingPotential:-90mVActionPotentialPhase0:DepolarizationPhase1:EarlyphaseofrapidrepolarizationPhase2:Plateau(平台期)Phase3:LatephaseofrapidrepolarizationPhase4:RestingphaseRestingpotential
7、K+equilibriumpotentialNa+-inwardbackgroundcurrentElectrogenicNa+-K+pumpIonicmechanismsnPhase0pThresholdpotential(-70mV)pOpeningoffastNa+channelpRegenerativecycle(再生性循环)The action potential of a myocardial pumping cell.nPhase1pTransientoutwardcurrent,ItoK+currentpactivatedat20mVpopeningfor510msnPhase
8、2InwardcurrentOutwardcurrent(Ca2+&Na+)(K+current)TypesofCa2+channelsincardiaccells:(1)L-type(long-lasting)(Nowycky,1985)(2)T-type(transient)(Nowycky,1985)Ca2+ channelsDurationofcurrentlong-lastingtransientActivationkineticsslowerfasterInactivationkineticsslowerfasterThresholdhigh(-35mV)Low(-60mV)cAM
9、P/cGMP-regulatedYesNoPhosphorylation-regulatedYesNoOpenersBay-K-8644-BlockersvarapamilTetramethrinnifedipine,diltiazemNi2+InactivationbyCa2+iYesslightPatch-clamprecordingrun-downrelativelystableL-type T-typeOutwardcurrent(K+current):(1)inwardrectifierK+current(IK1)(2)delayedrectifierK+current(IK)nPh
10、ase3InactivationofCa2+channelOutwardK+currentdominatesIK:ProgressivelyincreasedIK1:RegenerativeK+OutwardCurrentnPhase4Na+-Ca2+exchangeSarcolemmalCa2+pumpSRCa2+pumpNa+-K+pumpTransmembranepotentialsrecordedindifferentheartregionsTransmembranepotentialofautorhythmiccellsanditsionicmechanismsPurkinjecel
11、ls:Fastresponseautorhythmiccells4ContractilecellsAutorhythmiccellsPhase4stablepotentialPhase4spontaneousdepolarization(4期自动去极化)RestingpotentialMaximalrepolarizationpotential(最大复极电位)IonicmechanismPhase03:similartoventricularcellsPhase4:(1)IfFunnycurrent,Pacemakercurrent(起搏电流)(2)IkDecay(钾电流衰减)Characte
12、risticsofIfchannelNa+,K+Voltage-&time-dependentActivationRepolarizedto-60mVFullactivationHyperpolarizedto-100mVInactivationDepolarizedto-50mVBlockedbyCesium(Cs),notbyTTXSinoatrialcellsMaximalrepolarizationpotential-70mVThresholdpotential-40mVPhase0,3,4Sinoatrialcells:Slowresponseautorhythmiccells403
13、IonicmechanismvPhase0:ICa(ICa,L)403vPhase3:pInactivationofL-typeCa2+channelpOutwardK+current(Ik)403Phase4:pIkdecayInactivatedwhenrepolarizedto-60mVpICa,TActivatedwhendepolarizedto-50mVpIfThe action potential of anautorhythmic cardiac cell.During which phase of the ventricular action potential is the
14、 membrane potential closest to the K+ equilibrium potential?(A) Phase 0(B) Phase 1(C) Phase 2(D) Phase 3(E) Phase 4During which phase of the ventricular action potential is the conductance to Ca2+ highest?(A) Phase 0(B) Phase 1(C) Phase 2(D) Phase 3(E) Phase 4Which phase of the ventricular action po
15、tential coincides with diastole?(A) Phase 0(B) Phase 1(C) Phase 2(D) Phase 3(E) Phase 4Electrocardiogram (ECG)(心电图)(心电图)Theelectrocardiogram(ECG)measureschangesinskinelectricalvoltage/potentialcausedbyelectricalcurrentsgeneratedbytheheartThe relationship between the electrocardiogram (ECG), recorded
16、 as the difference between currents at the left and right wrists, andan action potential typical of ventricular myocardial cells. Electrocardiogram (ECG)Thestandard12leadECGEinthovensTriangleLimbleads(Bipolar)(I,II,III)Augmentedlimbleads(Unipolar)(aVR,aVL,aVF)Chestleads(Unipolar)(V1,V2,V3,V4,V5,V6)I
17、IIIIIaVRaVLaVFV1 V2 V3 V4 V5 V6WillemEinthoven:Dutchphysiologist.Hewona1924NobelPrizeforhiscontributionstoelectrocardiography.Placement of electrodes in electrocardiographyNormalECG0.04 secECGinterpretationMeasurementsRhythmanalysisConductionanalysisWaveformdescriptionComparisonwithpreviousECG(ifany
18、)Pwave:thesequentialdepolarizationoftherightandleftatriaQRScomplex:rightandleftventriculardepolarizationST-Twave:ventricularrepolarizationUwave:originforthiswaveisnotclear-butprobablyrepresentsafterdepolarizationsintheventriclesPRinterval:timeintervalfromonsetofatrialdepolarization(Pwave)toonsetofve
19、ntriculardepolarization(QRScomplex)QTinterval:durationofventriculardepolarizationandrepolarizationSTsegment:thetimeperiodbetweentheendoftheQRScomplexandthebeginningoftheTwave,duringwhicheachmyocyteisintheplateauphase(phase2)oftheactionpotentialNormalPartial blockComplete blockExcitabilityAutorhythmi
20、cityConductivityContractilityElectrophysiologicalproperties(电生理特性)Mechanicalproperty(机械特性)PhysiologicalpropertiesofcardiaccellsFactorsaffectingexcitabilityRestingpotentialThresholdpotentialStatusofNa+orCa2+channelsvExcitability(兴奋性)Hyperkalemia(高钾血症)TheQRScomplexesmaywidensothattheymergewiththeTwave
21、s,resultingina“sinewave”appearance.TheSTsegmentsdisappearwhentheserumpotassiumlevelreaches6mEq/LandtheTwavestypicallybecometallandpeakedatthissamerange.ThePwavesbegintoflattenoutandwidenwhenapatientsserumpotassiumlevelreachesabout6.5mEq/L;thiseffecttendstodisappearwhenlevelsreach7-9mEq/L.Sinusarrest
22、mayoccurwhentheserumpotassiumlevelreachesabout7.5mEq/L,andcardiacstandstillorventricularfibrillationmayoccurwhenserumlevelsreach10to12mEq/L.PeriodicchangesinexcitabilityValuableprotectivemechanismnThelongrefractoryperiodmeansthatcardiacmusclecannotberestimulateduntilcontractionisalmostover&thismakes
23、summation&tetanusofcardiacmuscleimpossiblePrematuresystole&compensatorypause(extrasystole)A 39-year-old lady presenting with frequent palpitations lasting a few monthsA39-year-oldladypresentstoyouwithfrequentpalpitationslastingafewmonths,whicharenotassociatedwithdizziness,syncopeorangina.Shehasenjoy
24、edgoodhealthandisnotonanymedicationorherbalmedicine.Sheisanon-smokerandhasnoknowndiabetes,hypertensionorhypercholesterolaemia.Hermensesisregularandphysicalexaminationisunremarkableotherthanafewprematurebeats.ThisisherECG.Answers:Ventricularprematurebeatsarenoted.Prematureventricularcontractionsunmas
25、kthePwavesvAutorhythmicity(自律性)vAutorhythmicitySAnode100times/minAVnode50times/minBundleofHis40times/minPurkinjefibers 25times/minnNormalpacemaker(正常起搏点)SAnodenLatentpacemaker(潜在起搏点)(Ectopicpacemaker异位起搏点underpathophysiologicalconditions)AVnodeBundleofHisPurkinjefibersThemechanismsofSAnodetocontroll
26、atentpacemakersCapture(夺获)Overdrivesuppression(超速抑制)FactorsAffectingAutorhythmicityMaximalrepolarizationpotentialThresholdpotentialTherateofphase4spontaneousdepolarizationSinusBradycardia(窦性心动过缓)Pacemaker1. Tom, an 80 yr old male, presents to his physician with a resting heart rate of 35 bpm. You cl
27、assify his heart rate as:A. NormalB. BradycardiaC. Tachycardia2. His pacemaker is most likely located at the:A. Sinoatrial nodeB. Atrial-ventricular nodeC. His Bundle-PurkinjevConductivity(传导性)GapjunctionSAnodeAtriaA-Vnode0.05m/s0.4m/s0.020.05m/sHisbundlePurkinjefiberVentricle1.22.0m/s2.04.0m/s1.0m/
28、sConductingvelocityAtrioventriculardelay(房室延搁):AsynchronizationofatrialandventriculardepolarizationtoprovideadequatecardiacoutputFactorsAffectingConductivityStructuralfactorsDiameterofcardiaccellsGapjunctionsatIntercalateddiskPhysiologicalfactorsThevelocityandamplitudeofphase0depolarizationExcitabil
29、ityofadjacentregionFirstDegreeAVBlockDefinition:1AVBisarhythminwhichtheelectricalimpulsewhichleavestheSAnodeandtravelsthroughtheatria,AVnode,BundleofHistopurkininjiefibersissloweddownandtakeslongerthannormaltoarriveatitsdestination.ThenormalPRintervalis0.12-0.20seconds.A1AVBTisgreaterthan0.20seconds
30、.Thecauserangesfromcoronaryheartdisease,inferiorwallMIs,hyperkalemia,congenitalabnormalities,andmedicationssuchasquinidine,digitalis,betablockers,andcalciumchannelblockers.SeconddegreeAVBlocktype1(Mobitz)Definition:SeconddegreeAVblockisalsoknownasSecondDegreeTypeI,MobitzI,orWenckelbach.Thisarrhythmi
31、aischaracterizedbyaprogressivedelayoftheconductionattheAVnode,untiltheconductioniscompletelyblocked.Thisoccursbecausetheimpulsearrivesduringtheabsoluterefractoryperiod,resultinginanabsenceofconduction,andnoQRS.ThenextPwaveoccursandthecyclebeginsagain.Possiblecausesareacuteinferiorwallmyocardialinfra
32、ction,digitalis,betablockers,calciumchannelblockers,rheumaticfever,myocarditis,orexcessivevagaltone.MobitzIIischaracterizedby2-4PwavesbeforeeachQRS.ThePRoftheconductedPwavewillbeconstantforeachQRS.Itisusuallyassociatedwithacuteanteriororanteroseptalmyocardialinfarction.Othercausesarecardiomyopathy,r
33、heumaticheartdisease,coronaryarterydisease,digitalis,betablockers,andcalciumchannelblockers.MobitzIIhasthepotentialofprogressingintoathirddegreeheartblockorventricularstandstill.SeconddegreeAVBlockTypeIIAthirddegreeatrialventricularblockisalsoknowasacompleteheartblockartrioventricularblockof3degreeA
34、Vblock.Itisaproblemwithelectricalconduction.AllelectricalconductionfromtheatriaareblockedattheAVjunction,therefore,theatriaandtheventriclesbeatindependentlyfromeachother.Thisarrhythmiaisdangerousbecauseitsignificantlydecreasescardiacoutput,andcouldleadtoasystole.Possiblecauses:acuteinferiorandanteri
35、ormyocardicinfraction,coronaryheartdisease,excessivevagaltone,myocarditis,endocarditis,age,edemafromheartsurgery,andmeditationtoxicityfromdigitalis,betablockers,calciumchannelblockers.ThirdDegree-CompleteBlock-+-+-Reentry (折返)(折返)ModelReentrycantakeplacewithinasmalllocalregionwithintheheartoritcanoc
36、cur,forexample,betweentheatriaandventricles(globalreentry).Forreentrytooccur,certainconditionsmustbemetthatarerelatedtothefollowing:1.thepresenceofaunidirectionalblockwithinaconductingpathway;2.criticaltiming;3.thelengthoftheeffectiverefractoryperiodofthenormaltissue.Q-T interval recorded on an ECG
37、primarily corresponds to: A Ventricular repolarization B Ventricular depolarization plus ventricular repolarization C Ventricular depolarization and atrial repolarization D Atrial depolarization and conduction through AV node E Purkinje fibers repolarization You see a 55-year-old, white female for a
38、 routine check-up. On the ECG you see a prolonged PQ interval suggesting a first-degree atrioventricular block. What is the primary pacemaker of the heart? A Sinoatrial node B Atrioventricular node C Atrioventricular bundle D Right and left bundle branches E Purkinje fibers 1. The portion of the ECG
39、 related to the propagation of the cardiac impulse between the AV node through the Purkinje fibers is the:A. QRS complexB. B. Q-R complexC. P-R intervalD. S-T interval2. When running, sympathetic stimulation increases heart rate as well as the rate of contraction and relaxation in the heart. Will running change the ECG in an individual with a normal heart?A. No, only heart rate changesB. Yes, R-R, QT and PR intervals shorten; QRS is minimally shortenedC. Yes, R-R and PR intervals lengthenThe End.
