480 likes | 1.07k Views
Dual Chamber Temporary Pacing Operations & Troubleshooting. Indications for Dual Chamber Temporary Pacing. Complete heart block Sinus bradycardia Bradycardia with congestive heart failure Atrial and/or ventricular ectopic arrhythmia Reentrant tachycardias
E N D
Indications for Dual Chamber Temporary Pacing • Complete heart block • Sinus bradycardia • Bradycardia with congestive heart failure • Atrial and/or ventricular ectopic arrhythmia • Reentrant tachycardias • During pulse generator replacement
Indications for Dual Chamber Temporary Pacing • Prior to the implant of a permanent pacemaker • Temporary support of a patient after heart surgery • Acute myocardial infarction complicated by heart block • High rate burst stimuli for the treatment of some tachyarrhythmias
The NASPE/BPEG Generic (NBG) Code Position I II III IV V Category Chamber(s)Paced Chamber(s)Sensed Response toSensing ProgrammabilityRate Modulation AntitachyarrhythmiaFunction(s) O = None A = Atrium V = Ventricle D = Dual (A+V) O = None A = Atrium V = Ventricle D = Dual (A+V) O = None T = Triggered I = Inhibited D = Dual (T+I) O = None P = Simple Programmable M = Multiprogrammable C = Communicating R = Rate Modulation O = None P = Pacing S = Shock D = Dual (P+S) Manufacturer’sDesignationOnly S = Single (A or V) S = Single (A or V) Note: Positions I through III are used exclusively for antibradyarrhythmia function
Asynchronous Modes AOO VOO DOO
Ap Ap Ap Ap Ap * * * * * * * * * * ° Vp Vp Vs Vp Vp Vp DVI 1 2 3 4 5 6 = AV interval (140 ms) Lower rate = 60 ppm V-A interval = 860 ms = PVARP (250 ms) = indicates cycle restarted by sensed or paced event
DDD Pacing Chamber Paced Chamber Sensed Action or Responseto a Sensed Event D D D
DDD Pacemaker Provides: • AV Synchrony • Rate Variability Results in: • Changes in cardiac output • Management of rhythm • Improved quality of life
Parameter Adjustments of theTemporary DDD Pacemaker • Lower Rate • A–V Interval • Upper Rate • Output • Sensitivity • Refractory Period(PVARP)
Timing Intervals in milliseconds (ms) V–A 750 ms A–V 250 ms V–V 1000 ms DDD / 60 / 250 / 125 / 155
Calculation of Atrial Escape Interval Atrial Escape Lower Rate – A–V Interval = Interval V–V – A–V = V–A (ms) (ms) (ms) (60 ppm) 1000 – 250 = 750 (60 ppm) 1000 – 150 = 850 (70 ppm) 850 – 200 = 650
A Pace / V Pace A–V Sequential Pacing V–A 750 ms A–V 250 ms V–V 1000 ms DDD / 60 / 250 / 150
A Pace / V Sense Atrial Pacing with Normal A–V Conduction Programmed Lower Rate1000 msActual V–V960 ms DDD / 60 / 200 / 150
A Sense / V Pace Atrial Synchronous Pacing Spontaneous Atrial Rate = 55 ppm Spontaneous Atrial Rate = 110 ppm DDD / 50 / 150 / 150
A Sense / V Sense Spontaneous P-Wave with Normal A–V Conduction Spontaneous Atrial Rate = 65 ppm Spontaneous P-R Interval = 160 ms DDD / 60 / 200 / 150
Timing Operations of DDD Pacing VentricularRate UpperRate AtrialTracking LowerRate Atrial Rate
Definitions PVARP – Post Ventricular Atrial Refractory Period Time after Vs or Vp when atrial rates are ignored A–V – Time from As or Ap to Vp in ms TARP – Total Atrial Refractory Period in ms
Refractory Period • Increase to prevent: • T-wave sensing • P-wave sensing • Decrease to permit tachy pacing
Wenckebach Operation AV AV W AV W AV W AV PVARP PVARP PVARP PVARP PVARP Upper Rate Upper Rate Upper Rate Upper Rate Upper Rate As As As As As As Vp Vp Vp Vp Vp W = Wenckebach Interval
2 : 1 Block AV AV AV AV PVARP PVARP PVARP PVARP Upper Rate Upper Rate Upper Rate Upper Rate As As As As As As As As Vp Vp Vp Vp
Physiology of Retrograde Conduction 1. Loss of A-V synchrony due to a PVC 2. Sensed retrograde activation 3. A-V interval initiated PVC 4. Prolongation of A-V interval 5. Ventricular pacing synchrononized to retrograde P-waves
Pacemaker Mediated Tachycardia (PMT) • Fast ventricular paced rhythm • Synchronized to retrograde-conducted P-waves • Not normal sinus tachycardia
Feature of the Temporary DDD Pacemaker Atrial Output Control Ventricular Pulse Amplitude(ma) Pulse Width(ms)
Feature of the Temporary DDD Pacemaker Sensitivity 2.5 1.25 0.5
Undersensing Failure of the pacemaker to senseintrinsic R-waves or intrinsic P-waves
Undersensing • Battery depletion • Decreased QRS voltage • Fusion beat • Dislodged/fractured lead • Inappropriate sensitivity setting
Oversensing Inhibition of the pacemaker by events the pacemaker should ignore, e.g. EMI, T-waves, and myopotential
Oversensing • Myopotential inhibition • EMI • T-waves outside of refractory period • Dislodged/fractured lead • Inappropriate sensitivity setting
No Output Pacemaker fails to emit stimuliat the programmed intervals
No Output 1 2 3 4 5 • Battery depletion/pacemaker off • Oversensing AP AS AP AP AP VP VP VP VP VP No atrial output (on ECG) • Faulty cable connection • Dislodged/fractured lead
Loss of Capture Electrical stimuli delivered bythe pacemaker does not initiate depolarization of the atria or ventricle
Loss of Capture • Inappropriate output setting • Increased resistance to conduction • QRS complex not visible Atrial Noncapture Ventricular Noncapture Fusion • Dislodged/fractured lead • Tissue is refractory • Faulty cable connection
Ventricular Safety Pacing Ap Vp Ap = Atrial Pace Vp = Ventricular Pace ProgrammedA-V Interval Ventricular Blankingat Atrial Rate 12 ms Ventricular SafetyPace Interval 110 ms Programmed A-V Interval Ventricular Sensing within this period triggers a ventricular output at an A-V interval of 110 ms instead of programmed A-V interval. Ventricular Sensing during the remainder of the programmed A-V interval inhibits the ventricular output. If there is no sensed event, a ventricular output occurs at the programmed A-V interval.
Ap Ap Ap Ap Ap * * * * * * * * * * ° ° ° Vs Vp Vp Vs Vp Vs Vp Vp Ventricular Safety Pacing (VSP) 1 2 3 4 5 = AV interval (160 ms) Lower rate = 54 ppm Upper rate = 180 ppm V-A interval = 860 ms = PVARP (250 ms) = indicates cycle restarted by sensed or paced event