Hendrik M. Leerssen scite author profile

After an abrupt decrease in pacing cycle length (PCL), the ventricular effective refractory period (VERP) shortens. The pacing protocol needed to determine accurate and reproducible values for the VERP during this process is elaborate and time consuming. In this study, steady-state values of VERP at 800 and 350 msec PCL and dynamic values of VERP due to an abrupt change in PCL from 800 to 350 msec were determined. This was done for 11 different dogs to test the interindividual variation and repetitively in the same dog to test the intraindividual variation. The results for steady-state and dynamic values of the VERP show a wide range for both groups. This means that accurate prediction of steady-state and dynamic values of VERP based on previous measurements is not possible.

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Steady‐State and Dynamic Behavior of Ventricular Repolarization and Refractoriness in the Dog: The Effect of Multiple Cycle Length Changes and d‐Sotalol Administration

Leerssen

Vos

Bulk

et al. 1998

Pacing Clinical Electrophis

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In anesthetized dogs with chronic, complete AV block we studied the characteristics of ventricular repolarization and refractoriness. Therefore, we determined: (1) steady-state values of ventricular effective refractory period (VERP), action potential duration (APD), and stimulus T interval (STI) before and after d-sotalol treatment at various pacing cycle lengths (PCLs); and (2) the dynamics of VERP, APD, and STI before and after d-sotalol treatment after the abrupt PCL decreases. VERP, APD, and STI showed a normal frequency dependency. All three parameters increased significantly after d-sotalol administration. During steady-state and dynamic measurements, STI was always longer than APD and APD was always longer than VERP in an individual animal, irrespective of PCL and conditions. Standard deviations of steady-state and dynamic values indicated a considerable interindividual variation. However, the dynamics of VERP, APD, and STI after an abrupt decrease in PCL were highly correlated (linear regression analysis: r2 > or = 0.93). The best mathematical model to describe these dynamics was a bi-exponential model (r2 > or = 0.98) with a very short first and a much longer second time constant. We found that there was a very consistent relation between VERP, APD, and STI, not only during steady-state but also in the dynamic situation after various abrupt PCL decreases. This relation does not change after the administration of d-sotalol. Therefore, STI could be used to predict steady-state and dynamic values of VERP and APD. Since STI can be made available online in implantable pacing systems this could lead to the development of new features in these devices.

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Rate Dependent Effects of Procainamide on the Threshold Current for Pacing in the Setting of Postrepolarization Refractoriness in Dogs

Leerssen

Vos

Dulk

et al. 1999

Pacing Clinical Electrophis

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Normally, ventricular APD exceeds the VERP. However, under specific circumstances this relation may change and can become inverse. This phenomenon of postrepolarization refractoriness may be caused by a decrease in excitability. The threshold current (TC) for pacing has never been quantified as a possible explanation for these observations. Using a MAP pacing catheter in the right ventricular apex, the rate dependent behavior of TC, VERP, and APD before and after procainamide (dose 20 mg/kg in 10 min + 5 mg/min infusion) was determined in 17 dogs with chronic complete AV block. Initially, TC was determined with 0.1 mA accuracy. Using a pacing current of at least twice TC, VERP and APD showed a similar, rate dependent shortening for PCLs 800, 575, and 350 ms. Procainamide treatment led to an equal, rate independent VERP and APD increase: no post repolarization refractoriness. Subsequently, accuracy for TC determination was increased to 0.01 mA. Comparing PCLs 800 and 250 ms, TC doubled from 0.05 +/- 0.01 to 0.10 +/- 0.09 mA during control and almost tripled from 0.06 +/- 0.02 to 0.17 +/- 0.10 mA (P < 0.05) after procainamide. Using a fixed pacing current of exactly twice TC found at 800 ms PCL during control, VERP exceeded APD after procainamide treatment at 300 and 250 ms PCL: postrepolarization refractoriness. Increasing the pacing current to twice the rate dependent TC, the relation between VERP and APD normalized: no postrepolarization refractoriness. We conclude that after procainamide, rate dependent TC increase is of major importance for the phenomenon of postrepolarization refractoriness.

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Is the Ventricular Effective Refractory Period Different When Determined by Incremental Versus Decremental Scanning?: The Effect of Pacing Cycle Length, d‐Sotalol, and Levcromakalim

Leerssen

Vos

Dulk

et al. 1994

Pacing Clinical Electrophis

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In the clinical setting, the ventricular effective refractory period (VERP) is determined by an 8-beat drive train (S1S1), followed by a premature stimulus (S2), which is decremented in subsequent drive trains until capture is lost. Variation in intertrain pauses and capturing extra stimuli disturb steady-state conditions and reduce reproducibility of values found for the VERP. To increase reproducibility, a protocol without intertrain pause and incremental scanning (IS) of S2 was developed. In anesthetized dogs with chronic AV block, determination of the VERP using IS and decremental scanning (DS) without intertrain pause was compared at 800 and 350 msec pacing cycle length (PCL). The measurements were repeated after the administration of d-sotalol to lengthen the VERP and levcromakalim to shorten the VERP. The results showed no difference between IS and DS at both PCLs with or without medication. Recurrent and abrupt rate changes were avoided during IS, making this the protocol of choice when induction of arrhythmias is to be avoided.

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