Hemodynamic comparison of ventricular pacing, atrioventricular sequential pacing, and atrial synchronous ventricular pacing using radionuclide ventriculography

To assess the hemodynamic effects of physiologic pacing, 13 patients with DDD pacemakers who had varying degrees of atrioventricular (AV) block were studied with radionuclide ventriculography during VVI, DVI and VDD modes. Radionuclide ventriculography was performed with patient in the supine position at rest 5 to 10 minutes after the pacing mode and AV delay were changed. The AV delays selected were short (mean 147 +/- 4.8 ms) and long (mean 197 +/- 4.8 ms), with a constant difference of 50 ms. During VVI, 6 patients (group 1) had a left ventricular ejection fraction of 40% or less (mean 22 +/- 11) and 7 patients (group 2) had an ejection fraction of more than 40% (mean 59 +/- 11). Comparisons of ejection fraction, end-diastolic volume and cardiac index between VVI and both modes of AV pacing (VDD and DVI) and between long and short AV delays led to the following conclusions: DVI or VDD pacing produces more beneficial hemodynamic effects than VVI, and these effects are more pronounced in patients with low ejection fraction if longer AV delay is used. The VDD mode significantly improves ventricular function over the DVI mode in patients with an ejection fraction of more than 40% independent of heart rate. Longer AV delay is essential in patients with an ejection fraction of 40% or less to improve ventricular function with physiologic pacing.     

Importance of left atrial timing in the programming of dual-chamber pacemakers

To determine the hemodynamic effect of different programmed atrioventricular (AV) delays and the importance of the actual timing of left atrial (LA) depolarization, 16 patients with dual-chamber pacemakers were studied and all were found to have an optimal programmed AV delay for cardiac function. However, randomly chosen AV delays of 150, 200 or 250 ms actually provided worse stroke volume than VVI pacing in 7 patients. The optimal programmed AV delay was variable between patients and was related to the interatrial conduction delay, measured as the time from right atrial pacing artifact to LA depolarization (mean 144 +/- 82 ms, range 70 to 380.) Patients with short interatrial delays (less than or equal to 90 ms) were served better by shorter programmed AV delays (150 ms), and patients with longer interatrial delays (greater than or equal to 120 ms) were served better by longer programmed AV delays (greater than or equal to 200 ms) (p less than 0.05). Furthermore, as pacing mode changed from dual-chamber sequential pacing (DVI) to atrial synchronous ventricular pacing (VDD), the LA to ventricular sequence increased from 6 +/- 81 ms to 137 +/- 50 ms (p less than 0.001). This change in the LA to ventricular sequence with mode change produced a significant decrease in stroke volume (p less than 0.05). Thus, the optimal programmed AV delay in patients with dual-chamber pacemakers is predicted by the relation of LA and ventricular activation. Because interatrial conduction delays vary widely, optimal programming requires knowledge of the LA to ventricular sequence.(ABSTRACT TRUNCATED AT 250 WORDS)     

Preimplantation echo Doppler evaluation of VVI versus DDD pacing

This study was carried out to select before permanent pacemaker implantation patients with complete atrioventricular block (CHB) who would benefit best from DDD pacing, and to determine the optimal atrioventricular delay (AVD) for each of those patients. This was achieved with the aid of Doppler echocardiography. The effect of different AVDs on both the systolic and diastolic function of the normal and failing heart was also delineated in this study. METHODS: Thirty patients with CHB and normal sinoatrial function were selected, with no age or sex predilection. These patients were categorized into three equal groups: groups A, B, and C with normal left ventricular (LV) systolic and diastolic function, LV diastolic dysfunction, and LV systolic dysfunction, respectively. For each patient, systolic and diastolic function was calculated utilizing echo Doppler during CHB, temporary VDD pacing with different AVDs, and temporary VVI pacing with a rate matching that during VDD mode. Temporary VDD mode of pacing was performed utilizing a temporary bipolar ventricular lead for ventricular pacing and an esophageal lead for atrial sensing to trigger ventricular pacing. RESULTS: Qualitatively the most obvious change in the pattern of LV filling as AVD is increased in the three groups, is the earlier occurrence of active atrial filling A wave due to progressive approximation of the ECG P wave toward the previous QRS. As the AV interval is increased, the following changes occur: (a) A wave occurs progressively earlier with superimposition onto the early filling E wave resulting in a progressive increase in its velocity (VA), its FVI, and its percent atrial contribution (%AC); (b) the three times diastolic filling time (DFT), mitral valve opening to Q wave (MVO-Q), and closure (Q-MVC) progressively shorten; (c) since DFT decreases, less passive filling occurs early during diastole, thus E.FVI decrease with longer AV intervals; (d) the ratios VE/VA and FVI E/A decrease subsequently to the previous described changes. Compared to CHB, percent ejection fraction (% EF) was not significantly changed during VVI pacing. Percent EF increased significantly during VDD in comparison to VVI pacing modes. Percent EF was highest at optimal AVD and decreased as this AVD increased or decreased. The cardiac output (CO) increment during VDD in comparison to VVI pacing modes differed much among the three groups. In group A, a 10.29% increase in CO was seen when comparing VDD pacing (with optimal AVD) with that of VII one; in group B, this increment was much greater and reached 29.48%; in group C it reached 23.68%.(ABSTRACT TRUNCATED AT 400 WORDS)     

The haemodynamic importance of atrioventricular synchrony and rate increase at rest and during exercise

To compare the added haemodynamic importance of atrioventricularsynchrony to rate increase, we studied 10 patients, healthyexcept for atrioventricular block, treated with atrioventricularsynchronous pacemakers. Haemodynamic data were obtained by brachialand pulmonary arterial catheterisation. Recordings were madeat rest and during upright bicycle ergometry at two submaximalwork loads (50% and 80% of maximal aerobic exercise tolerance).The investigation was first performed in the atrioventricularsynchronous mode of pacing ( VDD) and later repeated duringfixed-rate ventricular pacing ( VVI) at ventricular rates adjustedto the levels achieved during atrioventricular synchronous pacing.At rest (mean rate 74 bpm), preserved atrioventricular synchronyincreased cardiac output (5.0±0.7lmin¹; mean±SD)compared with asynchrony (4.5±l.0; P<0.05), owingto a higher stroke volume (70±19 versus 64±22ml;P < 0.05), illustrating the importance of the atrial contributionto ventricular filling. During exercise at 50% (mean rate 122bpm) and 80% (mean rate 146 bpm) of maximal aerobic tolerance,there were no significant differences in cardiac output (50%:VVI 10.l±2.5, VDD 10.5±l.6 NS; 80%: VVI 12.8±4.l,VDD 12.3±3.5, NS) or in stroke volume (50%: VVI 83±23,VDD 88±17, NS; 80%: VVI 89±32, VDD 85 ±27,NS). We conclude that the capacity for rate increase is of majorimportance while preserved atrioventricular synchrony seemsto be much less important for the ability of the individualto increase cardiac output during exercise, at least in patientswithout myocardial disease.     

二维超声观察AAI与VVI起搏前后血流动力学的变化

作者对２３例安装永久性起搏器患者，采用二维超声，比较起搏器植入前后血流动力学的变化。结果显示:植入后心房按需起搏（ＡＡＩ）组和心室按需起搏（ＶＶＩ）组的心排血量均明显增加（Ｐ＜０．０５），分别增加４０．６％和２１．２％；但植入后ＶＶＩ组的左室射血分数、每搏量、左室舒张末期容积均降低（Ｐ＜０．０５），ＡＡＩ组无变化。研究表明ＡＡＩ生理性起搏对于患者血流动力学的改善优于ＶＶＩ非生理性起搏。心排血量是评价血流动力学改善的敏感指标     

Evaluation by pulsed Doppler echocardiography of the atrial contribution to left ventricular filling in patients with DDD pacemakers

To evaluate the significance of the left atrial (LA) contribution to left ventricular (LV) filling in cardiac pacing, LV inflow velocity was recorded with pulsed Doppler echocardiography in 20 patients with a DDD pacemaker. The pacemaker was programmed to atrioventricular (AV) sequential pacing with AV intervals of 50, 100, 150, 200 and 250 ms, and then to VVI pacing at a fixed rate of 70 beats/min. To evaluate the relative changes of LV filling volume in individual patients, the percent change in time-velocity integral of LV inflow velocity in each pacing mode was calculated as the ratio to that of AV sequential pacing with an AV interval of 150 ms. To estimate the degree of LA contribution to LV filling, the ratio of time-velocity integral during LA ejection phase to that during total LV filling phase was measured at the optimal AV interval. The percent LV inflow volume in AV sequential pacing was 74% for an AV interval of 50 ms, 87% for 100 ms, 98% for 200 ms and 90% for 250 ms. The percent LV inflow volume in VVI pacing was 72%. The percent LV inflow volume at AV intervals of 150 ms was significantly greater than that at an AV interval of 50, 100 and 250 ms, and in VVI pacing (p less than 0.05). The degree of LA contribution to LV filling showed a positive correlation with the percent increase of LV inflow volume with mode conversion from VVI to AV sequential pacing (p less than 0.005) and also with age (p less than 0.005).(ABSTRACT TRUNCATED AT 250 WORDS)     

The hemodynamic benefit of differential atrioventricular delay intervals for sensed and paced atrial events during physiologic pacing

The ability to program different atrioventricular (AV) delay intervals for paced and sensed atrial events is incorporated in the design of some newer dual chamber pacemakers. However, little is known regarding the hemodynamic benefit of differential AV delay intervals or the magnitude of difference between optimal AV delay intervals for paced and sensed P waves in individual patients. In this study, Doppler-derived cardiac output was used to examine the optimal timing of paced and sensed atrial events in 24 patients with a permanent dual chamber pacemaker. The hemodynamic effect of utilizing separate optimal delay intervals for sensed and paced events compared with utilizing the same fixed AV delay interval for both was determined. The optimal delay interval during DVI (AV sequential) pacing and VDD (atrial triggered, ventricular inhibited) pacing at similar heart rates was 176 +/- 44 and 144 +/- 48 ms (p less than 0.002), respectively. The mean difference between the optimal AV delay intervals for sensed (VDD) and paced (DVI) P waves was 32 ms and was up to 100 ms in some individuals. The difference between optimal AV delay intervals for sensed and paced atrial events was similar in patients with complete heart block and those with intact AV node conduction. At the respective optimal AV delay intervals for sensed and paced P waves, there was no significant difference in the cardiac output during VDD compared with DVI pacing. However, cardiac output significant declined during VDD pacing at the optimal AV delay interval for a paced event and during DVI pacing at the optimal interval for a sensed event.(ABSTRACT TRUNCATED AT 250 WORDS)     

Noninvasive assessment of pacemaker hemodynamics by Doppler echocardiography: importance of left atrial size

The relative decrease in cardiac output with ventricular pacing versus "physiologic" modes was measured noninvasively using Doppler echocardiography in 26 patients. Standard echocardiographic measurements of left ventricular size (diastolic diameter), left ventricular function (shortening fraction) and left atrial size were examined to determine which of these variables might best identify patients more likely to benefit from maintenance of atrioventricular (AV) synchrony. Decreases in relative cardiac output, expressed as reduction in the Doppler-derived flow velocity integral, with loss of AV synchrony ranged from 0 to 43% (mean decrease 21%). There was no correlation between left ventricular size or function and effect of pacing mode on relative cardiac output. There was, however, correlation between left atrial size and sensitivity to pacing mode. Patients with normal left atrial size were significantly more sensitive to loss of AV synchrony. In this subgroup, the decrease in flow velocity integral with ventricular pacing was 32 +/- 11% compared with only 11 +/- 13% in patients with left atrial enlargement. Thus, Doppler echocardiography is useful in assessing optimal pacing mode in the individual patient. Echocardiographically measured left atrial size may identify patients in whom physiologic pacing may be major benefit.     

Comparative evaluation of various methods of continuous electric stimulation of the heart in bradycardia

An analysis was made of the results from clinical application of various implanted systems of cardiac pacing, such as VVI for isolated ventricular pacing, AAI for atrial pacing, VDD, DVI, and DDD for dual chamber pacing, and "Activitrax" for rate responsive pacing. Indications and contraindications for the use of each cardiac pacing mode and possible complications were also considered.     

Beneficial effects of atrioventricular synchrony in dogs with right coronary artery embolization, and complete heart block

Complete heart block complicating right ventricular infarction frequently is accompanied by shock. Hemodynamic responses to different pacing modes were studied in six anesthetized, closed chest dogs following right coronary artery embolization with mercury and heart block induced by repetitive trans-septal DC shock. Hemodynamics were recorded at control, following right coronary artery embolization, during atrioventricular sequential pacing (DVI) and ventricular pacing (VVI). With respect to the hemodynamics recorded during VVI and DVI pacing; (1) The mean arterial pressure increased by 29.4% during DVI pacing (92.1 +/- 31.3 mm Hg vs 73.4 +/- 28.9 mm Hg p less than 0.005). This increase was primarily due to an augmentation in systolic arterial pressure. (2) The left ventricular end diastolic pressure increased by 35.8% during DVI pacing (16.3 +/- 5.3 mm Hg vs 12.0 +/- 4.3 mm Hg p less than 0.01). (3) Cardiac output improved by 33.8% during DVI pacing (2.34 +/- 0.75 L/min vs 1.76 +/- 0.59 L/min, p less than 0.0005). This was a consistent improvement in cardiac output with a narrow range of 27.1% to 39.0%. (4) There were no significant changes in right atrial, pulmonary, pulmonary capillary wedge pressures or in systemic vascular resistance. In dogs with right coronary artery occlusion and complete heart block DVI pacing is clearly superior to VVI pacing. This is probably because the atrial contribution to ventricular filling, in this model, is critically important to maintain an adequate cardiac output.     

M-mode echocardiograms for determination of optimal left atrial timing in patients with dual chamber pacemakers

To determine if the A wave of the mitral valve echocardiogram can be used as a marker for left atrial (LA) activity and assist in the programming of dual chamber pacemakers, 156 echocardiograms with the mitral A wave present were obtained from 23 patients with dual chamber pacemakers, all of whom had bipolar esophageal recordings of LA depolarization. Twelve of these patients also underwent hemodynamic study with cardiac function determined at 5 different pacemaker settings: ventricular demand pacing and dual chamber sequential pacing at 0 or 25, 150, 200 and 250 ms programming atrioventricular (AV) delay. The time delay from right atrial pacing artifact to onset and peak of mitral A wave was linearly related to the time from atrial pacing artifact to LA depolarization on the esophageal lead (p less than 0.001). As pacing mode changed from dual chamber sequential pacing (DVI) mode to atrial synchronous-ventricular pacing (VDD), the A wave came earlier relative to the ventricular pacing spike, linearly related to the LA to ventricular extension with mode change determined with the esophageal lead (r = 0.94, p less than 0.001). The time from atrial pacing to peak of A wave was shorter in patients whose optimal programmed AV delay was 150 ms compared with those whose optimal AV delay was 200 or 250 ms (p less than 0.02). At the optimal programmed delay for cardiac output, the peak of the A wave was an average of 13 +/- 36 ms after the ventricular pacing spike.(ABSTRACT TRUNCATED AT 250 WORDS)     

Atrial synchronous ventricular pacing in ischaemic heart disease

Atrial synchronous pacing has been considered contraindicatedin patients with a high degree of atrioventricular block andconcomitant ischaemic heart disease. The rationale for thisview was a fear of provoking angina pectoris by a rate-dependentincrease in myocardial oxygen consumption. As possible problemswith atrial synchronous pacing in patients with ischaemic heartdisease have not been extensively studied we have examined whetherthese patients could benefit from this more physiological methodof pacing. Thirteen patients with ischaemic heart disease and a high degreeof atrioventricular block were supplied with pacemakers, programmableboth in reference to the pacing mode (ventricular inhibited(VVI) or atrial synchronous ventricular inhibited (VDD)) andfor maximal synchronous rate. The patients were examined withthe pacemaker programmed in the VVI and VDD modes. Maximal exercisecapacity was determined by means of bicycle ergometry. Therewas a statistically significant increase in exercise capacitywhen comparing VVI (67+24) with VDD (79+25, P<0.001) pacingwith suitable programming of maximal synchronous rate. No patientexperienced increased anginal pain on VDD pacing and all preferredVDD compared to VVI pacing. In conclusion, VDD pacing shouldnot be considered contraindicated in patients with ischaemicheart disease and a high degree of atrioventricular block, andmay on the contrary, contribute to further clinical improvement.     

A comparison of sympathoadrenal activity and cardiac performance at rest and during exercise in patients with ventricular demand or atrial synchronous pacing

Cardiac sympathetic function was assessed by measuring the coronary sinus overflow of noradrenaline and dopamine at rest and during supine exercise in eight patients with high degree atrioventricular block treated with dual chamber pacemakers (DDD). Patients exercised (30-60 W) during both ventricular inhibited (VVI) and atrial synchronous (VAT) pacing. During exercise cardiac output increased less markedly in the VVI mode than in the VAT mode. The cardiac output response was entirely stroke volume dependent in the VVI mode and mainly heart rate dependent in the VAT mode. Coronary sinus noradrenaline concentrations were higher in the VVI mode at rest and during exercise. Noradrenaline overflow from the heart was enhanced during VVI pacing and increased from about 100 pmol/min (17 ng/min) at rest to 1087 pmol/min during exercise (60 W) in the VVI mode and 545 pmol/min in the VAT mode. Dopamine overflow from the heart was less than 5 pmol/at rest but increased 2-5 fold during exercise. Also arterial concentrations of catecholamine increased more during exercise in the VVI mode, but the differences between pacing modes were less pronounced. Circulating adrenaline seems to be of little importance for cardiac function under these conditions; in healthy individuals the arterial concentrations of adrenaline attained in this study have small effects. Cardiac noradrenaline overflow correlated with pulmonary capillary venous pressures and atrial rates in both pacing modes, indicating a relation between cardiac sympathetic activity and cardiac function. Enhanced cardiac release of noradrenaline may increase cardiac contractility and thereby partially compensate for the lack of heart rate responsiveness to exercise during VVI pacing.     

A comparison of sympathoadrenal activity and cardiac performance at rest and during exercise in patients with ventricular demand or atrial synchronous pacing.

Cardiac sympathetic function was assessed by measuring the coronary sinus overflow of noradrenaline and dopamine at rest and during supine exercise in eight patients with high degree atrioventricular block treated with dual chamber pacemakers (DDD). Patients exercised (30-60 W) during both ventricular inhibited (VVI) and atrial synchronous (VAT) pacing. During exercise cardiac output increased less markedly in the VVI mode than in the VAT mode. The cardiac output response was entirely stroke volume dependent in the VVI mode and mainly heart rate dependent in the VAT mode. Coronary sinus noradrenaline concentrations were higher in the VVI mode at rest and during exercise. Noradrenaline overflow from the heart was enhanced during VVI pacing and increased from about 100 pmol/min (17 ng/min) at rest to 1087 pmol/min during exercise (60 W) in the VVI mode and 545 pmol/min in the VAT mode. Dopamine overflow from the heart was less than 5 pmol/at rest but increased 2-5 fold during exercise. Also arterial concentrations of catecholamine increased more during exercise in the VVI mode, but the differences between pacing modes were less pronounced. Circulating adrenaline seems to be of little importance for cardiac function under these conditions; in healthy individuals the arterial concentrations of adrenaline attained in this study have small effects. Cardiac noradrenaline overflow correlated with pulmonary capillary venous pressures and atrial rates in both pacing modes, indicating a relation between cardiac sympathetic activity and cardiac function. Enhanced cardiac release of noradrenaline may increase cardiac contractility and thereby partially compensate for the lack of heart rate responsiveness to exercise during VVI pacing.     

Effect of dual-chamber pacing on systolic and diastolic function in patients with hypertrophic cardiomyopathy Acute doppler echocardiographic and catheterization hemodynamic study

Objectives. This study sought to evaluate prospectively the acute hemodynamic effect of dual-chamber pacing by using a combined hemodynamic approach of high fidelity pressure and Doppler velocity measurements.Background. Dual-chamber pacing has been proposed recently as an alternative in the symptomatic treatment of patients with hypertrophic obstructive cardiomyopathy. Although early reports documented a decrease in left ventricular outflow tract gradient and symptomatic improvement, questions remain about the hemodynamic effects of dual-chamber pacing on systolic and diastolic function.Methods. Twenty-nine patients with hypertrophic cardiomyopathy underwent a combined cardiac catheterization and Doppler echocardiographic study during normal sinus rhythm and P-synchronous pacing at various atrioventricular (AV) intervals. High fidelity pressure measurements of left ventricular inflow and left atrial pressures, ascending aortic pressure, thermodilution cardiac output and Doppler mitral flow velocity curves were obtained to evaluate both systolic and diastolic left ventricular function.Results. During AV pacing at the shortest delay of 60 ms, there was a significant decrease in cardiac output (p < 0.05) and peak positive dP/dt (p < 0.05), an increase in mean left atrial pressure (p < 0.05) and a prolongation of τ, the time constant of relaxation (p < 0.05), compared with that during normal sinus rhythm. During pacing at the optimal AV delay (longest AV interval with pre-excitation), there was a similar trend, with deterioration in both systolic and diastolic function variables but of lesser magnitude than that during pacing at the shortest AV intervals. The deterioration in both systolic and diastolic function was present in 21 patients with and 8 without left ventricular outflow obstruction. There was a modest decrease in left ventricular outflow tract gradient from 73.3 ± 45.0 (mean ± SD) to 61.3 ± 40.5 mm Hg (p = 0.03) during dual-chamber pacing at the optimal AV delay compared with that during normal sinus rhythm.Conclusions. The acute effect of pacing the right atrium and ventricle may be detrimental to both systolic and diastolic function of the left ventricle, particularly at the short AV intervals. Further studies of the long-term effects of dual-chamber pacing in carefully performed randomized studies are needed.     

Reevaluation of the role of atrial systole to cardiac hemodynamics: Evidence for pulmonary venous regurgitation during abnormal atrioventricular sequencing

Twenty open-chest dogs with experimental AV heart block were evaluated hemodynamically, angiographically, and by M-mode echocardiography to further elucidate mechanisms whereby abnormal AV sequencing results in decreased cardiac hemodynamics. During fixed-rate AV pacing, there was a consistent decrease in cardiac output, left ventricular and aortic pressures, and left ventricular dimensions with an increase in left atrial pressure as the AV interval was decreased from 100 to 0 msec, and there were further changes when the AV interval was set at ?50 and ?100 msec. The hemodynamic consequences of atrial fibrillation with regular ventricular rhythms were similar to the effects of an AV interval of 0 msec. It is important to note that retrograde blood flow into the pulmonary venous system (pulmonary venous regurgitation) was demonstrated by left atrial angiography at AV intervals of both ?50 and ?100 msec. However, left ventricular angiography failed to reveal mitral regurgitation during fixed-rate pacing at any AV interval or during atrial fibrillation with regular ventricular rates. Thus, during tachyarrhythmias characterized by abnormal AV sequencing, not only is there the loss of active atrial contribution to ventricular filling but there is also evidence for a retrograde or “negative atrial kick” further compromising cardiac hemodynamics.     

Selection of Pacing Mode after Interruption of Atrioventricular Conduction for Atrial Fibrillation: Observations from the PA3 Clinical Trial

The optimal pacing mode for patients with paroxysmal atrial fibrillation (AF) following AV junction ablation remains the subject of some debate. Recent clinical trials have not demonstrated a superior advantage of maintenance of sinus rhythm over the rate control approach. However, clinical trials in pacemaker populations have demonstrated that physiologic pacing reduces the probability of paroxysmal and persistent AF compared to ventricular pacing. In the second phase of the PA(3) study, patients were randomized to DDDR versus VDD pacing in a cross over study design. Of the 67 patients randomized, 42% developed permanent AF within one year following ablation. AF frequency and burden increases early following AV junction ablation suggesting that ventricular pacing even in an atrial synchronous mode promotes AF. Given the high probability of permanent AF developing early following ablation, VVIR pacing appears to be the appropriate pacing mode for symptomatic patients undergoing total AV junction ablation.     

Respiration-dependent ventricular pacing compared with fixed ventricular and atrial-ventricular synchronous pacing: aerobic and hemodynamic variables

A pacemaker that adapts heart rate in response to the patient's metabolic requirements has been developed. The pacemaker uses breathing frequency and tidal volume as the indicators of physiologic demand. Maximal physical work capacity, anaerobic threshold, oxygen uptake (16 patients) and hemodynamic variables (9 patients) were assessed with fixed rate (VVI), atrial synchronous (VDT/I) and respiration-dependent ventricular (VVI-RD) pacing. All subjects attained their anaerobic threshold in stress tests with VVI pacing. The maximal physical capacity (p less than 0.001), work time to attain the anaerobic threshold (p less than 0.01) and oxygen uptake (p less than 0.001) were significantly greater with VVI-RD than with VVI pacing. The transition from the supine to the standing position was characterized by a significant increase of cardiac index at rest with both VDT/I and VVI-RD pacing as compared with VVI pacing. Progressive increments in the cardiac index and average left ventricular stroke work index were significantly different at submaximal and maximal exercise when VVI and VVI-RD were compared. At maximal exercise, mean cardiac output was also significantly different: 10.21 +/- 2.5 (SD) liters/min with VVI, 11.2 +/- 0.8 liters/min with VDT/I (p less than 0.05) and 12.65 +/- 3.1 liters/min with VVI-RD (p less than 0.05) pacing. Maximal oxygen extraction values were greater with VVI and VVI-RD pacing than with VDT/I pacing. Pulmonary artery end-diastolic pressures at maximal exercise were within the normal range with the three different modes of pacing. In conclusion, there is a significant (25%) improvement in exercise performance with VVI-RD pacing as compared with VVI pacing.(ABSTRACT TRUNCATED AT 250 WORDS)     

Pacemaker syndromes

The pacemaker syndrome refers to symptoms and signs in pacemaker patients caused by inadequate timing of atrial and ventricular contractions. The lack of normal atrioventricular synchrony may result in decreased cardiac output and increased in atrial pressure which elicits a systemic hypotensive reflex response. These hemodynamic disturbances mostly occur in the presence of retrograde VA conduction is present. The incidence of pacemaker syndrome is uncertain, and varies from 7% to 20% of all ventricular paced patients. Neurologic symptoms or symptoms suggesting low cardiac output or congestive heart failure are indicative of the pacemaker syndrome. These symptoms may vary from mild to severe, they are nonspecific and very common among cardiac patients with or without pacemaker. In many patients they are not even noted until AV synchrony is restored. The pacemaker syndrome is not restricted to the VVI stimulation mode. It can be seen, though rarely, in atrial and even dual-chamber pacing (VDD, DDI, DDD). In these cases it is usually occasional and may be due to inappropriate programming or selection of the pacing mode.     

Doppler echocardiography determination of systolic and diastolic function in sequential and ventricular stimulation

In 16 patients with sequential pacing and partly impaired left-ventricular function (mean shortening fraction 23 +/- 7%), the flow through the mitral and aortic valves were studied with Doppler echocardiography at different AV-intervals, keeping heart rate constant at 70/min. The time-velocity integral of the early and late diastolic filling, the first one-third filling fraction, and the diastolic-filling time were found to be significantly dependent on the length of the AV interval (p less than 0.001). In the left ventricular outflow tract, the maximum stroke volume of 85.6 +/- 28.4 ml was measured at an AV interval of 200 ms. The stroke volume under VOO stimulation (70.5 +/- 24.1 cm) was 17% less (p less than 0.003). There was no correlation between the increase in stroke volume during sequential pacing and M mode or Doppler echocardiographic parameters. Thus, the haemodynamic benefit of sequential pacing cannot be predicted by echocardiography. Doppler echocardiography is useful for determining the AV interval leading to the maximal cardiac output at rest. In the Doppler echocardiographic assessment of left-ventricular function, the influence of the AV interval on diastolic-filling parameters must be considered.