Effects of sequential biventricular pacing during acute right ventricular pressure overload

Departments of 1 Biomedical Engineering, 2 Surgery, and 3 Biostatistics, Columbia University, New York, New York Submitted 3 May 2006 ; accepted in final form 1 June 2006 Temporary sequential biventricular pacing (BiVP) is a promising treatment for postoperative cardiac dysfunction, but the mechanis...

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Veröffentlicht in:American journal of physiology. Heart and circulatory physiology 2006-11, Vol.291 (5), p.H2380-H2387
Hauptverfasser: Quinn, T. Alexander, Berberian, George, Cabreriza, Santos E, Maskin, Lauren J, Weinberg, Alan D, Holmes, Jeffrey W, Spotnitz, Henry M
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Sprache:eng
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Zusammenfassung:Departments of 1 Biomedical Engineering, 2 Surgery, and 3 Biostatistics, Columbia University, New York, New York Submitted 3 May 2006 ; accepted in final form 1 June 2006 Temporary sequential biventricular pacing (BiVP) is a promising treatment for postoperative cardiac dysfunction, but the mechanism for improvement in right ventricular (RV) dysfunction is not understood. In the present study, cardiac output (CO) was optimized by sequential BiVP in six anesthetized, open-chest pigs during control and acute RV pressure overload (RVPO). Ventricular contractility was assessed by the maximum rate of increase of ventricular pressure (dP/d t max ). Mechanical interventricular synchrony was measured by the area of the normalized RV-left ventricular (LV) pressure diagram ( A PP ). Positive A PP indicates RV pressure preceding LV pressure, whereas zero indicates complete synchrony. In the control state, CO was maximized with nearly simultaneous stimulation of the RV and LV, which increased RV ( P = 0.006) and LV dP/d t max ( P = 0.002). During RVPO, CO was maximized with RV-first pacing, which increased RV dP/d t max ( P = 0.007), but did not affect LV dP/d t max , and decreased the left-to-right, end-diastolic pressure gradient ( P = 0.023). Percent increase of RV dP/d t max was greater than LV dP/d t max ( P = 0.014). There were no increases in end-diastolic pressure to account for increases in dP/d t max . In control and RVPO, RV dP/dt max was linearly related to A PP ( r = 0.779, P < 0.001). The relation of CO to A PP was curvilinear, with a peak in CO with positive A PP in the control state ( P = 0.004) and with A PP approaching zero during RVPO ( P = 0.001). These observations imply that, in our model, BiVP optimization improves CO by augmenting RV contractility. This is mediated by changes in mechanical interventricular synchrony. Afterload increases during RVPO exaggerate this effect, making CO critically dependent on simultaneous pressure generation in the RV and LV, with support of RV contractility by transmission of LV pressure across the interventricular septum. ventricular mechanics; interventricular synchrony; cardiac output; perioperative pacing; cardiac resynchronization therapy Address for reprint requests and other correspondence: H. M. Spotnitz, Columbia Univ. College of Physicians & Surgeons, 622 W. 168th St., PH 14-103, New York, NY 10032 (e-mail: hms2{at}columbia.edu )
ISSN:0363-6135
1522-1539
DOI:10.1152/ajpheart.00446.2006