Abstract
Cycle length windowing is gaining increasing acceptance in gated blood pool imaging of patients with atrial fibrillation (AF). The goals of this study were: to assess differences of ejection fraction (EF) in AF with and without windowing and to determine how EF varied with cycle length in patients with AF. Twenty patients with AF were prospectively studied by gated blood pool imaging, with simultaneous collection in each patient of 5–7 studies with cycle length windows spanning the cycle length histogram. Each window accepted beats of only a narrow range of cycle lengths. EF was determined for each of the narrow cycle length windows as well as for the entire gated blood pool study without cycle length windowing. For every patient an average of the windowed EFs was compared with the non-windowed EF. EF values were similar (mean windowed: 46.6; non-windowed: 45.5; P=0.16), and there was a good correlation between the two techniques (r=0.97). The data were then examined for a relationship of EF with cycle length. The difference from average windowed EF (ΔEF) was calculated for each window and plotted vs. the cycle length of the center of each window. No predictable linear or nonlinear relationship of ΔEF with window position was observed. Lack of predictable variation of EF with cycle length is likely due to lack of a predictable amount of ventricular filling for a given cycle length, as the amount of diastolic filling in AF depends on the random cycle length of the preceding beat. In summary, windowing in AF does not provide a clinically significant difference in EF determination. If cycle length windowing is used, the exact location of the window is not critical.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bacharach SL, Green MV (1982) Data processing in nuclear cardiology: measurement of ventricular function. IEEE Trans Nucl Sci NS-29 (4):1343–1353
Bacharach SL, Green MV, Borer JS (1979) Instrumentation and data processing in cardiovascular nuclear medicine: evaluation of ventricular function. Sem Nucl Med 9:257–274
Bacharach SL, Green MV, Borer JS, Ostrow HG, Bonow RO, Farkas SP, Johnston GS (1980) Beat-by-beat validation of ECG gating. J Nucl Med 21:307–313
Bacharach SL, Green MV, Bonow RO, Findley SL, Ostrow HG, Johnston GS (1981) Measurement of ventricular function by ECG gating during atrial fibrillation. J Nucl Med 22:226–231
Erbel R, Schneider P, Krebs W, Langen H-J, Meyer J, Effert S (1984) Effects of heart rate changes on left ventricular volume and ejection fraction: a 2-dimensional echocardiographic study. Am J Cardiol 53:590–597
Ganong WF (1973) Review of medical physiology. Lange Medical, Los Altos, CA, USA
Hammermeister KE, Warbasse JR (1974) The rate of change of left ventricular volume in man: diastolic events in health and disease. Circulation 49:739–747
Johnson TK, Boudreau RJ, Loken MK (1985) Dependence of measured diastolic function on acquisition mode: gated vs. list. J Nucl Med 26:107
Juni JE, Chen C (1988) Effects of gating modes on the analysis of left ventricular function in the presence of heart rate variation. J Nucl Med 29:1272–1278
Juni JE, Froelich JE, McMeekin J, Bourdillon P, Rocchini A, Botti J, Buda A, Pitt B (1983) The effects of heart rate variability on scintigraphic measurements of diastolic function. Circulation 68:111–246
Kalff V, Chan W, Rabinovitch M, O'Neill W, Stewart J, Walton J, Thrall JH, Pitt B (1982) Radionuclide evaluation of post-extrasystolic potentiation of left ventricular function induced by atrial and ventricular stimulation. Am J Cardiol 50:106–111
Pidgeon J, Lab M, Seed A, Elzinga G, Papadoyannis D, Noble MIM (1980) The contractile state of cat and dog heart in relation to the interval between beats. Circ Res 47:559–567
Schneider J, Berger HJ, Sands MJ, Lachman AB, Zaret BL (1983) Beat-to-beat left ventricular performance in atrial fibrillation: radionuclide assessment with the computerized nuclear probe. Am J Cardiol 51:1189–1195
Seed WA, Noble MI, Walker JM, MillerGAH, Pidgeon J, Redwood D, Wanless R, Franz MR, Schoettler M, Schaefer J (1984) Relationship between beat-to-beat interval and the strength of contraction in the healthy and diseased human heart. Circulation 70(5):799–805
Thrall JH, Freitas JE, Swanson E, Rogers WL, Clare JM, Brown ML, Pitt B (1978) Clinical comparison of cardiac blood pool visualization with technetium 99m red blood cells labeled in vivo and with technetium 99m human serum albumin. J Nucl Med 19:796
van Gelder AL, Dormehl IC (1983) The influence of cycle length on the radionuclide left ventricular volume curve acquired with a scintillation camera and ECG triggered data processor. Nuklearmedizin 22(3):145–148
Wallis JW, Wu-Connolly L, Rocchini AP, June JE (1986) Dynamic arrhythmia filtration for gated blood pool imaging: validation against list mode technique. J Nucl Med 27:1347–1352
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Wallis, J.W., Juni, J.E. & Wu, L. Gated cardiac blood pool studies in atrial fibrillation: role of cycle length windowing. Eur J Nucl Med 18, 23–27 (1991). https://doi.org/10.1007/BF00177680
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF00177680