Citations to this article

Mechanism of decreased forward stroke volume in children and swine with ventricular septal defect and failure to thrive.
W J Corin, … , A Taylor, B A Carabello
W J Corin, … , A Taylor, B A Carabello
Published August 1, 1988
Citation Information: J Clin Invest. 1988;82(2):544-551. https://doi.org/10.1172/JCI113630.
View: Text | PDF
Research Article

Mechanism of decreased forward stroke volume in children and swine with ventricular septal defect and failure to thrive.

Abstract

Children with ventricular septal defect (VSD) often demonstrate failure to thrive (FTT). Such patients usually have reduced systemic cardiac output which has been postulated as a cause for their growth retardation. This study was conducted to ascertain the mechanism of the reduced cardiac output in children with VSD and FTT and also in a porcine model of VSD. Forward stroke volume was reduced in VSD-FTT children, 31 +/- 8 ml/m2, compared to normal children, 49 +/- 15 ml/m2 (P less than 0.05), but was not reduced in children with VSD and normal growth and development (41 +/- 16 ml/m2). Forward stroke volume was also reduced in swine with VSD compared to controls. Contractility assessed by mean velocity of circumferential shortening (Vcf) corrected for afterload was similar in normals and VSD-FTT children. Contractile performance was also similar in normal and VSD swine. Afterload assessed as systolic stress was similar in FTT-VSD children and normal subjects. Preload assessed as end-diastolic stress was increased in the VSD-FTT group. End-diastolic volume was not larger in the VSD-FTT group. We conclude that the reduced stroke volume seen in VSD-FTT children and VSD-swine was not due to reduced contractility, increased afterload or reduced preload. The reduced stroke volume may have been due to failure of end-diastolic volume to increase adequately.

Authors

W J Corin, M M Swindle, J F Spann Jr, K Nakano, M Frankis, R W Biederman, A Smith, A Taylor, B A Carabello

×

Total citations by year

Year: 2021 2015 2014 2012 2010 2009 2000 1999 1997 1996 1994 1993 1992 1991 Total
Citations: 1 1 1 1 1 1 2 2 1 1 2 1 1 2 18
Citation information

Citations to this article (18)

Title and authors Publication Year
Does chance really favor (only) the prepared mind? The role of MRI tissue-tagging in solving a most vexing problem for the interventionalist
RW Biederman 		The International Journal of Cardiovascular Imaging 2021
Swine in the Laboratory: Surgery, Anesthesia, Imaging, and Experimental Techniques, Third Edition
D Myers, P Lester, M Conte, M Swindle 		Swine in the Laboratory: Surgery, Anesthesia, Imaging, and Experimental Techniques, Third Edition 2015
Longitudinal Strain and Strain Rate in Patients With Hemodynamically Significant Ventricular Septal Defects
J Penk, A Patel, A Lay, C Webb 		World journal for pediatric & congenital heart surgery 2014
Volume Overload
BA Carabello 		Heart Failure Clinics 2012
Right ventricular remodeling in restrictive ventricular septal defect
G Monreal, DJ Youtz, AB Phillips, ME Eyman, MW Gorr, C Velten, PA Lucchesi, LE Wold, MA Gerhardt 		Journal of Molecular and Cellular Cardiology 2010
Valvular Heart Disease: A Companion to Braunwald's Heart Disease
P Tornos, RO Bonow 		Valvular Heart Disease: A Companion to Braunwald's Heart Disease 2009
Digitalis use in children: an uncertain future
TJ Hougen 		Progress in Pediatric Cardiology 2000
Bradycardia and the Role of β-Blockade in the Amelioration of Left Ventricular Dysfunction
M Nagatsu, FG Spinale, M Koide, H Tagawa, G DeFreitas, G Cooper, BA Carabello 		Circulation 2000
Large animal models of heart failure
JM Power, AM Tonkin 		Australian and New Zealand Journal of Medicine 1999
Translational mechanisms accelerate the rate of protein synthesis during canine pressure-overload hypertrophy
Y Nagatomo, BA Carabello, M Hamawaki, S Nemoto, T Matsuo, PJ McDermott 		American journal of physiology. Heart and circulatory physiology 1999
Premorbid Determinants of Left Ventricular Dysfunction in a Novel Model of Gradually Induced Pressure Overload in the Adult Canine
M Koide, M Nagatsu, MR Zile, M Hamawaki, MM Swindle, G Keech, G DeFreyte, H Tagawa, G Cooper, BA Carabello 		Circulation 1997
Models of volume overload hypertrophy
BA Carabello 		Journal of Cardiac Failure 1996
Effects of chronic beta-adrenergic blockade on the left ventricular and cardiocyte abnormalities of chronic canine mitral regurgitation
H Tsutsui, FG Spinale, M Nagatsu, PG Schmid, K Ishihara, G DeFreyte, GC 4th, BA Carabello 		Journal of Clinical Investigation 1994
Native beta-adrenergic support for left ventricular dysfunction in experimental mitral regurgitation normalizes indexes of pump and contractile function
M Nagatsu, MR Zile, H Tsutsui, PG Schmid, G DeFreyte, GC th, BA Carabello 		Circulation 1994
Hemodynamic Correlates of Clinical Severity in isolated ventricular septal defect
SS Gidding, M Bessel 		Pediatric Cardiology 1993
Myocardial beta-adrenergic receptor expression and signal transduction after chronic volume-overload hypertrophy and circulatory congestion
HK Hammond, DA Roth, PA Insel, CE Ford, FC White, AS Maisel, MG Ziegler, CM Bloor 		Circulation 1992
Depressed contractile function due to canine mitral regurgitation improves after correction of the volume overload
K Nakano, MM Swindle, F Spinale, K Ishihara, S Kanazawa, A Smith, RW Biederman, L Clamp, Y Hamada, MR Zile 		Journal of Clinical Investigation 1991
Coronary blood flow in dogs with contractile dysfunction due to experimental volume overload
BA Carabello, K Nakano, K Ishihara, S Kanazawa, RW Biederman, JF Spann 		Circulation 1991

Advertisement