Cardiac output and associated left ventricular hypertrophy in pediatric chronic kidney disease

[1]  M. Mitsnefes,et al.  Subclinical systolic dysfunction in pediatric patients with chronic kidney disease. , 2008, The Journal of pediatrics.

[2]  S. Srinivasan,et al.  Relation of childhood risk factors to left ventricular hypertrophy (eccentric or concentric) in relatively young adulthood (from the Bogalusa Heart Study). , 2008, The American journal of cardiology.

[3]  M. Mitsnefes,et al.  Decreased maximal aerobic capacity in pediatric chronic kidney disease. , 2008, Journal of the American Society of Nephrology : JASN.

[4]  M. Mitsnefes Cardiovascular complications of pediatric chronic kidney disease , 2008, Pediatric Nephrology.

[5]  R. Devereux,et al.  Assessment of the interaction of heritability of volume load and left ventricular mass: the HyperGEN offspring study , 2007, Journal of hypertension.

[6]  R. Devereux,et al.  Cardiac and Systemic Hemodynamic Characteristics of Hypertension and Prehypertension in Adolescents and Young Adults: The Strong Heart Study , 2006, Circulation.

[7]  S. Daniels,et al.  Progression of left ventricular hypertrophy in children with early chronic kidney disease: 2-year follow-up study. , 2006, The Journal of pediatrics.

[8]  D. Geary,et al.  Severe cardiac hypertrophy and long-term dialysis: the Midwest Pediatric Nephrolgy Consortium study , 2006, Pediatric Nephrology.

[9]  G. Nergizoğlu,et al.  The long-term behavior and predictors of left ventricular hypertrophy in hemodialysis patients. , 2006, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[10]  G. de Simone,et al.  Left ventricular geometry in children with mild to moderate chronic renal insufficiency. , 2005, Journal of the American Society of Nephrology : JASN.

[11]  Anna Niemirska,et al.  Altered morphologic properties of large arteries in children with chronic renal failure and after renal transplantation. , 2005, Journal of the American Society of Nephrology : JASN.

[12]  P. Stenvinkel,et al.  IL-10, IL-6, and TNF-alpha: central factors in the altered cytokine network of uremia--the good, the bad, and the ugly. , 2005, Kidney international.

[13]  C. Zoccali,et al.  Left ventricular mass monitoring in the follow-up of dialysis patients: prognostic value of left ventricular hypertrophy progression. , 2004, Kidney international.

[14]  S. Daniels,et al.  Left Ventricular Mass and Systolic Performance in Pediatric Patients With Chronic Renal Failure , 2003, Circulation.

[15]  G. de Simone,et al.  Appropriate or inappropriate left ventricular mass in the presence or absence of prognostically adverse left ventricular hypertrophy , 2001, Journal of hypertension.

[16]  S. Ommen,et al.  Clinical Utility of Doppler Echocardiography and Tissue Doppler Imaging in the Estimation of Left Ventricular Filling Pressures: A Comparative Simultaneous Doppler-Catheterization Study , 2000, Circulation.

[17]  J. Singer,et al.  Left ventricular mass index increase in early renal disease: impact of decline in hemoglobin. , 1999, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[18]  M. Quiñones,et al.  Doppler tissue imaging: a noninvasive technique for evaluation of left ventricular relaxation and estimation of filling pressures. , 1997, Journal of the American College of Cardiology.

[19]  A. Danser,et al.  Angiotensin II-mediated growth and antigrowth effects in cultured neonatal rat cardiac myocytes and fibroblasts. , 1997, Journal of molecular and cellular cardiology.

[20]  J. Schwartz,et al.  Relation of hemodynamic volume load to arterial and cardiac size. , 1997, Journal of the American College of Cardiology.

[21]  J. E. Hansen,et al.  Cardiac output estimated noninvasively from oxygen uptake during exercise. , 1997, Journal of applied physiology.

[22]  R. Walker,et al.  Left ventricular abnormalities in children, adolescents and young adults with renal disease. , 1996, Kidney international.

[23]  J. Laragh,et al.  Effect of growth on variability of left ventricular mass: assessment of allometric signals in adults and children and their capacity to predict cardiovascular risk. , 1995, Journal of the American College of Cardiology.

[24]  S. Daniels,et al.  Left ventricular mass and body size in normotensive children and adults: assessment of allometric relations and impact of overweight. , 1992, Journal of the American College of Cardiology.

[25]  T. Monclair,et al.  A single plasma sample method for estimation of the glomerular filtration rate in infants and children using iohexol, I: Establishment of a body weight-related formula for the distribution volume of iohexol. , 1991, Scandinavian journal of clinical and laboratory investigation.

[26]  F. Leenen,et al.  Cardiac volume load as a determinant of the response of cardiac mass to antihypertensive therapy. , 1990, European heart journal.

[27]  J. Laragh,et al.  Relation of left ventricular hemodynamic load and contractile performance to left ventricular mass in hypertension. , 1990, Circulation.

[28]  A. Sniderman,et al.  Impact of left ventricular hypertrophy on survival in end-stage renal disease. , 1989, Kidney international.

[29]  F. Leenen,et al.  Topical minoxidil: cardiac effects in bald man. , 1988, British journal of clinical pharmacology.

[30]  S. Colan,et al.  Left ventricular end-systolic wall stress-velocity of fiber shortening relation: a load-independent index of myocardial contractility. , 1984, Journal of the American College of Cardiology.

[31]  C. Glueck,et al.  Responses of Normal Children and Young Adults to Controlled Bicycle Exercise , 1980, Circulation.

[32]  N Reichek,et al.  Echocardiographic Determination of Left Ventricular Mass in Man: Anatomic Validation of the Method , 1977, Circulation.

[33]  H. D. Green,et al.  Studies on Acute and Chronic Toxicity of Tetraethyl Ammonium Ion (Etamon): Methods of Reviving Dogs after a Lethal Dose , 1952, Circulation.