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Pediatric Nephrology
Published in: Pediatric Nephrology 2/2007

01-02-2007 | Original Article

Lack of evidence of hypervolemia in children with insulin-dependent diabetes mellitus

Authors: Ann Raes, Sarah Van Aken, Margarita Craen, Raymond Donckerwolcke, Johan Vande Walle

Published in: Pediatric Nephrology | Issue 2/2007

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Abstract

Hypervolemia is considered to play a major role in the pathogenesis of diabetic vasculo- and nephropathy. The aim of our study is to determine whether children and adolescents with insulin-dependent diabetes mellitus (IDDM) experience alterations in blood volume (BV) before onset of apparent nephropathy. BV (calculated as the sum of measured plasma volume (PV) and red cell volume (RCV)) was determined in 31 children (9–16 yr) with a mean duration of IDDM of 6.6 yr and without microalbuminuria. Due to dependence of these values on age, size and sex, all data were normalised for body size parameters. While no statistical difference for BV normalised for lean body mass (LBM) (86.98±9.5 ml/kg) was found in diabetic children compared with our control population (84.91±12.08 ml/kg), a difference could be shown when normalised for body surface area (BSA) (diabetic children 2.37±0.3 L/m2; control population 2.15±0.38 L/m2, p=0.002). Increased BV is only present when normalising for BSA and not for the theoretical superior LBM-index. Because the study population exhibited a poor glycemic control (HbA1c 10.2±2.4 %), an influence of glucosuria-induced polyuria on BV cannot be excluded. Taking into account these limitations our data do not confirm the presence of hypervolemia before onset of diabetic nephropathy.
Literature
1.
Brochner-Mortensen J (1973) Glomerular filtration rate and extracellular fluid volumes during normoglycemia and moderate hyperglycemia in diabetics. Scand J Clin Lab Invest 32:311–316CrossRef
2.
Fauchald P, Norseth J, Jervell J (1985) Transcapillary colloied osmotic gradient, plasma volume and interstitial fluid volume in long-term type 1 (insulin-dependent) diabetes. Diabetologia 28:269–273CrossRef
3.
Tuck M, Corry DB (1989) The kidney in diabetes mellitus, contemporary issues in nephrology. Churchill Livingstone, New York, pp 115–145
4.
O’Hare JA, Ferriss JB, Brady D, Twomey B, O’Sullivan DJ (1985) Exchangeable sodium and renin in hypertensive diabetic patients with and without nephropathy. Hypertension 7 (suppl 2):II43–II48PubMed
5.
O’Hare JP, Roland JM, Walters SG, Corrall RJM (1986) Impaired sodium excretion in response to volume expansion induced by water immersion in insulin-dependent diabetes mellitus. Clin Sci 71:403–409CrossRef
6.
Feldt-Rasmussen B, Mathiesen ER, Deckert T, Giese J, Christensen NJ, Bert-Hansen L (1987) Central role for sodium in the pathogenesis of blood pressure changes independent of angiotensin, aldosterone and catecholamines in type 1(insulin-dependent) diabetes mellitus. Diabetologia 30:610–617PubMed
7.
Revisan R, Fioretto P, Semplioni A, Coocher G, Mantero F, Rocco S (1990) Role of insulin and atrial natriuretic peptide in sodium retention in insulin-treated IDDM patients during isotonic volume expansion. Diabetes 39:289–298CrossRef
8.
Ilstrup KM, Keane WF, Michels LD (1981) Intravascular and extracellular volumes in the diabetic rat. Life Sci 29:717–724CrossRef
9.
Christlieb AR (1974) Renin, angiotensin and norepinephrine in alloxan diabetes. Diabetes 23:962–970CrossRef
10.
Bent-Hansen L (1994) Plasma disappearance and distribution volume of polyfructosan in type 1 (insulin-dependent) diabetes mellitus. Diab Res 5:121–128
11.
De Chatel R, Weidman P, Flammer J, Ziegler WH, Beretta-Piccoli C, Vetter W (1996) Sodium, renin, aldosterone, catecholamines and blood pressure in diabetes mellitus. Kidney Int 12:412–421CrossRef
12.
Boer P (1984) Estimated lean body mass as an index for normalization of body fluid volumes in human. Am J Physiol 247:F632–F636PubMed
13.
Raes A, Van Aken S, Craen M, Donckerwolcke R, Vande Walle J (2006) A reference frame for blood volume in children and adolescents. BMC Pediatr 6:3CrossRef
14.
International Committee for Standardisation in Haematology (1990) Recommended methods for measurement of red cell and plasma volume. J Nucl Med 21:793–800
15.
Chaplin H, Mollison PL, Vetter H (1953) The body/venous hematocrit ratio: its constancy over a wide range. J Clin Invest 32:1309–1316CrossRef
16.
Sawka MN, Young AJ, Pandolf KB, Dennis RC, Valeri CR (1992) Erythrocyte, plasma and blood volume of healthy young men. Med Sci Sports Exerc 24:447–453PubMed
17.
DuBois D, Dubois EF (1916) Clinical calorimetry. A formula to estimate surface area if height and weight be known. Arch Intern Med 17:863–891CrossRef
18.
Vande Walle JG, Donckerwolcke RAMG, Wimersma Greidanus TB, Joles JA, Koomans HA (1996) Renal sodium handling in children with nephrotic relapse: relation to hypovolemic symptoms. Nephrol Dial Transplant 11:2202–2208CrossRef
19.
Nicholson J, Zilva J (1964) Body constituents and functions in relation to height and weight. Clin Sci 27:97–109PubMed
20.
National High Blood Pressure Education Program Working Group on High Blood Pressure in Children and Adolescents (2004) The fourth report on the diagnosis, evaluation, and treatment of high blood pressure in children and adolescents. Pediatrics 114:555–576CrossRef
21.
Ferrante E, Pitzalis G, Vania A, De Angelis P, Guidi R, Fontana L, Ferrante L, Cervoni M, Multari G (1999) Nutritional status, obesity, and metabolic balance in pediatric patients with type I diabetes mellitus. Minerva Endo 24:69–76
22.
Vande Walle J, Donckerwolcke R, Boer P, v.Isselt HW, Koomans HA, Joles JA (1996) Blood volume, colloid osmotic pressure and F-cell ratio in children with the nephrotic syndrome. Kidney Int 49:1471–1477CrossRef
23.
Hovind P, Tarnow L, Rossing P, Jensen BR, Graae M, Torp I, Binder C, Parving HH (2004) Predictors for the development of microalbuminuria and macroalbuminuria in patients with type 1 diabetes: inception cohort study. BMJ 328:1105CrossRef
Metadata
Title
Lack of evidence of hypervolemia in children with insulin-dependent diabetes mellitus
Authors
Ann Raes
Sarah Van Aken
Margarita Craen
Raymond Donckerwolcke
Johan Vande Walle
Publication date
01-02-2007
Publisher
Springer Berlin Heidelberg
Published in
Pediatric Nephrology / Issue 2/2007
Print ISSN: 0931-041X
Electronic ISSN: 1432-198X
DOI
https://doi.org/10.1007/s00467-006-0258-4

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