Alterations in Fructosamine and Glycated Albumin Levels during Childhood

Age-related changes in the blood concentrations of glycated proteins during childhood and adolescence were examined by measuring the blood fructosamine (FA), glycated albumin (GA), glucose levels and total serum protein levels in 611 healthy children (325 boys and 286 girls) aged 0–18 years old. These levels were compared with those of 130 healthy adults. GA was measured by a newly developed, highly precise method of high-performance liquid chromatography (inter-assay coefficient of variation, 4·9%). The FA values of all groups of up to 15 years old (grouped in two year age brackets) were significantly lower than those of adults. The mean serum concentrations of GA in infants up to four years old were also significantly lower than in adults. A slight but statistically significant positive correlation was found between age and values of FA (r = 0·36, P < 0·001), but not of GA (r = 0·04). Levels of total serum proteins showed a positive correlation with those of FA (r = 0·47, P < 0·001) but a weak correlation with those of GA (r=0·29). These results suggest that age should be taken into account when the FA levels of children and the GA values of infants are evaluated.

[1]  X. Zhang,et al.  [Glycosylated hemoglobin in the diagnosis of diabetes mellitus]. , 1990, Hua xi yi ke da xue xue bao = Journal of West China University of Medical Sciences = Huaxi yike daxue xuebao.

[2]  U. Kabadi Glycosylation of Proteins: Lack of Influence of Aging , 1988, Diabetes Care.

[3]  R. Coulombe,et al.  The relationship between serum fructosamine and albumin. , 1988, Clinica chimica acta; international journal of clinical chemistry.

[4]  B. Cockrill,et al.  Fructosamine or glycated haemoglobin as a measure of diabetic control? , 1988, Archives of disease in childhood.

[5]  E. Schleicher,et al.  Is serum fructosamine assay specific for determination of glycated serum protein? , 1988, Clinical chemistry.

[6]  J. Rousseaux,et al.  Evidence for an increased glycation of IgG in diabetic patients. , 1987, Clinica chimica acta; international journal of clinical chemistry.

[7]  P. Metcalf,et al.  Relationship between albumin and fructosamine concentration in diabetic and non-diabetic sera. , 1987, Clinica chimica acta; international journal of clinical chemistry.

[8]  J. Ladenson,et al.  Glycated hemoglobin and diabetes: a case and an overview of the subject. , 1985, Clinical chemistry.

[9]  E. Hindle,et al.  The Estimation of Serum Fructosamine: An Alternative Measurement to Glycated Haemoglobin , 1985, Annals of clinical biochemistry.

[10]  P. Metcalf,et al.  Clinical usefulness of estimation of serum fructosamine concentration as a screening test for diabetes mellitus. , 1983, British medical journal.

[11]  P. Metcalf,et al.  Fructosamine: a new approach to the estimation of serum glycosylprotein. An index of diabetic control. , 1983, Clinica chimica acta; international journal of clinical chemistry.

[12]  B. Arnetz,et al.  The influence of aging on hemoglobin A1c (HbA1c). , 1982, Journal of gerontology.

[13]  H. Bunn Evaluation of glycosylated hemoglobin diabetic patients. , 1981, Diabetes.

[14]  L. Jovanovic,et al.  The clinical utility of glycosylated hemoglobin. , 1981, The American journal of medicine.

[15]  R. Gleason,et al.  Reproducibility of hemoglobin AIc and sensitivity to various degrees of glucose intolerance. , 1979, Annals of internal medicine.

[16]  J. Halter,et al.  Glycosylated Hemoglobin in Normal Subjects and Subjects with Maturity-onset Diabetes Evidence for a Saturable System in Man , 1978, Diabetes.

[17]  E. Stiehm,et al.  Serum levels of immune globulins in health and disease: a survey. , 1966, Pediatrics.

[18]  福田 正博 Correlation between minimal secretory capacity of pancreatic β-cells and stability of diabetic control , 1988 .

[19]  R. Largo [Developmental pediatrics]. , 1979, Helvetica paediatrica acta.