Association of Fructosamine Levels With Glycemic Management in Children With Type 1 Diabetes as Determined by Continuous Glucose Monitoring: Results From the CGM TIME Trial

被引:0
作者
Verbeeten, Kate C. [1 ]
Tang, Ken [2 ]
Courtney, Jennilea M. [1 ]
Bradley, Brenda J. [1 ]
Mcassey, Karen [3 ]
Clarson, Cheril [4 ,5 ]
Kirsch, Susan [6 ]
Curtis, Jacqueline R. [7 ]
Mahmud, Farid H. [7 ]
Richardson, Christine [8 ]
Cooper, Tammy [8 ]
Lawson, Margaret L. [1 ,8 ]
机构
[1] CHEO Res Inst, Ottawa, ON, Canada
[2] Independent Stat Consultant, Richmond, BC, Canada
[3] McMaster Childrens Hosp, Hamilton, ON, Canada
[4] Childrens Hosp London, Hlth Sci Ctr, London, ON, Canada
[5] Lawson Hlth Res Inst, London, ON, Canada
[6] Markham Stouffville Hosp, Markham, ON, Canada
[7] Hosp Sick Children, Toronto, ON, Canada
[8] Childrens Hosp Eastern Ontario, Div Endocrinol, Ottawa, ON, Canada
来源
CANADIAN JOURNAL OF DIABETES | 2024年 / 48卷 / 05期
关键词
continuous glucose monitoring; fructosamine; glycemic management; pediatrics; type; 1; diabetes; GLYCATED ALBUMIN; HEMOGLOBIN; SYSTEM;
D O I
10.1016/j.jcjd.2024.04.007
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
Objective: Our aim in this study was to determine the correlation between serum fructosamine and average blood glucose, as measured by continuous glucose monitoring (CGM) in children with type 1 diabetes. Methods: Ninety-seven blood samples were collected from 70 participants in the Timing of Initiation of continuous glucose Monitoring in Established pediatric diabetes (CGM TIME) Trial. Each eligible participant had 3 weeks of CGM data with at least 60% CGM adherence before blood collection. Ordinary least-squares linear regression incorporating restricted cubic splines was used to determine the association between fructosamine levels and mean blood glucose. Results: An association was found between fructosamine and mean blood glucose, with an F statistic of 9.543 (p<0.001). Data were used to create a formula and conversion chart for calculating mean blood glucose from fructosamine levels for clinical use. Conclusions: There is a complex relationship between average blood glucose, as determined by CGM and fructosamine. Fructosamine levels may be clinically useful for assessing short-term glycemic management when CGM is not available. (c) 2024 Canadian Diabetes Association.
引用
收藏
页码:330 / 336.e2
页数:9
相关论文
共 21 条
[1]   FRUCTOSAMINE OR GLYCATED HEMOGLOBIN AS A MEASURE OF DIABETIC CONTROL [J].
ALLGROVE, J ;
COCKRILL, BL .
ARCHIVES OF DISEASE IN CHILDHOOD, 1988, 63 (04) :418-422
[2]   Estimated average blood glucose level based on fructosamine level [J].
Andrade, Luis Jesuino de Oliveira ;
Bittencourt, Alcina Maria Vinhaes ;
de Brito, Luiz Felipe Moreno ;
de Oliveira, Luis Matos ;
de Oliveira, Gabriela Correia Matos .
ARCHIVES OF ENDOCRINOLOGY METABOLISM, 2023, 67 (02) :262-265
[3]   Clinical Targets for Continuous Glucose Monitoring Data Interpretation: Recommendations From the International Consensus on Time in Range [J].
Battelino, Tadej ;
Danne, Thomas ;
Bergenstal, Richard M. ;
Amiel, Stephanie A. ;
Beck, Roy ;
Biester, Torben ;
Bosi, Emanuele ;
Buckingham, Bruce A. ;
Cefalu, William T. ;
Close, Kelly L. ;
Cobelli, Claudio ;
Dassau, Eyal ;
DeVries, J. Hans ;
Donaghue, Kim C. ;
Dovc, Klemen ;
Doyle, Francis J. ;
Garg, Satish ;
Grunberger, George ;
Heller, Simon ;
Heinemann, Lutz ;
Hirsch, Irl B. ;
Hovorka, Roman ;
Jia, Weiping ;
Kordonouri, Olga ;
Kovatchev, Boris ;
Kowalski, Aaron ;
Laffel, Lori ;
Levine, Brian ;
Mayorov, Alexander ;
Mathieu, Chantal ;
Murphy, Helen R. ;
Nimri, Revital ;
Norgaard, Kirsten ;
Parkin, Christopher G. ;
Renard, Eric ;
Rodbard, David ;
Saboo, Banshi ;
Schatz, Desmond ;
Stoner, Keaton ;
Urakami, Tatsuiko ;
Weinzimer, Stuart A. ;
Phillip, Moshe .
DIABETES CARE, 2019, 42 (08) :1593-1603
[4]   The interrelationships of glycemic control measures: HbA1c, glycated albumin, fructosamine, 1,5-anhydroglucitrol, and continuous glucose monitoring [J].
Beck, Roy ;
Steffes, Michael ;
Xing, Dongyuan ;
Ruedy, Katrina ;
Mauras, Nelly ;
Wilson, Darrell M. ;
Kollman, Craig .
PEDIATRIC DIABETES, 2011, 12 (08) :690-695
[5]   Racial Differences in the Relationship of Glucose Concentrations and Hemoglobin A1c Levels [J].
Bergenstal, Richard M. ;
Gal, Robin L. ;
Connor, Crystal G. ;
Gubitosi-Klug, Rose ;
Kruger, Davida ;
Olson, Beth A. ;
Willi, Steven M. ;
Aleppo, Grazia ;
Weinstock, Ruth S. ;
Wood, Jamie ;
Rickels, Michael ;
DiMeglio, Linda A. ;
Bethin, Kathleen E. ;
Marcovina, Santica ;
Tassopoulos, Andreana ;
Lee, Sooji ;
Massaro, Elaine ;
Bzdick, Suzan ;
Ichihara, Brian ;
Markmann, Eileen ;
McGuigan, Paul ;
Woerner, Stephanie ;
Ecker, Michelle ;
Beck, Roy W. .
ANNALS OF INTERNAL MEDICINE, 2017, 167 (02) :95-102
[6]   GLYCATED ALBUMIN AT 4 WEEKS CORRELATES WITH A1C LEVELS AT 12 WEEKS AND REFLECTS SHORT-TERM GLUCOSE FLUCTUATIONS [J].
Desouza, Cyrus V. ;
Rosenstock, Julio ;
Zhou, Rong ;
Holcomb, Richard G. ;
Fonseca, Vivian A. .
ENDOCRINE PRACTICE, 2015, 21 (11) :1195-1203
[7]   ISPAD Clinical Practice Consensus Guidelines 2018: Glycemic control targets and glucose monitoring for children, adolescents, and young adults with diabetes [J].
DiMeglio, Linda A. ;
Acerini, Carlo L. ;
Codner, Ethel ;
Craig, Maria E. ;
Hofer, Sabine E. ;
Pillay, Kubendran ;
Maahs, David M. .
PEDIATRIC DIABETES, 2018, 19 :105-114
[8]   1,5-Anhydroglucitol and postprandial hyperglycemia as measured by continuous glucose monitoring system in moderately controlled patients with diabetes [J].
Dungan, Kathleen M. ;
Buse, John B. ;
Largay, Joseph ;
Kelly, Mary M. ;
Button, Eric A. ;
Kato, Shuhei ;
Wittlin, Steven .
DIABETES CARE, 2006, 29 (06) :1214-1219
[9]  
Harrell FE, 2015, SPRINGER SER STAT, DOI 10.1007/978-3-319-19425-7
[10]   Continuous subcutaneous insulin infusion (CSII)of insulin aspart versus multiple daily injection of insulin aspart/insulin glargine in type 1 diabetic patients previously treated with CSII [J].
Hirsch, IB ;
Bode, BW ;
Garg, S ;
Lane, WS ;
Süssman, A ;
Hu, P ;
Santiago, OM ;
Kolaczynski, J .
DIABETES CARE, 2005, 28 (03) :533-538
123