BACKGROUND: Diabetes in pregnancy imposes additional risks to both mother and infant. These increased risks are considered to be primarily related to glycaemic control which is monitored by means of glycated haemoglobin (HbA(1c)). The correlation of HbA(1c) with clinical outcomes emphasises the need to measure HbA(1c) accurately, precisely and for correct interpretation, comparison to appropriately defined reference intervals. Since July 2010, the HbA(1c) assay in Irish laboratories is fully metrologically traceable to the IFCC standard. The objective was to establish trimester-specific reference intervals in pregnancy for IFCC standardised HbA(1c) in non-diabetic Caucasian women. METHODS: The authors recruited 311 non-diabetic Caucasian pregnant (n=246) and non-pregnant women (n=65). A selective screening based on risk factors for gestational diabetes was employed. All subjects had a random plasma glucose <7.7 mmol/L and normal haemoglobin level. Pregnancy trimester was defined as trimester 1 (T1, n=40) up to 12 weeks +6 days, trimester 2 (T2, n=106) 13-27 weeks +6 days, trimester 3 (T3, n=100) >28 weeks to term. RESULTS: The normal HbA(1c) reference interval for Caucasian non-pregnant women was 29-37 mmol/mol (Diabetes Control and Complications Trial; DCCT: 4.8%-5.5%), T1: 24-36 mmol/mol (DCCT: 4.3%-5.4%), T2: 25-35 mmol/mol (DCCT: 4.4%-5.4%) and T3: 28-39 mmol/mol (DCCT: 4.7%-5.7%). HbA(1c) was significantly decreased in trimesters 1 and 2 compared to non-pregnant women. CONCLUSIONS: HbA(1c) trimester-specific reference intervals are required to better inform the management of pregnancies complicated by diabetes.
BACKGROUND:Diabetes in pregnancy imposes additional risks to both mother and infant. These increased risks are considered to be primarily related to glycaemic control which is monitored by means of glycated haemoglobin (HbA(1c)). The correlation of HbA(1c) with clinical outcomes emphasises the need to measure HbA(1c) accurately, precisely and for correct interpretation, comparison to appropriately defined reference intervals. Since July 2010, the HbA(1c) assay in Irish laboratories is fully metrologically traceable to the IFCC standard. The objective was to establish trimester-specific reference intervals in pregnancy for IFCC standardised HbA(1c) in non-diabetic Caucasian women. METHODS: The authors recruited 311 non-diabetic Caucasian pregnant (n=246) and non-pregnant women (n=65). A selective screening based on risk factors for gestational diabetes was employed. All subjects had a random plasma glucose <7.7 mmol/L and normal haemoglobin level. Pregnancy trimester was defined as trimester 1 (T1, n=40) up to 12 weeks +6 days, trimester 2 (T2, n=106) 13-27 weeks +6 days, trimester 3 (T3, n=100) >28 weeks to term. RESULTS: The normal HbA(1c) reference interval for Caucasian non-pregnant women was 29-37 mmol/mol (Diabetes Control and Complications Trial; DCCT: 4.8%-5.5%), T1: 24-36 mmol/mol (DCCT: 4.3%-5.4%), T2: 25-35 mmol/mol (DCCT: 4.4%-5.4%) and T3: 28-39 mmol/mol (DCCT: 4.7%-5.7%). HbA(1c) was significantly decreased in trimesters 1 and 2 compared to non-pregnant women. CONCLUSIONS: HbA(1c) trimester-specific reference intervals are required to better inform the management of pregnancies complicated by diabetes.
Authors: P Kaitlyn Edelson; Kaitlyn E James; Aaron Leong; Juliana Arenas; Melody Cayford; Michael J Callahan; Sarah N Bernstein; Jessica Sheehan Tangren; Marie-France Hivert; John M Higgins; David M Nathan; Camille E Powe Journal: J Clin Endocrinol Metab Date: 2020-05-01 Impact factor: 5.958
Authors: Alhossain Khalafallah; Eileen Phuah; Abdul Majeed Al-Barazan; Irena Nikakis; Andrea Radford; Wade Clarkson; Clinton Trevett; Terry Brain; Val Gebski; Anne Corbould Journal: BMJ Open Date: 2016-04-04 Impact factor: 2.692