The way in which HbA1c results are reported in the UK is changing in June 2009. Read on to find out what difference this will make to our discussions with people with diabetes regarding their glycaemic control and risks of long-term complications.
What is HbA1c?
Glucose in the blood has an affinity to a specific part of haemoglobin in red blood cells, and forms glycosylated haemoglobin – more commonly known as HbA1c. The higher the circulating glucose, the higher the level of HbA1c. HbA1c circulates for the lifespan of the red blood cell (around 90 days), so reflecting the blood glucose levels over the preceding 2–3 months. HbA1c is influenced greatly by the glucose levels in the month prior to measuring (Monnier et al, 2003).
What does the HbA1c tell us?
The DCCT (Diabetes Control and Complications Trial; 1993) in type 1 diabetes and the UKPDS (UK Prospective Diabetes Study; 1998) in type 2 diabetes both showed that the risks of both microvascular and macrovascular complications of diabetes increase as HbA1c levels increase. HbA1c can, therefore, give a measure of an individual’s potential risk of long-term complications of the condition.
Why measure HbA1c?
Serial measurements of HbA1c show how an individual’s glycaemic control, and, thus, risk of complications, changes in response to alterations in diabetes management. HbA1c should be measured every 2–6 months, although some laboratories will not measure levels for an individual any more often than 3-monthly. Up until the beginning of June, we in the UK have used the method from the DCCT to predict an individual’s risk of long-term complications.
For most people with diabetes, the optimal HbA1c target is 6.5%, although this can vary from person to person depending on the type of diabetes and an individual’s specific circumstances, including risk of hypoglycaemia, pregnancy, cardiovascular status and comorbidities.
As you may know, there are some limitations to the HbA1c test – both the existing DCCT assay and the new IFCC (International Federation of Clinical Chemistry and Laboratory Medicine) reference method – when used with people who have haemoglobinopathies such as sickle cell anaemia, thassalaemia, and spherocytosis. At best, in these individuals, HbA1c levels can only be used to detect trends, and home blood glucose monitoring becomes extremely important in these cases. Some areas of the country may have access to the serum fructosamine test, which is a much shorter-duration measurement (approximately 2 weeks) and there is no direct comparison to the HbA1c value.
What are the new units?
HbA1c results traceable to the IFCC reference method will be expressed as millimoles of HbA1c per mole of haemoglobin (mmol/mol). A guide to the new values expressed as mmol/mol is shown in Box 1. These are just examples, and every result will be converted, for example an HbA1c of 7.2% will equal 55mmol/mol. See Eric Kilpatrick’s comment on the IMPROVE™ Control page for more information on calculating the new values from the old (page 199).
Just because the way we are measuring the HbA1c is changing, the general targets in the UK will stay the same. Bizarrely, there has been no recommended global target for HbA1c following the decision to standardise the measurement, which is confusing – why can we not have the same target throughout the world?
Why change?
In the 1990s, a small group of international chemical pathologists, on behalf of the IFCC, began work on a new reference method for measuring HbA1c levels; this method was approved in 2002 (Jeppsson et al, 2002). This meant that any laboratory measuring HbA1c in the future would have to be able to report in the new IFCC-standardised values as well as the DCCT-aligned values (Nordin et al, 2007).
In theory, the new values should allow global comparison of HbA1c values, which would be useful in such cases as clinical studies, and the UK will be the first to adopt these new values. However, there is some controversy as to whether the US will ever make the change, and at last year’s EASD (European Association for the Study of Diabetes) Conference in Rome there was also some discussion as to whether some countries in Europe will adopt the new values.
I’m left wondering whether – if the US have decided to continue with the old DCCT assay and some European countries may also decide not to change – we will be any further forward, as there will be two differing assays that will not be comparable – which was the initial reason for the change!
First impressions
When I first heard about this change I did wonder if it was “change for change’s sake”, as is often the case in the NHS. However, I do think there is the possibility it will make our lives easier once we assimilate the new information. You may ask, how?
Well, how many times have you been explaining the HbA1c result to a person with diabetes, and they think their level of 9% is okay? That is because they are relating the value to their home monitoring result in mmol/L. How often have you had to explain the 9% does not equate to 9mmol/L in their monitoring diaries? In fact, 9% probably equates to a blood glucose level of >10mmol/L. The new units are very different to the old, so I believe there will be less confusion for people with diabetes – but we’ll have to wait and see.
In a recent study (Patiño-Fernández et al, 2009), it was confirmed that, generally, people do not understand their HbA1c result. The purpose of the study was to examine young people with diabetes’ knowledge of the HbA1c test and glycaemic control. Seventy individuals aged between 11 and 16 years old with type 1 diabetes were interviewed about their knowledge of the HbA1c test, the health risks associated with particular HbA1c levels, and their own glycaemic targets. The results revealed that only 13% of the study population accurately described the HbA1c test, and fewer correctly identified the HbA1c ranges for good, fair and poor glycaemic control. The majority of young people with diabetes did not know which blood glucose values correspond to specific HbA1c results, and only a small number of them correctly estimated the short- and long-term risks associated with maintenance of an HbA1c of 7% or 12%.
In this sample of youths with type 1 diabetes, mostly from black and minority ethnic backgrounds with low income, there was a significant lack of knowledge concerning the meaning and implications of the HbA1c test. The findings suggest that interventions for this population should use the HbA1c test results to help young people with diabetes to better understand and set goals for their glycaemic control. I believe that the results would be similar regardless of the group being studied.
If we are to help people with diabetes reduce their risk of complications, then we need better information to explain the significance of all their results. If the study above is anything to go by, we are not conveying the right messages to people with diabetes.
When is the changeover to new units?
From 1 June 2009, results will be provided in the UK as both IFCC-standardised units (mmol/mol) and DCCT-aligned units (%). This will give everyone time to become familiar with the new units and how they relate to DCCT numbers, and to the risk of complications. From 1 June 2011, results will be reported only in the new IFCC units. This journal will begin dual reporting in the next issue.
In an attempt to make the transition period as pain-free as possible, NHS Diabetes have produced information leaflets for people with diabetes and healthcare professionals. These can be downloaded from www.diabetes.nhs.uk, or hard copies can be ordered from the website.
How do you intend conveying this new information in your area? Tell us what you think about the change – contact us at the journal.
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