Meme Phung Zhi Yuan Quek Alison Wong

1. Case D - Chronic Diabetes Meme PhungZhi Yuan QuekAlison Wong

2. Mr DM, aged 50 years has NIDDM and asthma. He presents to your pharmacy with a prescription for Rulide 300mg d and Prednisolone 25mg as directed. He takes the following medications on a regular basis: Glibeclamide 5mg BD Salbutamol MDI 2 Q4H PRN Beclomethasone 100 mcg 2 BD  A few days later he has the following test results:

3. Glycated Haemaglobin A1c (HbA1c) • Rationale for measuring HbA1c • Its use in monitoring the patient status

4. What is HbA1c? • Formed by glycosylation of proteins.

5. Glycosylation of Proteins Protein-NH2 + Amadori Aldimine (Schiff base) Glucose

6. A non-enzymatic reaction, • Rate of production of the glycosylated product depends largely on the amount of Glucose in the blood. • i.e. The amount of glycated Hb is directly proportional to the average concentration of glucose in the blood.

7. Linear regression to estimate the Mean Blood Glucose from the HbA1c value: MEAN BLOOD GLUCOSE estimate = 33.3 (% HbA1c) -86 • HbA1c will normally exist throughout the life span of the RBCs in the circulation ~90-120days. • HbA1c reflects the mean plasma glucose concentration for the preceding 6 week-period • Normal person, about 3-6% of Hb is glycated; • Diabetic, the % of HbA1c may double or even triple, depending on the degree of hyperglycaemia.

8. Why is measuring HbA1c important for managing BSL? • Correlation between HbA1c and glycemic control (Koenig RJ,et al 1976) • Blood glucosetest  measures glucose in blood at the time of testing • HbA1c  shows glycaemic content of haemoglobin in patient’s blood over time, • HbA1c  reflects BSL control over the last 4-8 weeks. • Reliable reflection of long-term glucose control  not affected by brief fluctuations in glucose levels.

9. Allows physicians to assess long-term compliance with prescribed medications, diet or exercise. • Can predict risk for diabetic complications. • DCCT (Diabetes Control and Complications Trial) •  Strong correlation between HbA1c and rate of progression of diabetic complications • (eg. Retinopathy, diabetic nephropathy, etc.) • Higher the HbA1c value higher the risk of developing diabetic complications.

10. The American Diabetes Association (ADA) recommends • HbA1c testing at least twice a year in patients with stable glycemic control, and • 4 times per year for those whose glycemic levels are not well controlled, or whose treatment regimen has been modified. • Ideal range for HbA1c is below 7%

11. DRUG OR DISEASE FACTORS THAT MAY HAVE AFFECTED THE RESULTS • Mr DM has NIDDM and asthma. He presents with a prescription for Rulide 300 mg d and Prednisolone 25 mg as directed.

12. Current Medications: • Glibenclamide 5 mg bd • Salbutamol MDI 2 q4h prn • Beclomethasone 100 mcg 2 bd

13. Drug Factors • Corticosteroids • potential for increasing blood glucose levelsin diabetics • Mechanism : - by increasing gluconeogenesis

14.  synthesis of glucose from non- hexose substrates  mobilization of amino acids from extrahepatic tissues  stimulation of fat breakdown in adipose tissue

15. - by decreasing glucose utilization • - by increasing in peripheral resistance to insulin • blood glucose levels may increase by 10% to 20%

16. may impair glucose tolerance, unmask latent diabetes, or aggravate pre-existing disease

17. 2. Beta 2-agonist • Mechanism of action thought to be mediated via stimulation of cAMP production

18. triggering a series of intracellular events • raised blood glucose levels - by stimulation of hepatic glucose production

19. - stimulation of glucose release - stimulation of glycogenolysis and glycolysis

20. Standardisation of monitoring glycated haemoglobin

21. Question • Despite the importance of monitoring glycated haemoglobin standardisation of protocols has proved problematic. • Outline the various approaches that have been examined, the problems associated with these approaches and the implications of these analytical problems in interpreting clinical test data.

22. Limitations • GHb analysis is subject to certain limitations • e.g. haemolysis or significant blood loss will alter the amount of GHb that accumulates • Interassay variability and haemoglobin variants have restricted the use of GHb testing.

23. Progress in the standardisation of GHb assays and accurate GHb measurement in patients with haemoglobin variants lead to optimism that the problems may be approaching resolution.

24. BRIEF OVERVIEW • There are >30 different GHb assay methods, which are based on two principles. 1. Separates glycated from non-glycated haemoglobin components based on differences in their charges e.g cation-exchange chromatography and electrophoresis

25. 2. Variations in structure related to the presence of the attached glucose. • Majority are performed by ion-exchange HPLC or immunoassay • These assay measure HbA1C or total GHb (HbA1C and haemoglobin glycated at other sites) • Results reported on the same blood sample can vary substantially, depending on the analyte measured and the method used.

26. Hb variants • >850 Hb variants identified • present in up to 1/3 of all diabetic individuals in the world • two recent reports address this concern .

27. Problems • Haemoglobinopathies may interfere with GHb analysis • results may be falsely increased or decreased, depending on the particular method and the haemoglobinopathy. • Hb variants that cannot be separated from HbA or HbA1C will produce spuriously increased or decreased results by ion-exchange HPLC.

28. Most assays routinely used in clinical laboratories for GHb analysis are subject to interference by Hb variants. • Hb variants can be detected by examining the chromatogram • interferences depend on the antibody used and vary among assays. • Hb variants cannot be identified by immunoassays

29. The problem of assessing glucose control by measurement of GHb in patients with Hb variants has not been completely solved. • However HbA1C can be measured accurately in the presence of most haemoglobinopathies.

30. However different methods used to analyse GHb have different reference intervals • Standardisation is needed to compare results across all types of methods used.

31. Problem Resolved • Standardisation of measurements were needed for comparison for the DCCT-based treatment goals • Committees were established independently to standardise GHb assays. 1. AACC 2. IFCC

32. 1. AACC Reference methods used as the designated comparison method for GHb standardisation includes: • DCCT (Diabetes Control and Complications Trial) • UKPDS (United Kingdom Prospective Diabetes Study) • NGSP (National Glycohaemoglobin Standardisation Program) formed to harmonise GHb assays with the DCCT assay.

33. NGSP (National Glycohaemoglobin Standardisation Program) formed to harmonise GHb assays with the DCCT assay. • This procedure was a pragmatic first step and that formal standardisation required much more work.

34. NGSP • Uses a network of reference laboratories and interacts with manufacturers of GHb methods to allow them to establish traceability to the CPRL (Central Primary Reference Laboratory) • CPRL analyse HbA1C by HPLC according to the method used in the DCCT • Methods and laboratories can then be certified as traceable to the DCCT

35. 2. IFCC • International Federation of Clinical Chemistry • primary reference material: mixture of purified HbAo and HbA1C • reference method: Hb cleaved into peptides by endoproteinase Glu-C • glycated and non-glycated N-terminal hexapeptides are separated and quantified by HPLC-(ESI-MS) or HPLC-capillary electrophoresis.

36. HbA1C measured as a ratio between glycated and nonglycated N-terminal hexapeptides. • Method has high specificity which yields lower values than commercial methods. • Approved by IFCC and may provide foundation for global standardisation of GHb measurements.

37. Standardisation Protocols • Clearly the development of a valid chemical standard is highly desirable. • Parallel line between NGSP values and the IFCC reference method • Important that expression of results remains linked to DCCT/UKPDS values.