Atsunori Kashiwagi1, Masato Kasuga2, Eiichi Araki3, Yoshitomo Oka4, Toshiaki Hanafusa5, Hiroshi Ito6, Makoto Tominaga7, Shinichi Oikawa8, Mitsuhiko Noda9, Takahiko Kawamura10, Tokio Sanke11, Mitsuyoshi Namba12, Mitsuru Hashiramoto13, Takayuki Sasahara14, Yoshihiko Nishio15, Katsuhiko Kuwa16, Kohjiro Ueki17, Izumi Takei18, Masao Umemoto19, Masami Murakami20, Minoru Yamakado21, Yutaka Yatomi22, Hatsumi Ohashi23. 1. Shiga University of Medical Science Hospital, Shiga. 2. Research Institute. 3. Department of Metabolic Medicine, Faculty of Life Sciences, Kumamoto University. 4. Department of Metabolic Diseases, Center for Metabolic Diseases, Tohoku University Graduate School of Medicine, Sendai. 5. Department of Internal Medicine (I), Osaka Medical College, Osaka. 6. Okhotsk-kai Hospital, Kitami, Hokkaido. 7. Rehabilitation Hananoie Hospital, Tochigi. 8. Division of Endocrinology and Metabolism, Department of Internal Medicine, Nippon Medical School. 9. Department of Diabetes and Metabolic Medicine/Diabetes Research Center, National Center for Global Health and Medicine. 10. Diabetes and Endocrine Internal Medicine, Chubu Rosai Hospital, Aichi. 11. Department of Clinical Laboratory Medicine, Wakayama Medical University, Wakayama. 12. Division of Diabetes & Metabolism, Department of Internal Medicine, Hyogo College of Medicine, Hyogo. 13. Division of Diabetes, Metabolism, and Endocrinology, Kawasaki Medical School, Okayama. 14. Department of Metabolic Medicine, Kumamoto Regional Medical Center, Kumamoto. 15. Department of Diabetes and Endocrine Medicine, Kagoshima University Graduate School of Medical and Dental Science, Kagoshima. 16. Bio-Medical Standards Section, Organic Analytical Chemistry Division, National Metrology Institute of Japan, National Institute of Advanced Industrial Science and Technology, Ibaraki. 17. Departments of Diabetes and Metabolic Diseases. 18. Center for Diabetes and Endocrinology, Department of Internal Medicine, Ichikawa General Hospital, Tokyo Dental College, Chiba. 19. Reference Material Institute for Clinical Chemistry Standards, Kanagawa. 20. Department of Clinical Laboratory Medicine, Gunma University Graduate School of Medicine, Gunma, Japan. 21. Center for Multiphasic Health Testing and Services, Mitsui Memorial Hospital. 22. Clinical Laboratory Medicine, Graduate School of Medicine, University of Tokyo ; Department of Clinical Laboratory, The University of Tokyo Hospital. 23. Division of Clinical Laboratory, Department of Medical Technology, Tokyo Saiseikai Mukoujima Hospital, Tokyo.
In 1999, the Japan Diabetes Society (JDS) launched the previous version of the diagnostic criteria of diabetes mellitus, in which JDS took initiative in adopting glycated hemoglobin (HbA1c) as an adjunct to the diagnosis of diabetes. In contrast, in 2009 the International Expert Committee composed of the members of the American Diabetes Association (ADA) and the European Association for the Study of Diabetes (EASD) manifested the recommendation regarding the use of HbA1c in diagnosing diabetes mellitus as an alternative to glucose measurements based on the updated evidence showing that HbA1c has several advantages as a marker of chronic hyperglycemia. The JDS extensively evaluated the usefulness and feasibility of more extended use of HbA1c in the diagnosis of diabetes based on Japanese epidemiological data, and then the ‘Report of the Committee on the Classification and Diagnostic Criteria of Diabetes Mellitus’ was published in the Journal of Diabetes Investigation and Diabetology International. The new diagnostic criterion in Japan came into effect on 1 July 2010. According to the new version of the criteria, HbA1c (JDS) ≥6.1% is now considered to indicate a diabetic type, but the previous diagnosis criteria of high plasma glucose (PG) levels to diagnose diabetes mellitus also need to be confirmed. Those are as follows: (i) FPG ≥126 mg/dL (7.0 mmol/L); (ii) 2‐h PG ≥200 mg/dL (11.1 mmol/L) during an oral glucose tolerance test; or (iii) casual PG ≥200 mg/dL (11.1 mmol/L). If both PG criteria and HbA1c in patients have met the diabetic type, those patients are immediately diagnosed to have diabetes mellitus.In the report, the HbA1c measurements in Japan are well calibrated with Japanese‐Clinical‐Laboratory‐Use Certified Reference Material (JCCRM). The certified values are determined by a high‐resolution type ion‐exchange high performance liquid chromatography (HPLC) (KO 500 method) and certified using the designated comparison method (DCM) of the Japan Society of Clinical Chemistry (JSCC) and the JDS. After incorporating a proportional bias correction to the value anchored to the peptide mapping method of the International Federation of Clinical Chemistry and Laboratory Medicine (IFCC), the DCM actually measures β‐N‐mono‐deoxyfructosyl hemoglobin and has an intercept approximately equal to zero against the peptide mapping method of IFCC in measuring fresh raw human blood samples. Furthermore, standardization of HbA1c in Japan was initiated in 1993, and the serial reference materials from JDS Lot 1 to JDS Lot 4 are well certified using the DCM until now. In the new diagnosis criteria, the new cut‐point of HbA1c (JDS) for diagnosis of diabetes mellitus is 6.1%, which is equivalent to the internationally‐used HbA1c (National Glycohemoglobin Standardization Program [NGSP]) 6.5%, as HbA1c (NGSP)(%) is reported to be equivalent to 1.019 × HbA1c (JDS)% + 0.3%, which is reasonably estimated by the equation of HbA1c (JDS)% + 0.4%, as the difference between the two equations is within error of HbA1c measurements (2∼3%).However, on 1 October 2011, the Reference Material Institute for Clinical Chemistry Standards (ReCCS, Kanagawa, Japan) was certified as an Asian Secondary Reference Laboratory (ASRL) using the KO 500 method and the reference materials JCCRM411‐2 (JDS Lot 4) after successful completion of NGSP network laboratory certification. Therefore, the HbA1c unit is now traceable to the Diabetes Control and Complications Trial (DCCT) reference method. The comparison was carried out with the Central Primary Reference Laboratory (CPRL) in the University of Missouri School of Medicine. The conversion equation from HbA1c (JDS) to HbA1c (NGSP) units is officially certified as follows: NGSP (%) = 1.02 × JDS (%) + 0.25%; conversely, JDS (%) = 0.980 × NGSP (%) – 0.245%. Based on this equation, in the range of JDS values ≤4.9%, NGSP (%) = JDS (%) + 0.3%; in the range of JDS 5.0∼9.9%, NGSP (%) = JDS (%) + 0.4%; and in the range of JDS 10∼14.9%, NGSP (%) = JDS (%) + 0.5%. These results show that the previous equation of NGSP (%) = JDS (%) + 0.4% is also confirmed in the present equation, considering a 2∼3% error of HbA1c measurements. The council meeting of the JDS finally decided to use HbA1c (NGSP) values in clinical practice from 1 April 2012, although HbA1c (JDS) values will be included until people become familiar with the new expression. Finally, it is also important to emphasize that the new HbA1c (NGSP) values can be directly measured and printed out from 1 April 2012. However, both new diagnostic reference values and target values of glycemic control have been adjusted to those equivalent values of HbA1c (JDS), as shown in the Table 1.
Table 1
Differences in glycated hemoglobin values between Japan Diabetes Society and National Glycohemoglobin Standardization Program for assessments of diagnosis and treatment of diabetes mellitus (a) Diagnostic reference values of HbA1c (NGSP) and HbA1c (JDS)
Diagnostic reference values
HbA1c (NGSP)
HbA1c (JDS)
Standard range (%)
4.6–6.2
4.3–5.8
Diabetes range (%)
≥6.5
≥6.1
Possible diabetes range (%)
6.0–6.4
5.6–6.0
High risk range for diabetes (%)
5.6–5.9
5.2–5.5
HbA1c, glycated hemoglobin; JDS, Japan Diabetes Society; NGSP, National Glycohemoglobin Standardization Program.
HbA1c, glycated hemoglobin; JDS, Japan Diabetes Society; NGSP, National Glycohemoglobin Standardization Program.