COMMENTS AND RESPONSES An Accurate Risk Score Based on Anthropometric, Dietary, and Lifestyle Factors to Predict the Development of Type 2 Diabetes Response to Schulze et al. W e read with interest the article by Schulze et al. (1) that describes the development of the accurate German Diabetes Risk Score (DRS) to pre- dict the development of type 2 diabetes. There is a clear consensus that it is neces- sary to have simple noninvasive tools for screening diabetes risk in order to identify persons who are eligible for further diag- nostic assessments or preventive inter- ventions (2). An alternative test is the Finnish DRS (3), which is based on a categorical model and currently used in population-based type 2 diabetes prevention projects in sev- eral countries. In practice, the Finnish DRS score can be graded into five catego- ries to give a level of risk between “low” and “very high” that advises indivduals for further steps of diagnosis and/or interven- tions. The major difference between the Finnish DRS and the German DRS is that the latter includes additional lifestyle questions and uses continuous variables without giving a risk classification (2). We explored the effect of these addi- tional variables added to the Finnish DRS questionnaire and analyzed 512 healthy participants in a prospective study in Dresden, Germany. During an average follow-up time of 3.8 years, 59 incident cases of diabetes were detected using an oral glucose tolerance test at baseline and at follow-up. To assess the ability of six Finnish DRS variables (age, BMI, waist circumference, family history of diabetes, history of hypertension, and history of high blood glucose) to predict diabetes risk, a logistic regression model was de- veloped including the first three variables as continuous ones. The receiver operator characteristic area under the curve (AUC) to identify individuals who developed di- abetes in the testing sample was 0.795. By adding the lifestyle variables (smoking, alcohol, and physical activity) to this model, the AUC increased nonsignifi- cantly to 0.805. This is in line with the original Finnish DRS model, where ques- tions on diet and physical activity did not add much to the predictive power. We also assessed the variables from the German DRS with the same proce- dure. Using four variables of the German DRS (age, waist circumference, height, and hypertension), the AUC for diabetes prediction was 0.751 in our study. Add- ing the same three lifestyle variables (al- cohol, activity, and smoking), the AUC changed to 0.739, showing no significant difference. Based on our data, we can conclude that the addition of lifestyle factors does not necessarily increase the power of a risk score to predict diabetes. According to Schulz et al., the German DRS seems to be slightly more powerful to predict dia- betes due to the use of continuous vari- ables (2), but in our present study this was not the case. Conversely, the Finnish DRS model is more practical without losing much of the predictive power. Of the tools currently available, the Finnish DRS is currently the most widely used. It is an ideal tool to be used in primary diabetes prevention programs because it is simple to understand by lay people, does not any require laboratory or nutrient intake data, does not require a computer to calculate the risk score, and can be applied on a population level. PETER E.H. SCHWARZ, MD 1 JIANG LI, MD 1 HEIKO WEGNER, MD 1 STEFAN R. BORNSTEIN, MD, PHD 1 JOANA LINDSTRO ¨ M, PHD 2,3 JAAKKO TUOMILEHTO, MD, PHD 2,4 From the 1 Department of Medicine III, Medical Fac- ulty Carl Gustav Carus of the Technical University Dresden, Dresden, Germany; the 2 Department of Public Health, University of Helsinki, Helsinki, Fin- land; the 3 Diabetes Unit, Department of Health Pro- motion and Chronic Disease Prevention, National Public Health Institute, Helsinki, Finland; and 4 South Ostrobothnia Central Hospital, Seina ¨joki, Finland. Address correspondence to Dr. Peter E.H. Schwarz, Department of Medicine III, Medical Fac- ulty Carl Gustav Carus of the Technical University Dresden, Building 10, Room 108, Fetscherstrasse 74, 01309, Dresden, Germany. E-mail: peter. schwarz@uniklinikum-dresden.de. DOI: 10.2337/dc07-0682 © 2007 by the American Diabetes Association. ●●●●●●●●●●●●●●●●●●●●●●● References 1. Schulze MB, Hoffmann K, Boeing H, Lin- seisen J, Rohrmann S, Mohlig M, Pfeiffer AF, Spranger J, Thamer C, Haring HU, Fritsche A, Joost HG: An accurate risk score based on anthropometric, dietary, and lifestyle factors to predict the devel- opment of type 2 diabetes. Diabetes Care 30:510 –515, 2007 2. Schwarz PE, Schwarz J, Schuppenies A, Bornstein SR, Schulze J: Development of a diabetes prevention management pro- gram for clinical practice. Public Health Rep 122:258 –263, 2007 3. Lindstrom J, Tuomilehto J: The diabetes risk score: a practical tool to predict type 2 diabetes risk. Diabetes Care 26:725–731, 2003 O N L I N E L E T T E R S DIABETES CARE, VOLUME 30, NUMBER 8, AUGUST 2007 e87