Adriëtte Oostvogels
5 135 Family history of diabetes and childhood outcomes References 1. Yoon P.W., Scheuner M.T., Peterson-Oehlke K.L., Gwinn M., Faucett A., Khoury M.J. Can family history be used as a tool for public health and preventive medicine? Genet Med . 2002;4(4):304- 310. 2. Chang M.H., Valdez R., Ned R.M., Liu T., Yang Q., Yesupriya A., et al. Influence of familial risk on diabetes risk-reducing behaviors among U.S. adults without diabetes. Diabetes Care . 2011;34(11):2393-2399. 3. Grill V., Persson G., Carlsson S., Norman A., Alvarsson M., Ostensson C.G., et al. Family history of diabetes in middle-aged Swedish men is a gender unrelated factor which associates with insulinopenia in newly diagnosed diabetic subjects. Diabetologia . 1999;42(1):15-23. 4. Katulanda P., Ranasinghe P., Jayawardena R., Sheriff R., Matthews D.R. The influence of family history of diabetes on disease prevalence and associated metabolic risk factors among Sri Lankan adults. Diabet Med . 2015;32(3):314-323. 5. Abbasi A., Corpeleijn E., van der Schouw Y.T., Stolk R.P., Spijkerman A.M., van der A.D., et al. Maternal and paternal transmission of type 2 diabetes: influence of diet, lifestyle and adiposity. J Intern Med . 2011;270(4):388-396. 6. Meigs J.B., Cupples L.A., Wilson P.W. Parental transmission of type 2 diabetes: the Framingham Offspring Study. Diabetes . 2000;49(12):2201-2207. 7. Molyneaux L., Constantino M., Yue D. Strong family history predicts a younger age of onset for subjects diagnosed with type 2 diabetes. Diabetes Obes Metab . 2004;6(3):187-194. 8. Gelding S.V., Coldham N., Niththyananthan R., Anyaoku V., Johnston D.G. Insulin resistance with respect to lipolysis in non-diabetic relatives of European patients with type 2 diabetes. Diabet Med . 1995;12(1):66-73. 9. Srinivasan S.R., Elkasabani A., Dalferes E.R., Jr., Bao W., Berenson G.S. Characteristics of young offspring of type 2 diabetic parents in a biracial (black-white) community-based sample: the Bogalusa Heart Study. Metabolism . 1998;47(8):998-1004. 10. Groop L., Forsblom C., Lehtovirta M., Tuomi T., Karanko S., Nissen M., et al. Metabolic consequences of a family history of NIDDM (the Botnia study): evidence for sex-specific parental effects. Diabetes . 1996;45(11):1585-1593. 11. Praveen E.P., Sahoo J., Khurana M.L., Kulshreshtha B., Khadgawat R., Gupta N., et al. Insulin sensitivity and beta-cell function in normoglycemic offspring of individuals with type 2 diabetes mellitus: Impact of line of inheritance. Indian J Endocrinol Metab . 2012;16(1):105-111. 12. Sasaki K., Yoshida A., Ohta H., Aizawa Y., Kojima A., Chiba H., et al. Maternal and paternal family history of type 2 diabetes differently influence lipid parameters in young nondiabetic Japanese women. Environ Health Prev Med . 2013;18(2):104-109. 13. Natali A., Muscelli E., Mari A., Balkau B., Walker M., Tura A., et al. Insulin sensitivity and beta-cell function in the offspring of type 2 diabetic patients: impact of line of inheritance. J Clin Endocrinol Metab . 2010;95(10):4703-4711. 14. Wei J.N., Li H.Y., Wang Y.C., Chuang L.M., Lin M.S., Lin C.H., et al. Detailed family history of diabetes identified children at risk of type 2 diabetes: a population-based case-control study. Pediatr Diabetes . 2010;11(4):258-264. 15. Kasperska-Czyzyk T., Jedynasty K., Bowsher R.R., Holloway D.L., Stradowska I., Stepien K., et al. Difference in the influence of maternal and paternal NIDDM on pancreatic beta-cell activity and blood lipids in normoglycaemic non-diabetic adult offspring. Diabetologia . 1996;39(7):831-837.
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