**Chapter 6**

*Animal Models in Medicine and Biology*

[89] Reddi AS, Camerini-Davalos RA. Hereditary diabetes in the KK mouse: An overview. Advances in Experimental Medicine and Biology. 1988;**246**:7-15. DOI: 10.1007/978-1-4684-5616-5\_2

for research in diabetes: A mini review. Slovak Journal of Animal Science.

[97] Tanaka Y, Gleason CE, Tran POT, Harmon JS, Robertson RP. Prevention of glucose toxicity in HIT-T15 cells and Zucker diabetic fatty rats by antioxidants. Proceedings of the National Academy of Sciences. 1999;**96**:10857-10862. DOI: 10.1073/

[98] Kim J, Cho MJ, So B, Kim H, Seong JK, Song W. The preventive effects of 8 weeks of resistance training on glucose tolerance and muscle fiber type composition in Zucker rats. Diabetes and Metabolism Research. 2015;**39**:424-433.

[99] Ďuračka M, Sukova M, Valentova G, Tokarova K, Kalafova A, Schneidgenova M, et al. Perga (bee bread) improves the oxidative profile of testicular tissue in obese diabetic rats. In: Nutricon 2018. Skopje: Consulting and Training Center

[100] Tvrdá E, Ďuračka M, Sukova M, Valentova G, Tokarova K, Kalafova A, et al. The effect of perga on the testicular oxidative profile of Zucker diabetic fatty rats. In: Nutricon 2018. Skopje: Consulting and Training Center

[101] Álvarez-Cilleros D, López-Oliva E, Goya L, Martín MA, Ramos S. Cocoa intake attenuates renal injury in Zucker diabetic fatty rats by improving glucose homeostasis. Food and Chemical Toxicology. 2019;**127**:101-109. DOI:

DOI: 10.4093/dmj.2015.39.5.424

KEY; 2018. pp. 169-170

KEY; 2018. pp. 167-168

10.1016/j.fct.2019.03.002

Biologia. 2019 in press

[102] Capcarova M, Kalafova A, Schwarzova M, Schneidgenova M, Soltesova Prnova M, Svik K, et al. Consumption of bee bread influences glycaemia and development of diabetes in obese spontaneous diabetic rats.

2018b;**51**(3):138-145

pnas.96.19.10857

[90] Dubuc PU. The development of obesity, hyperinsulinemia, and hyperglycemia in Ob/Ob mice. Metabolism. 1976;**25**:1567-1574. DOI: 10.1016/0026-0495(76)90109-8

[91] Shariff E. Animal models of noninsulin dependent diabetes. Diabetes & Metabolism. 1992;**8**:179-208. DOI:

10.1002/dmr.5610080302

[92] Jones HB, Nugent D, Jenkins R. Variation in characteristics of islets of Langerhans in insulin-resistant, diabetic and non-diabetic-rat strains. International Journal of Experimental Pathology. 2010;**91**:288-301. DOI: 10.1111/j.1365-2613.2010.00713.x

[93] Kakimoto T, Kimata H, Iwasaki S, Fukunari A, Utsumi H. Automated recognition and quantification of pancreatic islets in Zucker diabetic fatty rats treated with exendin-4. The Journal of Endocrinology. 2013;**216**:13-20. DOI:

[94] Finegood DT, McArthur MD, Kojwang D. Beta-cell mass dynamics in Zucker diabetic fatty rats. Rosiglitazone prevents the rise in net cell death. Diabetes. 2001;**50**:1021-1029. DOI:

10.2337/diabetes.50.5.1021

[95] Sreenan S, Sturis J, Pugh W, Burant CF, Polonsky KS. Prevention of hyperglycemia in the Zucker diabetic fatty rat by treatment with metformin or troglitazone. The American Journal of Physiology. 1996;**271**:e742-e747. DOI:

10.1152/ajpendo.1996.271.4.e742

[96] Capcarova M, Soltesova Prnova M, Svik K, Schneidgenova M, Slovak L, Kisska P, et al. Rodent animal model

10.1530/joe-12-0456

**92**
