Diabetes mellitus is associated with a variety of cardiovascular complications including impaired cardiac muscle function. The effects of insulin treatment on heart rate, body temperature and physical activity in the alloxan (ALX)-induced diabetic rat were investigated using in vivo biotelemetry techniques. The electrocardiogram, physical activity and body temperature were recorded in vivo with a biotelemetry sy stem for 10 days before ALX treatment, for 20 days following administration of ALX (120 mg/kg) and thereafter, for 15 days whilst rats received daily insulin. Heart rate declined rapi dly after administration of ALX. Pre-ALX heart rate was 321 ± 9 beats per minute, falling to 285 ± 12 beats per minute 15-20 days after ALX and recovering to 331±10 beats per minute 5-10 days after commencement of insulin. Heart rate variabilit y declined and PQ, QRS and QT intervals were prolonged after administration of ALX. Physical activity and body temperature declined after administration of ALX. Pre-ALX body temperature was 37.6 ± 0.1 °C, falling to 37.3 ± 0.1 °C 15-20 days after ALX an d recovering to 37.8±0.1 °C 5-10 days after commencement insulin. ALX-induced diabetes is associated with disturbances in heart rhythm, physical activity and body temperature that are variously affected during insulin treatment., F. C. Howarth ... [et al.]., and Obsahuje bibliografii a bibliografické odkazy
Diabetes mellitus is the leading cause of cardiovascular morbidity and mortality. Phlorizin (PHLOR) and quercetin-3-O-glucoside (QUER-3-G) are two natural compounds reported to have antidiabetic properties by inhibiting sodium/glucose transporters. Their effects on ventricular myocyte shortening and intracellular Ca2+ in streptozotocin (STZ)-induced diabetic rats were investigated. Video edge detection and fluorescence photometry were used to measure ventricular myocyte shortening and intracellular Ca2+, respectively. Blood glucose in STZ rats was 4-fold higher (469.64±22.23 mg/dl, n=14) than in Controls (104.06±3.36 mg/dl, n=16). The amplitude of shortening was reduced by PHLOR in STZ (84.76±2.91 %, n=20) and Control (83.72±2.65 %, n=23) myocytes, and by QUER-3-G in STZ (79.12±2.28 %, n=20) and Control (76.69±1.92 %, n=30) myocytes. The amplitude of intracellular Ca2+ was also reduced by PHLOR in STZ (82.37±3.16 %, n=16) and Control (73.94±5.22 %, n=21) myocytes, and by QUER-3-G in STZ (73.62±5.83 %, n=18) and Control (78.32±3.54 %, n=41) myocytes. Myofilament sensitivity to Ca2+ was not significantly altered by PHLOR; however, it was reduced by QUER-3-G modestly in STZ myocytes and significantly in Controls. PHLOR and QUER-3-G did not significantly alter sarcoplasmic reticulum Ca2+ in STZ or Control myocytes. Altered mechanisms of Ca2+ transport partly underlie PHLOR and QUER-3-G negative inotropic effects in ventricular myocytes from STZ and Control rats., N. N. Hamouda, M. A. Qureshi, J. M. Alkaabi, M. Oz, F. C. Howarth., and Obsahuje bibliografii