OBJECTIVE: To compare obese horses with insulin resistance (IR) with nonobese horses and determine whether blood resting glucose, insulin, leptin, and lipid concentrations differed between groups and were correlated with combined glucose-insulin test (CGIT) results. ANIMALS: 7 obese adult horses with IR (OB-IR group) and 5 nonobese mares. PROCEDURES: Physical measurements were taken, and blood samples were collected after horses had acclimated to the hospital for 3 days. Response to insulin was assessed by use of the CGIT, and maintenance of plasma glucose concentrations greater than the preinjection value for > or = 45 minutes was used to define IR. Area under the curve values for glucose (AUC(g)) and insulin (AUC(i)) concentrations were calculated. RESULTS: Morgan, Paso Fino, Quarter Horse, and Tennessee Walking Horse breeds were represented in the OB-IR group. Mean neck circumference and BCS differed significantly between groups and were positively correlated with AUC values. Resting insulin and leptin concentrations were 6 and 14 times as high, respectively, in the OB-IR group, compared with the nonobese group, and were significantly correlated with AUC(g) and AUC(i). Plasma nonesterified fatty acid, very low-density lipoprotein, and high-density lipoprotein-cholesterol (HDL-C) concentrations were significantly higher (86%, 104%, and 29%, respectively) in OB-IR horses, and HDL-C concentrations were positively correlated with AUC values. CONCLUSIONS AND CLINICAL RELEVANCE: Measurements of neck circumference and resting insulin and leptin concentrations can be used to screen obese horses for IR. Dyslipidemia is associated with IR in obese horses.
OBJECTIVE: To compare obesehorses with insulin resistance (IR) with nonobese horses and determine whether blood resting glucose, insulin, leptin, and lipid concentrations differed between groups and were correlated with combined glucose-insulin test (CGIT) results. ANIMALS: 7 obese adult horses with IR (OB-IR group) and 5 nonobese mares. PROCEDURES: Physical measurements were taken, and blood samples were collected after horses had acclimated to the hospital for 3 days. Response to insulin was assessed by use of the CGIT, and maintenance of plasma glucose concentrations greater than the preinjection value for > or = 45 minutes was used to define IR. Area under the curve values for glucose (AUC(g)) and insulin (AUC(i)) concentrations were calculated. RESULTS: Morgan, Paso Fino, Quarter Horse, and Tennessee Walking Horse breeds were represented in the OB-IR group. Mean neck circumference and BCS differed significantly between groups and were positively correlated with AUC values. Resting insulin and leptin concentrations were 6 and 14 times as high, respectively, in the OB-IR group, compared with the nonobese group, and were significantly correlated with AUC(g) and AUC(i). Plasma nonesterified fatty acid, very low-density lipoprotein, and high-density lipoprotein-cholesterol (HDL-C) concentrations were significantly higher (86%, 104%, and 29%, respectively) in OB-IR horses, and HDL-C concentrations were positively correlated with AUC values. CONCLUSIONS AND CLINICAL RELEVANCE: Measurements of neck circumference and resting insulin and leptin concentrations can be used to screen obesehorses for IR. Dyslipidemia is associated with IR in obesehorses.
Authors: S A Durward-Akhurst; N E Schultz; E M Norton; A K Rendahl; H Besselink; P A Behnisch; A Brouwer; R J Geor; J R Mickelson; M E McCue Journal: Chemosphere Date: 2018-11-26 Impact factor: 7.086
Authors: Richard J Johnson; Chris Rivard; Miguel A Lanaspa; Silvia Otabachian-Smith; Takuji Ishimoto; Christina Cicerchi; Peter R Cheeke; Bridgett Macintosh; Tanja Hess Journal: J Equine Vet Sci Date: 2013-02 Impact factor: 1.583
Authors: Asta Tvarijonaviciute; Jose J Ceron; Shelley L Holden; Daniel J Cuthbertson; Vincent Biourge; Penelope J Morris; Alexander J German Journal: BMC Vet Res Date: 2012-08-28 Impact factor: 2.741