Subset Of Dogs Research Articles

A comparison of egocentric and allocentric age-dependent spatial learning in the beagle dog

Spatial discriminations can be performed using either egocentric information based on body position or allocentric information based on the position of landmarks in the environment. Beagle dogs ranging from 2 to 16 years of age were tested for their ability to learn a novel egocentric spatial discrimination task that used two identical blocks paired in three possible spatial positions (i.e. left, center and right). Dogs were rewarded for responding to an object furthest to either their left or right side. Therefore, when the center location was used, it was correct on half of the trials and incorrect on the other half. Upon successful acquisition of the task, the reward contingencies were reversed, and the dogs were rewarded for responding to the opposite side. A subset of dogs was also tested on an allocentric spatial discrimination task, landmark discrimination. Egocentric spatial reversal learning and allocentric discrimination learning both showed a significant age-dependent decline, while initial egocentric learning appeared to be age-insensitive. Intra-subject correlation analyses revealed a significant relationship between egocentric reversal learning and allocentric learning. However, the correlation only accounted for a small proportion of the variance, suggesting that although there might be some common mechanism underlying acquisition of the two tasks, additional unique neural substrates were involved depending on whether allocentric or egocentric spatial information processing was required.

Von Willebrand disease phenotype and von Willebrand factor marker genotype in Doberman Pinschers.

To define the relationship between clinical expression of a type-1 von Willebrand disease phenotype and genotype at 2 von Willebrand factor marker loci in Doberman Pinschers. 102 client-owned Doberman Pinschers. Dogs were recruited on the basis of plasma von Willebrand factor concentration, clinical history, and pedigree. Blood samples and response to a history questionnaire were obtained for each dog. Plasma von Willebrand factor concentration was measured by use of an ELISA, and genotyping was performed via polymerase chain reaction for 1 intragenic and 1 extragenic von Willebrand factor marker. Amplification product size was determined by use of polyacrylamide gel electrophoresis (intragenic marker) or automated sequence analysis (extragenic marker). Western blots were prepared from a subset of dogs with low plasma von Willebrand factor concentration to evaluate multimer distribution. Strong associations were detected between plasma von Willebrand factor concentration and von Willebrand factor marker genotype. Twenty-five dogs had substantial reduction in plasma von Willebrand factor concentration and multiple hemorrhagic events. All were homozygous for a 157-base-pair intragenic marker allele and homozygous or compound heterozygous for 1 of 4 extragenic marker alleles. These marker genotypes were exclusively detected in dogs with low plasma von Willebrand factor concentration, although some dogs with these genotypes did not have abnormal bleeding. Type-1 von Willebrand disease in Doberman Pinschers is associated with the von Willebrand factor gene locus; however, the expression pattern in this breed appears more complex than that of a simple recessive trait.

Region-specific age at onset of β-amyloid in dogs ☆

Cortical patterns of β-amyloid (Aβ) deposition were evaluated in 40 beagle dogs ranging in age from 2 to 18 years. Aβ deposition in the prefrontal, occipital, parietal and entorhinal cortices was visualized by using an antibody against Aβ1–42. A logistic regression was used to estimate differences in age-at-onset and rate of deposition of Aβ as a function of brain region. The earliest and most consistent site of Aβ deposition with age was in the prefrontal cortex. Entorhinal Aβ deposition was not consistently observed until the age of 14 years, but was present in a subset of dogs under the age of 14 years. These regional vulnerabilities to Aβ accumulation are similar to those seen in the aging human. By using parameters derived from regression analyses, it may be possible to predict the presence of Aβ within specific brain regions in individual dogs. We propose that these models will be a useful tool to evaluate interventions that delay the age of onset or slow the rate of accumulation of Aβ in the dog.

Factors influencing survival after radiotherapy of nasal tumors in 130 dogs.

Improvements in survival of dogs with nasal tumors have been slow to develop throughout the past three decades. Despite multiple studies examining various radiation time-dose schema, the advancement of CT-based computerized treatment planning, and the evaluation of detailed staging systems, the optimal treatment regimen, and most important prognostic factors regarding survival remain unclear. In this study, data from four previous studies were combined with data from 44 additional dogs, and this population of 130 dogs was evaluated for factors which influenced survival. Twenty-one dogs were treated with orthovoltage at the University of Pennsylvania. One hundred nine dogs were treated with cobalt photons at North Carolina State University. Sixty-five of these 109 dogs had been previously described. Of the 44 dogs not previously described, 35 were treated with a shrinking field technique. Survival was determined from the medical record, or from information derived by telephone or mail survey. The univariate Cox regression model was used to examine for relationship between various patient, tumor, and treatment variables and survival. Significant relationships identified in the univariate analysis were further analyzed using the multivariate Cox regression model. Median survival of the 130 dogs was 8.9 months (95% C.I., 8-11 months). In the univariate analysis, the following variables were associated with decreased survival: 1) age >10 years old, 2) regional lymph node metastasis, 3) advanced tumor stage, 4) use of megavoltage radiation, 5) overall total dose >55 Gray, and 6) boost technique performed. In a multivariate analysis of 125 dogs with complete data for age, radiation type, and radiation dose, age (p < .001) and radiation type (p = .02) were identified as joint predictors of survival. After adjusting for age, the staging system lost prognostic significance (p = .06). In a subset of dogs that received cobalt radiation, after adjusting for age, dogs treated with a boost technique had decreased survival (p = .001). In general, local control of canine nasal tumors following aggressive radiation therapy is poor. Early diagnosis and selection of appropriate patients is warranted and palliative types of treatment should be considered in dogs with a poor chance of long term survival.

Cardiac Tumors in Dogs: 1982–1995

A Veterinary Medical Database search from 1982 to 1995 identified 1,383 dogs with tumors of the heart from a total population of 729,265 dogs (0.19% incidence). Hemangiosarcoma (HSA) was the most common cardiac tumor identified. In the subset of dogs with specific histologic diagnoses, the number with HSA was almost 10‐fold that of the 2nd most common tumor, aortic body tumor. Primary heart tumors were more common than cardiac metastases. When biologic behavior was noted, most heart tumors were classified as malignant. Cardiac tumors (excluding lymphoma) occurred most often in dogs between the ages of 7 and 15 years. In very old dogs (&gt;15 years), the frequency of cardiac tumors was the same or lower than that of the youngest age group. Tumors occurred with similar frequency in males and females, but the relative risk for spayed females was &gt;4 times that for intact females. For HSA, spayed females had &gt;5 times greater relative risk than did intact females. The risk for castrated males was slightly greater than that for intact males, which had 2.4 times the relative risk of intact females. Thus, neutering appeared to increase the risk of cardiac tumor in both sexes. Intact females were least likely to develop a cardiac tumor, whereas spayed females were most likely to develop a tumor. Twelve breeds had greater than average risk of developing a cardiac tumor, whereas 17 had lower risk.

Cardiac tumors in dogs: 1982-1995.

A Veterinary Medical Database search from 1982 to 1995 identified 1,383 dogs with tumors of the heart from a total population of 729,265 dogs (0.19% incidence). Hemangiosarcoma (HSA) was the most common cardiac tumor identified. In the subset of dogs with specific histologic diagnoses, the number with HSA was almost 10-fold that of the 2nd most common tumor, aortic body tumor. Primary heart tumors were more common than cardiac metastases. When biologic behavior was noted, most heart tumors were classified as malignant. Cardiac tumors (excluding lymphoma) occurred most often in dogs between the ages of 7 and 15 years. In very old dogs (>15 years), the frequency of cardiac tumors was the same or lower than that of the youngest age group. Tumors occurred with similar frequency in males and females, but the relative risk for spayed females was >4 times that for intact females. For HSA, spayed females had >5 times greater relative risk than did intact females. The risk for castrated males was slightly greater than that for intact males, which had 2.4 times the relative risk of intact females. Thus, neutering appeared to increase the risk of cardiac tumor in both sexes. Intact females were least likely to develop a cardiac tumor, whereas spayed females were most likely to develop a tumor. Twelve breeds had greater than average risk of developing a cardiac tumor, whereas 17 had lower risk.

Evidence for direct action of alloxan to induce insulin resistance at the cellular level.

To determine whether long-term insulin deficiency alters insulin movement across the endothelium, plasma and lymph dynamics were assessed in dogs after alloxan (50 mg/kg; n = 8) or saline injection (n = 6). Glucose tolerance (KG) and acute insulin response were assessed by glucose injection before and 18 days after treatment. Two days later, hyperglycaemic (16.7 mmol/l) hyperinsulinaemic (60 pmol x min(-1) x kg(-1)) glucose clamps were carried out in a subset of dogs (n = 5 for each group), with simultaneous sampling of arterial blood and hindlimb lymph. Alloxan induced fasting hyperglycaemia (12.9 +/- 2.3 vs 5.7 +/- 0.2 mmol/l; p = 0.018 vs pre-treatment) and variable insulinopenia (62 +/- 14 vs 107 +/- 19 pmol/l; p = 0.079). The acute insulin response, however, was suppressed by alloxan (integrated insulin from 0-10 min: 155 +/- 113 vs 2745 +/- 541 pmol x l(-1) x 10 min(-1); p = 0.0027), resulting in pronounced glucose intolerance (KG: 0.99 +/- 0.19 vs 3.14 +/- 0.38 min(-1); p = 0.0002 vs dogs treated with saline). During clamps, steady state arterial insulin was higher in dogs treated with alloxan (688 +/- 60 vs 502 +/- 38 pmol/l; p = 0.023) due to a 25% reduction in insulin clearance (p = 0.045). Lymph insulin concentrations were also raised (361 +/- 15 vs 266 +/- 27 pmol/l; p = 0.023), such that the lymph to arterial ratio was unchanged by alloxan (0.539 +/- 0.022 vs 0.533 +/- 0.033; p = 0.87). Despite higher lymph insulin, glucose uptake (Rd) was significantly diminished after injection of alloxan (45.4 +/- 2.5 vs 64.3 +/- 6.5 micromol x min(-1) x kg(-1); p = 0.042). This was reflected in resistance of target tissues to the lymph insulin signal (deltaRd/ delta lymph insulin: 3.389 +/- 1.093 vs 11.635 +/- 2.057 x 10(-6) x l x min(-1) x kg(-1) x pmol(-1) x l(-1); p = 0.012) which correlated strongly with the KG (r = 0.86; p = 0.0001). In conclusion, alloxan induces insulinopenic diabetes, with glucose intolerance and insulin resistance at the target tissue level. Alloxan treatment, however, does not alter lymph insulin kinetics, indicating that insulin resistance of Type 1 (insulin-dependent) diabetes mellitus reflects direct impairment at the cellular level.

Possible late potentials in 4 dogs with sustained ventricular tachycardia.

Signal-averaged electrocardiograms (SAEKGs) were performed on 4 dogs with sustained ventricular tachycardia. Quantitative and qualitative analyses of SAEKGs were consistent with the presence of late potentials. Two of the 4 dogs subsequently died suddenly, and ventricular tachycardia and ventricular fibrillation were observed in 1 dog. High-frequency QRS durations (75-90 milliseconds), duration of low amplitude (less than 40 microV) signals during the terminal QRS complex (LAS40) (28-40 milliseconds), root mean square voltages of the terminal 40 milliseconds of the QRS complex (RMS40) (124-6.5 microV), and root mean square voltages of the terminal 30 milliseconds of the QRS complex (RMS30) (13-2.1 microV) differed from results obtained in 68 of 70 control dogs. Echocardiographic data suggested dilated cardiomyopathy in 2 dogs and the cause of the arrhythmia in 2 dogs was not determined. The SAEKG may be a useful adjunct in identifying a subset of dogs with ventricular tachyarrhythmias that are at high risk for sustained ventricular tachycardia and sudden death. The sensitivity, specificity, and predictive accuracies of the technique remain to be determined.

Characterization of excitation-contraction coupling in conscious dogs with pacing-induced heart failure.

In isolated cardiac preparations of non-failing hearts from different species, including man, there is a positive force-frequency relation which is reversed into a negative relation in preparation from failing hearts. Whether or not such relations between ventricular function and heart rate hold true in the in situ heart is not clear at present. Mechanical restitution and postextrasystolic potentiation might serve as alternative measures of excitation-contraction coupling. Eleven dogs were instrumented with a left ventricular micromanometer, ultrasonic crystals for the measurement of regional wall thickness, two hydraulic occluders around the descending aorta and the inferior caval vein, and left atrial and ventricular pacing leads with a subcutaneous pacemaker. Left ventricular dP/dtmax, as an isovolumic phase index, and systolic wall thickening, as an ejection phase index, were plotted versus heart rate, and heart rate was increased by left atrial pacing from rest to 200 min-1 in increments of 25 min-1. In a subset of dogs, left ventricular filling was controlled and the frequency range expanded by the bradycardic agent UL-FS 49. Measurements were performed in the presence and absence of autonomic blockade (hexamethonium, atropine). Mechanical restitution and postextrasystolic potentiation were determined as normalized dP/dtmax and systolic wall thickening, respectively, of the extra- and postextrasystolic beat versus defined variations of the extrasystolic time interval (250-550 ms). Following control studies, heart failure was induced by rapid left ventricular pacing at 250 min-1 for 20 days +/- 6 (SD) and measurements repeated. Isolated left ventricular trabeculae from non-failing and failing hearts were studied during stimulation at 0.2-4 Hz. Only with filling control and in the absence of autonomic blockade, was there a slightly positive relation between dP/dtmax and heart rate in the control state. Otherwise, the relation of dP/dtmax to heart rate was flat both in the control state and in heart failure. The relation between systolic wall thickening and heart rate in the control state was negative, unless filling was controlled, and it was flat in heart failure. In contrast, the time constants of mechanical restitution and postextrasystolic potentiation were increased significantly with heart failure from 91 +/- 25 (SD) to 164 +/- 13 ms and from 107 +/- 18 to 156 +/- 4 ms, respectively, for dP/dtmax and from 76 +/- 22 to 162 +/- 10 ms and from 101 +/- 17 to 160 +/- 17 ms, respectively, for systolic wall thickening. These time constants were, however, insensitive to UL-FS 49 and autonomic blockade. There was a negative force-frequency relation in left ventricular trabeculae from non-failing hearts at higher calcium concentrations, where it was flat in trabeculae from failing hearts. Time constants of mechanical restitution and postextrasystolic potentiation are more sensitive than the steady state relation of ventricular function and heart rate to characterize the impairment of excitation-contraction coupling in heart failure.

The Effect of Flunarizine and Ryanodine on Acquired Torsades de Pointes Arrhythmias in the Intact Canine Heart

Ryanodine, a specific blocker of the Ca2+ release channel of the sarcoplasmic reticulum, and flunarizine, a [Ca2+]i overload blocker, possess antiarrhythmic effects against delayed afterdepolarizations (DADs) and DAD-dependent arrhythmias. In vitro controversy exists about their effect on early after-depolarizations (EADs): no effect was reported on cesium-induced EADs, while ryanodine did prevent EADs induced by isoproterenol. To study the possible role of intracellular Ca2+ overload in acquired EAD-dependent torsades de pointes (TdP) arrhythmias, we tested the effects of flunarizine and ryanodine in our animal model of TdP. Anaesthetized dogs with chronic AV block received d-sotalol or almokalant followed by pacing. A subset of dogs with reproducible TdP (> or = 3 times) were selected to receive flunarizine (2 mg/kg per 2 min) or ryanodine (10 micrograms/kg per 10 min). After d-sotalol, TdP was induced at a mean cycle length of the idioventricular rhythm (CL-IVR) of 2070 +/- 635 msec and a QT(U) interval of 535 +/- 65 msec. Induction of TdP was prevented by flunarizine in all experiments (8/8): electrophysiologically this was associated with a decrease in CL-IVR, QT(U), and QTc interval (390 +/- 100 to 320 +/- 45, P < 0.05). Ryanodine prevented TdP induction in 4 of 5 experiments and decreased the CL-IVR, QT(U), and the QTc interval from 385 +/- 75 to 320 +/- 20 msec (P < 0.05). Both drugs also suppressed the almokalant-induced EADs and related ectopic activity. This antiarrhythmic action corresponded with the inability to reinduce TdP by pacing. Blockade of the Ca2+ release channel of the sarcoplasmic reticulum by ryanodine or the reduction of [Ca2+]i overload by flunarizine prevents induction of EAD-dependent acquired TdP arrhythmias, suggesting a role for [Ca2+]i overload in acquired TdP.

Effects of acetyl strophanthidin on duration of atrial fibrillation in the neurally-intact and blockaded dog.

Although the inotropic and dromotropic effects of cardiac glycosides in atrial fibrillation (AF) are well recognized, their action on AF itself is not clear. Accordingly, to determine whether cardiac glycosides prolong AF, the duration of electrically induced AF, atrioventricular conduction, and left ventricular function were assessed for 30 minutes before and for 30 minutes following intravenous administration of acetyl strophanthidin (AS), 20 micrograms/kg, in neurally intact, beta-blocked, and beta-blocked and vagotomized dogs. In the intact dog, AS, 20 micrograms/kg, increased peak dp/dt by 132 +/- 35 mmHg.sec-1, p less than 0.05, and slowed ventricular response by 16 +/- 7 min-1, p less than 0.05, but had a variable effect on AF duration. While the increased left ventricular peak dp/dt persisted for 15 minutes after AS, an increased duration of AF was evident only at 20 minutes, when the effects of AS on left ventricular (LV) inotropy were no longer apparent. Moreover, the subset of dogs that did not demonstrate prolongation of average duration of AF after AS had a greater increment of peak dp/dt than those that showed prolongation, 237 +/- 52 versus 53 +/- 31 mmHg.sec-1, p less than 0.05. An additional 20 micrograms/kg, which produced ventricular extrasystoles, prolonged AF duration when compared to both control and 30-minute measurements. Acetyl strophanthidin, 20 micrograms/kg, had a variable effect on duration of AF with beta-blockade but prolonged duration by 114 +/- 34%, p less than 0.05, with both vagotomy and beta-blockade.(ABSTRACT TRUNCATED AT 250 WORDS)