Your search keyword '"Aggressive dogs"' showing total 6 results

1. Difficulties in Making the Ethically Correct Choice in the Management of a Case of Proven Dangerousness of a Shelter Dog.

Author

Benedetti, R., Malfatti, A., and Marchegiani, A.

Subjects

*ANIMAL shelters, *ANIMAL welfare, *BEHAVIORAL medicine, *DOG behavior, *PET adoption

Abstract

The management of shelter dogs whose dangerousness to people has been verified is an aspect of considerable importance as it assesses animal welfare, public health, and the management of human and economic resources. In this paper, we briefly discuss the case of a large sized male dog that had bitten people several times and was declared to be at high risk of causing danger. Despite a behavioral rehabilitation program, the initial evidence of dangerousness remained unchanged, thus, there was no possibility of putting the dog up for adoption. This clinical case is an example of how conflicting it is for a behaviorist to choose ethically when considering euthanasia and animal welfare. [ABSTRACT FROM AUTHOR]

Published

2020

2. Accelerated high frequency rTMS induces time-dependent dopaminergic alterations: a DaTSCAN brain imaging study in healthy beagle dogs

Author

Xu, Yangfeng, Peremans, Kathelijne, Salden, Sofie, Audenaert, Kurt, Dobbeleir, André, Van Eeckhaut, Ann, De Bundel, Dimitri, Saunders, Jimmy, and Baeken, Chris

Subjects

RELEASE, TRANSCRANIAL MAGNETIC STIMULATION, RECEPTOR, General Veterinary, RAT STRIATUM, DaTscan SPECT, OBSESSIVE-COMPULSIVE DISORDER, PREFRONTAL CORTEX, MAJOR DEPRESSION, behavior disorder, canine model, AGGRESSIVE DOGS, SEROTONIN TRANSPORTER, aHF-rTMS, Veterinary Sciences, DEPRESSION INSIGHTS, dopamine, dopamine transporter

Abstract

AimThe neurobiological effects of repetitive transcranial magnetic stimulation are believed to run in part through the dopaminergic system. Accelerated high frequency rTMS (aHF-rTMS), a new form of stimuli delivery, is currently being tested for its usefulness in treating human and canine mental disorders. However, the short-and long-term neurobiological effects are still unclear, including the effects on the dopaminergic system. In aHF-rTMS, multiple sessions are delivered within 1 day instead of one session per day, not only to accelerate the time to response but also to increase clinical efficacy. To gain more insight into the neurobiology of aHF-rTMS, we investigated whether applying five sessions in 1 day has direct and/or delayed effects on the dopamine transporter (DAT), and on dopamine metabolites of cerebrospinal fluid (CSF) in beagles.Materials and methodsThirteen beagles were randomly divided into two groups: five active stimulation sessions (n = 9), and 5 sham stimulation sessions (n = 4). Using DaTSCAN, DAT binding indices (BI) were obtained at baseline, after 1 day, 1 month, and 3 months post stimulation. CSF samples were collected after each scan.ResultsActive aHF-rTMS significantly reduced striatal DAT BI 1 day post-active stimulation session (p p ConclusionAlthough no significant effects on CSF dopamine metabolites were observed, five sessions of active aHF-rTMS significantly decreased striatal DAT BI after 1 day and up to 1 month post stimulation, indicating immediate and delayed effects on the brain dopaminergic system. Our findings in healthy beagles further substantiate the assumption that (a)HF-rTMS affects the brain dopaminergic system and it may pave the way to apply (a)HF-rTMS treatment in behaviorally disturbed dogs.

Published

2023

3. The impact of accelerated HF-rTMS on canine brain metabolism : an [18F]-FDG PET study in healthy beagles

Author

Xu, Yangfeng, Peremans, Kathelijne, Courtyn, Jan, Audenaert, Kurt, Dobbeleir, André, D'Asseler, Yves, Achten, Eric, Saunders, Jimmy, Baeken, Chris, Brain, Body and Cognition, Clinical sciences, Neuroprotection & Neuromodulation, and Psychiatry

Subjects

DISORDER, TRANSCRANIAL MAGNETIC STIMULATION, General Veterinary, BLOOD-FLOW, neuropsychiatric disorders (NPD), [F-18]-FDG brain imaging, repetitive transcranial magnetic stimulation, [18F]-FDG brain imaging, PREFRONTAL CORTEX, FREQUENCY, Psychiatry and Mental health, canine model, nervous system, AGGRESSIVE DOGS, CEREBRAL GLUCOSE-METABOLISM, TMS, PERFUSION, Medicine and Health Sciences, RESISTANT DEPRESSION, aHF-rTMS

Abstract

BackgroundRepetitive transcranial magnetic stimulation (rTMS) has been proven to be a useful tool for the treatment of several severe neuropsychiatric disorders. Accelerated (a)rTMS protocols may have the potential to result in faster clinical improvements, but the effects of such accelerated paradigms on brain function remain to be elucidated.ObjectivesThis sham-controlled arTMS study aimed to evaluate the immediate and delayed effects of accelerated high frequency rTMS (aHF-rTMS) on glucose metabolism in healthy beagle dogs when applied over the left frontal cortex.MethodsTwenty-four dogs were randomly divided into four unequal groups: five active (n = 8)/ sham (n = 4) stimulation sessions (five sessions in 1 day), 20 active (n = 8)/ sham (n = 4) stimulation sessions (five sessions/ day for 4 days), respectively. [18F] FDG PET scans were obtained at baseline, 24 h poststimulation, after 1 and 3 months post the last stimulation session. We explicitly focused on four predefined regions of interest (left/right prefrontal cortex and left/right hippocampus).ResultsOne day of active aHF-rTMS- and not sham- significantly increased glucose metabolism 24 h post-active stimulation in the left frontal cortex only. Four days of active aHF-rTMS only resulted in a nearly significant metabolic decrease in the left hippocampus after 1 month.ConclusionsLike in human psychiatric disorders, active aHF-rTMS in healthy beagles modifies glucose metabolism, although differently immediately or after 1 month post stimulation. aHF-rTMS may be also a valid option to treat mentally disordered dogs.

Published

2022

4. Canine hyperactivity, impulsivity, and inattention share similar demographic risk factors and behavioural comorbidities with human ADHD

Author

Sulkama, Sini, Puurunen, Jenni, Salonen, Milla, Mikkola, Salla, Hakanen, Emma, Araujo, César, Lohi, Hannes, Hannes Tapani Lohi / Principal Investigator, Department of Medical and Clinical Genetics, Veterinary Biosciences, Helsinki One Health (HOH), Veterinary Genetics, and Biosciences

Subjects

Male, NEUROBIOLOGY, CHILDREN, Neurosciences. Biological psychiatry. Neuropsychiatry, 413 Veterinary science, 3124 Neurology and psychiatry, Article, MECHANISMS, Dogs, AGGRESSIVE DOGS, Risk Factors, ADHD, Psychology, Animals, Humans, Attention, VALIDITY, DOMESTIC DOG, ATTENTION-DEFICIT/HYPERACTIVITY DISORDER, OBSESSIVE-COMPULSIVE DISORDER, PREVALENCE, Attention Deficit Disorder with Hyperactivity, DEFICIT, Impulsive Behavior, Quality of Life, RC321-571

Abstract

Attention-deficit hyperactivity disorder (ADHD) is a prevalent neurodevelopmental disorder impairing the quality of life of the affected individuals. The domestic dog can spontaneously manifest high hyperactivity/impulsivity and inattention which are components of human ADHD. Therefore, a better understanding of demographic, environmental and behavioural factors influencing canine hyperactivity/impulsivity and inattention could benefit both humans and dogs. We collected comprehensive behavioural survey data from over 11,000 Finnish pet dogs and quantified their level of hyperactivity/impulsivity and inattention. We performed generalised linear model analyses to identify factors associated with these behavioural traits. Our results indicated that high levels of hyperactivity/impulsivity and inattention were more common in dogs that are young, male and spend more time alone at home. Additionally, we showed several breed differences suggesting a substantial genetic basis for these traits. Furthermore, hyperactivity/impulsivity and inattention had strong comorbidities with compulsive behaviour, aggressiveness and fearfulness. Multiple of these associations have also been identified in humans, strengthening the role of the dog as an animal model for ADHD.

Published

2021

5. Gut microbiome structure and adrenocortical activity in dogs with aggressive and phobic behavioral disorders

Author

Matteo Soverini, Marco Candela, Monica Barone, Elisabetta Mondo, Massimo Cocchi, Giovanna Marliani, Pier Attilio Accorsi, Federica D’Amico, Michela Mattioli, Carmen Adele Petrulli, Mondo E., Barone M., Soverini M., D'Amico F., Cocchi M., Petrulli C., Mattioli M., Marliani G., Candela M., and Accorsi P. A.

Subjects

0301 basic medicine, Biological science, Behavioral phenotypes, Veterinary medicine, Poison control, Disease, Biology, Microbiology, Article, law.invention, Behavior disorder, 03 medical and health sciences, Probiotic, Endocrinology, 0302 clinical medicine, law, Microbiome, Phobic dog, lcsh:Social sciences (General), lcsh:Science (General), Genetics, Multidisciplinary, biology.organism_classification, Hormone, Hormones, Gut microbiome, Behavioral disorders, Biological sciences, 030104 developmental biology, Bacterial 16S rRNA, Behavioral disorder, Aggressive dogs, lcsh:H1-99, Aggressive dog, Phobic dogs, Animal behavior, 030217 neurology & neurosurgery, lcsh:Q1-390, Megamonas

Abstract

Accompanying human beings since the Paleolithic period, dogs has been recently regarded as a reliable model for the study of the gut microbiome connections with health and disease. In order to provide some glimpses on the connections between the gut microbiome layout and host behavior, we profiled the phylogenetic composition and structure of the canine gut microbiome of dogs with aggressive (n = 11), phobic (n = 13) and normal behavior (n = 18). Hormones’ determination was made through Radio Immuno-Assay (RIA), and next generation sequencing of the V3–V4 gene region of the bacterial 16S rRNA was employed to determine gut microbiome composition. Our results did not evidence any significant differences of hormonal levels between the three groups. According to our findings, aggressive behavioral disorder was found to be characterized by a peculiar gut microbiome structure, with high biodiversity and enrichment in generally subdominant bacterial genera (i.e. Catenibacterium and Megamonas). On the other hand, phobic dogs were enriched in Lactobacillus, a bacterial genus with known probiotic and psychobiotic properties. Although further studies are needed to validate our findings, our work supports the intriguing opportunity that different behavioral phenotypes in dogs may be associated with peculiar gut microbiome layouts, suggesting possible connections between the gut microbiome and the central nervous system and indicating the possible adoption of probiotic interventions aimed at restoring a balanced host-symbiont interplay for mitigating behavioral disorders., Biological sciences; Microbiology; Endocrinology; Veterinary medicine; Animal behavior; Microbiome, Behavioral disorders, Aggressive dogs, Phobic dogs, Hormones

Published

2020

6. Gut microbiome structure and adrenocortical activity in dogs with aggressive and phobic behavioral disorders.

Author

Mondo E, Barone M, Soverini M, D'Amico F, Cocchi M, Petrulli C, Mattioli M, Marliani G, Candela M, and Accorsi PA

Abstract

Accompanying human beings since the Paleolithic period, dogs has been recently regarded as a reliable model for the study of the gut microbiome connections with health and disease. In order to provide some glimpses on the connections between the gut microbiome layout and host behavior, we profiled the phylogenetic composition and structure of the canine gut microbiome of dogs with aggressive (n = 11), phobic (n = 13) and normal behavior (n = 18). Hormones' determination was made through Radio Immuno-Assay (RIA), and next generation sequencing of the V3-V4 gene region of the bacterial 16S rRNA was employed to determine gut microbiome composition. Our results did not evidence any significant differences of hormonal levels between the three groups. According to our findings, aggressive behavioral disorder was found to be characterized by a peculiar gut microbiome structure, with high biodiversity and enrichment in generally subdominant bacterial genera (i.e. Catenibacterium and Megamonas ). On the other hand, phobic dogs were enriched in Lactobacillus , a bacterial genus with known probiotic and psychobiotic properties. Although further studies are needed to validate our findings, our work supports the intriguing opportunity that different behavioral phenotypes in dogs may be associated with peculiar gut microbiome layouts, suggesting possible connections between the gut microbiome and the central nervous system and indicating the possible adoption of probiotic interventions aimed at restoring a balanced host-symbiont interplay for mitigating behavioral disorders., (© 2020 The Authors. Published by Elsevier Ltd.)

Published

2020