50 Minutes

PLENARY

20 Minutes

The design of the new system was informed by an extensive review of scientific literature, previous Guide Dogs’ research and in consultation with Guide Dogs’ subject matter experts. The behavior data collected are based on up-to-date behavioral science and the requirements of a working dog program. The resulting behavior data are then available to provide temperament trait information for the breeding department. Furthermore, recording and monitoring more accurate behavioral information supports dog wellbeing; behavior problems can be identified early, and the data can be used to ensure the correct working role is selected for dogs.

The presentation will explain the design of the system including the underpinning research and evidence used, will demonstrate the data that are collected and will highlight examples of the different data outputs available. The system has the potential revolutionize how working dog organizations consider and use their behavior data to manage their dogs and inform their breeding programs.

20 Minutes

40 Minutes

20 Minutes

20 Minutes

*Submitted for consideration, sponsor approval required prior to release or publication

50 Minutes

PLENARY

20 Minutes

Increasingly, research is directing treatment of gastroenteritis (specifically diarrhea), away from first line antibiotic use, towards more holistic approaches to addressing the underlying cause of gastrointestinal disruption.

In kennel facilities, these considerations are paramount, and traditional disease management protocols have a close interrelationship with dog mental wellbeing, and can be resource intensive for staff.

Seeing Eye Dogs has analyzed fecal PCR test data from over 100 dogs, comparing the incidence of positive results in symptomatic versus asymptomatic dogs, as well as comparing the prevalence of pathogens in the population across 3 years.

From this analysis, a revision of management protocols for gastroenteritis in the kennel facility were implemented, and outcomes reviewed against the incidence of gastroenteritis symptoms.

20 Minutes

Blood samples from an all-comers cohort of 191 cancer-diagnosed dogs and 188 presumably cancer-free dogs were subjected to DNA extraction, proprietary library preparation, and next-generation sequencing. Sequencing data were analyzed using an internally developed bioinformatics pipeline to detect genomic alterations associated with the presence of cancer.

The overall sensitivity in cancer-diagnosed subjects was 48% (92/191). Of 188 samples from presumably cancer-free dogs, 180 tested negative (putative ‘true negatives’) and 8 tested positive (‘putative false positives’, pFP). In at least 2 pFP cases, patients were diagnosed with cancer 6-7 months following blood collection and were excluded from final performance analyses, resulting in a minimum test specificity of 97%.

A novel, multi-cancer early detection (MCED) liquid biopsy test has demonstrated performance comparable to commercially available MCED testing options in humans. This test has shown the potential for detecting genomic markers of cancer months prior to the development of clinical signs. Early detection and treatment of cancer are key determinants of optimal clinical outcomes. When employed as a screening tool in the annual workup, a liquid biopsy test has the potential to extend the working dog’s career.

40 Minutes

20 Minutes

Keywords: Zoonotic, COVID, Capabilities, , Olfactory

TBA

50 Minutes

PLENARY

20 Minutes

Methods – Results:

In a pilot study ten dogs were trained to detect SARS-CoV-2 infections in beta-propiolactone inactivated saliva samples. They were able to discriminate between samples from infected patients and negative controls. The cognitive transfer performance for the recognition of non-inactivated sample material and detection accuracy were tested on three different non-inactivated body fluids (saliva, urine, sweat) in a randomized, double-blind controlled study.

Dogs were tested on a total of 5242 randomized samples. Dogs detected non-inactivated saliva samples with an average sensitivity of 84% (95% CI: 62·5–94·44%) and specificity of 95% (95% CI: 93·4–96·0%). In a subsequent experiment to compare the scent recognition between the three non-inactivated body fluids, diagnostic sensitivity and specificity were 95% (95% CI: 66·67–100%)   and 98% (95% CI: 94·87–100%) for urine, 91% (95% CI: 71·43–100%) and 94% (95% CI: 90·91–97·78%) for sweat, 82% (95% CI: 64·29–95·24%), and 96% (95% CI: 94·95–98·9% ) for saliva respectively.

Conclusions

Detection dogs were able to transfer the conditioned scent detection of inactivated saliva samples to non-inactivated saliva, urine and sweat samples, with a sensitivity >80% and specificity >94%. All three fluids were equally suited for SARS-CoV-2 detection by dogs and could be used for disease specific recognition. Detection dogs may provide a reliable screening method for SARS-CoV-2 infections.

20 Minutes

40 Minutes

For patrol dogs, over-arousal can result in redirected aggression, difficult or impossible for suspects to hear warning announcements leading to missed opportunity of surrender, decreasing use of force.  Dogs that work from a state of arousal are more difficult to control, exert valuable energy prior to working, are less controlled, less clear-minded and focused on the task, and can be a liability to their handlers.

In a group of young dogs (15-20) training for LE or USAR, we controlled arousal by requiring a calm response from the dog prior to work or reward was introduced. The dogs were evaluated for any reduction in motivation to perform a task. In our experience, implementing a calm response in various phases of training did not decrease their ability to perform a task at a high level of training expectations and carried over to operational expectations.  We also discovered that by establishing controlled motivation early in the dogs’ training, we were able to increase external stimuli that heightened arousal levels yet still maintain motivation and control of the dog through clearly communicating to the dog what was expected of them. Concerns that reducing the level of arousal would reduce motivation to work were unfounded.

20 Minutes

20 Minutes

These canines have now found regular use within law enforcement and correction facilities. However, the method of training these canines varies greatly, with limited scientific studies to validate these methods. Theories as to the target material to be used for canine training are numerous, from training on entire devices for detection, to training on only portions of the devices. There has also been anecdotal reports of the use of two compounds, 1-hydroxycyclohexylphenyl ketone (HPK) and triphenylphosphine oxide (TPPO) for training canines to locate MSDs.

The volatile organic compounds (VOCs) that canines are alerting to in MSDs remain to be scientifically determined. This study utilized Headspace Solid-phase microextraction (HS-SPME) to analyze the VOCs of a wide variety of MSDs including cellular phones, hard drives, USB drives, SIM cards, SD cards and compact disks (CDs). Additionally, the validity of HPK and TPPO was also investigated. These results will aid the canine community in developing optimal training protocols for the detection of MSDs.

Japanese knotweed presents unique training challenges, as working dogs to a living plant adds complexity for training and operational practice. As knotweed grows within the environment, it is crucial to ensure that the scent picture remains clean for the dogs. Training to a live plant involves careful consideration of the changing nature of knotweed throughout the seasons, with dogs required to be confident in recognizing the plant at each stage of its life cycle. This significant variation is reflected in dog’s varying responses to the plant during different seasons, which will be demonstrated with video examples.

Although our dogs are operationally effective, it is important to test and evidence their ability to detect knotweed in a scientific way; we are therefore developing a research project exploring this. Two dogs will perform a double-blind odor identification test containing 30 target plants each, against control plant species. Initial data collection will be complete by July, ready to share analysis and insights at the conference.

Impulsive behaviors and changes in emotional states occur in response to stimuli or situations that potentially are, rewarding or punishing in the environment. There is some evidence, in humans and dogs, that many cognitive processes such as, attention, working memory and learning responses are modulated by impulsivity and core effect. However, very little is known about how individual’s differences in impulsivity, as well as rewards (e.g. positive distractions – temptations), and aversives (e.g. negative distraction – anxieties) may influence performance in MWDs.

The aim of this study was to assess whether there would be differences in terms of scores on theDog Impulsivity Assessment Scale (i.e. impulsivity, aggression and responsiveness); and on the Positive and Negative Affect Scale (i.e. energy, persistence and excitement; and negative activation) on the detection and patrol performance in U.S. Department of Defense Military Working Dogs.

Results showed a significant association between psychometrical tests scores and performance factors such as reward release, detection sensitivity and specificity, but also scores predict the number of days in training to reach detection and patrol qualification.

Volatile organic compound (VOC) markers from exhaled breath of diseased patients have been widely reported as a means by which certain diseased states may be identified. Analytical instruments have been tested and shown promise for their use as effective screening tools. However, for the detection of breath VOCs, sensitivity limitations still exist with these instruments reporting sensitivity levels in the parts per billion (ppb) range. It has been reported that VOCs in human breath are released in concentrations of ppb to parts per trillion (ppt), in comparison to human blood and urine where VOCs are released in the parts per million (ppm) to ppb range. One method to combat this limitation has been the use of trained scent detection canines as research has shown odor detection capabilities in the ppt range.

Using face masks obtained from hospitalized patients who tested positive for the COVID-19 disease, four canines were trained and evaluated for their ability to detect the disease. Masks from patients who tested negative for COVID-19 were also used to train canines to discriminate between breath VOCs from patients that were both positive and negative for COVID-19. All four canines obtained an accuracy above 90% validated with both double-blind trials and canine deployments.

Since 2015, PAWS Your Stress Therapy Dog program has offered student participants feelings of comfort and support on the University of Saskatchewan campus. In response to the COVID-19 Pandemic in March 2020, this program moved online with two goals: 1) for student participants to connect virtually with therapy dogs towards feelings of comfort and support; and 2) to increase student’s knowledge of pandemic-specific, evidence-informed mental health.

There were three key findings identified by the process and outcome evaluation related to: 1st, how the online activities contributed to the program’s goals; 2nd, best practices related to program personnel, handler training and support, and online expertise; and 3rd, working/therapy dog-specific ethical considerations. Specifically, what are the ethical concerns of transitioning a dog that was trained to do in-person therapy to an online format. We conclude with how these findings have informed our work and how the evaluation will inform our online therapy dog program in the 2021 semester. For example, our initial program findings were used to fine-tune the program for the fall 2020 semester; implementing interactive zoom sessions with several therapy dog teams.

*Submitted for consideration, sponsor approval required prior to release or publication

POSTERS