Ryan Hennessey scite author profile

Artificial intelligence in veterinary medicine is an emerging field. Machine learning, a subfield of artificial intelligence, allows computer programs to analyze large imaging datasets and learn to perform tasks relevant to veterinary diagnostic imaging. This review summarizes the small, yet growing body of artificial intelligence literature in veterinary imaging, provides necessary background to understand these papers, and provides author commentary on the state of the field. To date, less than 40 peer-reviewed publications have utilized machine learning to perform imaging-associated tasks across multiple anatomic regions in veterinary clinical and biomedical research. Major challenges in this field include collection and cleaning of sufficient image data, selection of high-quality ground truth labels, formation of relationships between veterinary and machine learning professionals, and closure of the gap between academic uses of artificial intelligence and currently available commercial products. Further development of artificial intelligence has the potential to help meet the growing need for radiological services through applications in workflow, quality control, and image interpretation for both general practitioners and radiologists.

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Co-benefits of integrating climate change adaptation and mitigation in the Canadian energy sector

Hennessey¹,

Pittman

Morand

et al. 2017

Energy Policy

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Performance Comparison of Object Detection Networks for Shrapnel Identification in Ultrasound Images

2023

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Ultrasound imaging is a critical tool for triaging and diagnosing subjects but only if images can be properly interpreted. Unfortunately, in remote or military medicine situations, the expertise to interpret images can be lacking. Machine-learning image interpretation models that are explainable to the end user and deployable in real time with ultrasound equipment have the potential to solve this problem. We have previously shown how a YOLOv3 (You Only Look Once) object detection algorithm can be used for tracking shrapnel, artery, vein, and nerve fiber bundle features in a tissue phantom. However, real-time implementation of an object detection model requires optimizing model inference time. Here, we compare the performance of five different object detection deep-learning models with varying architectures and trainable parameters to determine which model is most suitable for this shrapnel-tracking ultrasound image application. We used a dataset of more than 16,000 ultrasound images from gelatin tissue phantoms containing artery, vein, nerve fiber, and shrapnel features for training and evaluating each model. Every object detection model surpassed 0.85 mean average precision except for the detection transformer model. Overall, the YOLOv7tiny model had the higher mean average precision and quickest inference time, making it the obvious model choice for this ultrasound imaging application. Other object detection models were overfitting the data as was determined by lower testing performance compared with higher training performance. In summary, the YOLOv7tiny object detection model had the best mean average precision and inference time and was selected as optimal for this application. Next steps will implement this object detection algorithm for real-time applications, an important next step in translating AI models for emergency and military medicine.

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Leveraging Community Capacity for Nature Conservation in a Rural Island Context: Experiences from Brier Island, Canada

Hennessey¹,

Beazley²

2012

Landscape Research

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In many instances nature conservation projects require input from and collaboration with communities that live near or in ecosensitive regions. The ability of communities to be collaborative varies and often requires capacity development for full participation in conservation planning and management. Such capacity development can be expensive, and where sufficient resources are not available the success of conservation projects can be limited. Through a case study of the Brier Island Nature Preserve, near Westport, Nova Scotia, ways in which existing capacity in a community can be better leveraged for the purpose of conservation are examined. We describe how the linked concepts of community values, place dependence, place identity and motivation have influenced conservation on the island. We then suggest how these concepts can provide opportunities to leverage additional resources within the community of Westport for conservation activities. We conclude that an integrated approach that more comprehensively reflects community values, place dependence and identity should foster and enhance local motivation for conservation management and planning.

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Using Ultrasound Image Augmentation and Ensemble Predictions to Prevent Machine-Learning Model Overfitting

2023

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Deep learning predictive models have the potential to simplify and automate medical imaging diagnostics by lowering the skill threshold for image interpretation. However, this requires predictive models that are generalized to handle subject variability as seen clinically. Here, we highlight methods to improve test accuracy of an image classifier model for shrapnel identification using tissue phantom image sets. Using a previously developed image classifier neural network—termed ShrapML—blind test accuracy was less than 70% and was variable depending on the training/test data setup, as determined by a leave one subject out (LOSO) holdout methodology. Introduction of affine transformations for image augmentation or MixUp methodologies to generate additional training sets improved model performance and overall accuracy improved to 75%. Further improvements were made by aggregating predictions across five LOSO holdouts. This was done by bagging confidences or predictions from all LOSOs or the top-3 LOSO confidence models for each image prediction. Top-3 LOSO confidence bagging performed best, with test accuracy improved to greater than 85% accuracy for two different blind tissue phantoms. This was confirmed by gradient-weighted class activation mapping to highlight that the image classifier was tracking shrapnel in the image sets. Overall, data augmentation and ensemble prediction approaches were suitable for creating more generalized predictive models for ultrasound image analysis, a critical step for real-time diagnostic deployment.

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Climate change and Canada's forests: From impacts to adaptation

Houle¹,

Ogden²,

Williamson³

et al. 2009

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Atmospheric Deposition of Calcium and Magnesium as a Contributor to the Formation of Dune Decomposition Chimneys in a Modern Coastal Dune of the Indiana Dunes National Lakeshore

Hennessey¹,

Argyilan²,

Huysken³

et al. 2017

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Ryan Hennessey

Revision total knee arthroplasty with a cemented posterior-stabilized or constrained condylar prosthesis

Artificial intelligence in veterinary diagnostic imaging: A literature review

Co-benefits of integrating climate change adaptation and mitigation in the Canadian energy sector

Performance Comparison of Object Detection Networks for Shrapnel Identification in Ultrasound Images

Leveraging Community Capacity for Nature Conservation in a Rural Island Context: Experiences from Brier Island, Canada

Using Ultrasound Image Augmentation and Ensemble Predictions to Prevent Machine-Learning Model Overfitting

Climate change and Canada's forests: From impacts to adaptation

Atmospheric Deposition of Calcium and Magnesium as a Contributor to the Formation of Dune Decomposition Chimneys in a Modern Coastal Dune of the Indiana Dunes National Lakeshore

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