Femoral parallelism: evaluation and impact of variation on canine hip dysplasia assessment

Franco-Gonçalo, Pedro; Alves‐Pimenta, Sofia; Gonçalves, Lio; Colaço, Bruno; Leite, Pedro; Ribeiro, António P.; Ferreira, Manuel; McEvoy, Fintan J.; Ginja, Mário

doi:10.3389/fvets.2023.1160200

Front. Vet. Sci.

2023

DOI: 10.3389/fvets.2023.1160200

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Femoral parallelism: evaluation and impact of variation on canine hip dysplasia assessment

Pedro Franco-Gonçalo

Sofia Alves‐Pimenta

Lio Gonçalves

et al.

Abstract: Adequate radiographic positioning on the X-ray table is paramount for canine hip dysplasia (HD) screening. The aims of this study were to evaluate femoral parallelism on normal ventrodorsal hip extended (VDHE) view and the effect of femoral angulation (FA) on Norberg Angle (NA) and Hip Congruency Index (HCI). The femoral parallelism was evaluated comparing the alignment of the long femoral axis with the long body axis in normal VDHE views and the effect of FA on NA and HCI on repeated VDHE views with different… Show more

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Cited by 5 publications

References 26 publications

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Computer-aided diagnosis of Canine Hip Dysplasia using deep learning approach in a novel X-ray image dataset

Boufenar,

Logovi,

Samir

et al. 2023

Computer Methods in Biomechanics and Biomedical Engineering: Im

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Computer-aided diagnosis of Canine Hip Dysplasia using deep learning approach in a novel X-ray image dataset

Boufenar,

Logovi,

Samir

et al. 2023

Computer Methods in Biomechanics and Biomedical Engineering: Im

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Assessment of New Radiographic Traits in Canine Hip Dysplasia (CHD)

Marešová,

Kuricová,

Lipták

2024

Acta Veterinaria

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Canine hip dysplasia (CHD) is a polygenic, multifactorial developmental disorder of the hip joint. Hip laxity, an early characteristic of CHD, leads to degeneration within the joint due to mechanical injury. Definitive diagnosis can be achieved by x-ray examination. The aim of our study is to refine CHD assessments using a quantitative planimetry method. The measurement of the Norberg angle (NA) was found subjective and insufficient to measure hip laxity on the standard ventrodorsal projection, because extension of the pelvic limbs stretches the joint capsule and supports joint congruence. Therefore, we have decided to verify other methods of detecting CHD, which include measurement of femoral head coverage (linear and area coverage) and congruence angle (AoC). These parameters could provide us with relevant information about how well the head of the femur fits into the acetabulum and thus might help to assess CHD better, and identify affected individuals better. In our study, we included 122 x-ray images of 3 breeds of dogs of both sexes and at different ages 5.6 ± 1.8 years. The highest correlation was between both femoral head linear and both area overlap for Bavarian hounds. For Bernese mountain dogs it was between right NA and linear and area femoral overlap, between both femoral head linear and both area overlap. For German shepherd dogs it was found between both NA, between right NA and right AoC, between both AoC, between both NA with both femoral overlap and between both AoC and both femoral overlap on the same side.

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Neural Networks for the Detection of COVID-19 and Other Diseases: Prospects and Challenges

et al. 2023

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Artificial neural networks (ANNs) ability to learn, correct errors, and transform a large amount of raw data into beneficial medical decisions for treatment and care has increased in popularity for enhanced patient safety and quality of care. Therefore, this paper reviews the critical role of ANNs in providing valuable insights for patients’ healthcare decisions and efficient disease diagnosis. We study different types of ANNs in the existing literature that advance ANNs’ adaptation for complex applications. Specifically, we investigate ANNs’ advances for predicting viral, cancer, skin, and COVID-19 diseases. Furthermore, we propose a deep convolutional neural network (CNN) model called ConXNet, based on chest radiography images, to improve the detection accuracy of COVID-19 disease. ConXNet is trained and tested using a chest radiography image dataset obtained from Kaggle, achieving more than 97% accuracy and 98% precision, which is better than other existing state-of-the-art models, such as DeTraC, U-Net, COVID MTNet, and COVID-Net, having 93.1%, 94.10%, 84.76%, and 90% accuracy and 94%, 95%, 85%, and 92% precision, respectively. The results show that the ConXNet model performed significantly well for a relatively large dataset compared with the aforementioned models. Moreover, the ConXNet model reduces the time complexity by using dropout layers and batch normalization techniques. Finally, we highlight future research directions and challenges, such as the complexity of the algorithms, insufficient available data, privacy and security, and integration of biosensing with ANNs. These research directions require considerable attention for improving the scope of ANNs for medical diagnostic and treatment applications.

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Femoral parallelism: evaluation and impact of variation on canine hip dysplasia assessment

Cited by 5 publications

References 26 publications

Computer-aided diagnosis of Canine Hip Dysplasia using deep learning approach in a novel X-ray image dataset

Computer-aided diagnosis of Canine Hip Dysplasia using deep learning approach in a novel X-ray image dataset

Assessment of New Radiographic Traits in Canine Hip Dysplasia (CHD)

Neural Networks for the Detection of COVID-19 and Other Diseases: Prospects and Challenges

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