A machine-learning algorithm to grade heart murmurs and stage preclinical myxomatous mitral valve disease in dogs.

IF 2.6 2区农林科学 Journal of Veterinary Internal Medicine Pub Date : 2024-10-21 DOI:10.1111/jvim.17224

Andrew McDonald, Jose Novo Matos, Joel Silva, Catheryn Partington, Eve J Y Lo, Virginia Luis Fuentes, Lara Barron, Penny Watson, Anurag Agarwal

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Abstract

Background: The presence and intensity of heart murmurs are sensitive indicators of several cardiac diseases in dogs, particularly myxomatous mitral valve disease (MMVD), but accurate interpretation requires substantial clinical expertise.

Objectives: Assess if a machine-learning algorithm can be trained to accurately detect and grade heart murmurs in dogs and detect cardiac disease in electronic stethoscope recordings.

Animals: Dogs (n = 756) with and without cardiac disease attending referral centers in the United Kingdom.

Methods: All dogs received full physical and echocardiographic examinations by a cardiologist to grade any murmurs and identify cardiac disease. A recurrent neural network algorithm, originally trained for heart murmur detection in humans, was fine-tuned on a subset of the dog data to predict the cardiologist's murmur grade from the audio recordings.

Results: The algorithm detected murmurs of any grade with a sensitivity of 87.9% (95% confidence interval [CI], 83.8%-92.1%) and a specificity of 81.7% (95% CI, 72.8%-89.0%). The predicted grade exactly matched the cardiologist's grade in 57.0% of recordings (95% CI, 52.8%-61.0%). The algorithm's prediction of loud or thrilling murmurs effectively differentiated between stage B1 and B2 preclinical MMVD (area under the curve [AUC], 0.861; 95% CI, 0.791-0.922), with a sensitivity of 81.4% (95% CI, 68.3%-93.3%) and a specificity of 73.9% (95% CI, 61.5%-84.9%).

Conclusion and clinical importance: A machine-learning algorithm trained on humans can be successfully adapted to grade heart murmurs in dogs caused by common cardiac diseases, and assist in differentiating preclinical MMVD. The model is a promising tool to enable accurate, low-cost screening in primary care.

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用机器学习算法对狗的心脏杂音进行分级，并对临床前肌瘤性二尖瓣病进行分期。

背景：心脏杂音的存在和强度是犬多种心脏疾病的敏感指标，尤其是肌瘤性二尖瓣疾病（MMVD），但准确解读需要大量临床专业知识：评估是否可以训练一种机器学习算法，以准确检测和分级狗的心脏杂音，并检测电子听诊器记录中的心脏疾病：动物：在英国转诊中心就诊的患有和未患有心脏病的狗（n = 756）：方法：所有犬只都接受了由心脏病专家进行的全面体检和超声心动图检查，以分级任何杂音并确定心脏疾病。最初为检测人类心脏杂音而训练的递归神经网络算法在狗的数据子集上进行了微调，以从录音中预测心脏病专家的杂音分级：该算法能检测出任何等级的杂音，灵敏度为 87.9%（95% 置信区间 [CI]，83.8%-92.1%），特异度为 81.7%（95% 置信区间 [CI]，72.8%-89.0%）。在 57.0% 的记录（95% CI，52.8%-61.0%）中，预测的分级与心脏病专家的分级完全吻合。该算法对响亮或激动杂音的预测能有效区分 B1 期和 B2 期临床前 MMVD（曲线下面积 [AUC]，0.861；95% CI，0.791-0.922），灵敏度为 81.4%（95% CI，68.3%-93.3%），特异性为 73.9%（95% CI，61.5%-84.9%）：在人类身上训练的机器学习算法可成功地用于对常见心脏病引起的犬心脏杂音进行分级，并有助于区分临床前MMVD。该模型是在初级保健中实现准确、低成本筛查的理想工具。

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来源期刊

Journal of Veterinary Internal Medicine Veterinary-General Veterinary

自引率

11.50%

发文量

243

期刊介绍： The mission of the Journal of Veterinary Internal Medicine is to advance veterinary medical knowledge and improve the lives of animals by publication of authoritative scientific articles of animal diseases.