Use of machine learning and Poincaré density grid in the diagnosis of sinus node dysfunction caused by sinoatrial conduction block in dogs

IF 2.1 2区 农林科学 Q1 VETERINARY SCIENCES Journal of Veterinary Internal Medicine Pub Date : 2024-04-29 DOI:10.1111/jvim.17071
Wyatt Hutson Flanders, N. Sydney Moïse, Niels F. Otani
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Abstract

Background

Sinus node dysfunction because of abnormal impulse generation or sinoatrial conduction block causes bradycardia that can be difficult to differentiate from high parasympathetic/low sympathetic modulation (HP/LSM).

Hypothesis

Beat-to-beat relationships of sinus node dysfunction are quantifiably distinguishable by Poincaré plots, machine learning, and 3-dimensional density grid analysis. Moreover, computer modeling establishes sinoatrial conduction block as a mechanism.

Animals

Three groups of dogs were studied with a diagnosis of: (1) balanced autonomic modulation (n = 26), (2) HP/LSM (n = 26), and (3) sinus node dysfunction (n = 21).

Methods

Heart rate parameters and Poincaré plot data were determined [median (25%-75%)]. Recordings were randomly assigned to training or testing. Supervised machine learning of the training data was evaluated with the testing data. The computer model included impulse rate, exit block probability, and HP/LSM.

Results

Confusion matrices illustrated the effectiveness in diagnosing by both machine learning and Poincaré density grid. Sinus pauses >2 s differentiated (P < .0001) HP/LSM (2340; 583-3947 s) from sinus node dysfunction (8503; 7078-10 050 s), but average heart rate did not. The shortest linear intervals were longer with sinus node dysfunction (315; 278-323 ms) vs HP/LSM (260; 251-292 ms; P = .008), but the longest linear intervals were shorter with sinus node dysfunction (620; 565-698 ms) vs HP/LSM (843; 799-888 ms; P < .0001).

Conclusions

Number and duration of pauses, not heart rate, differentiated sinus node dysfunction from HP/LSM. Machine learning and Poincaré density grid can accurately identify sinus node dysfunction. Computer modeling supports sinoatrial conduction block as a mechanism of sinus node dysfunction.

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利用机器学习和庞加莱密度网格诊断犬窦房结传导阻滞引起的窦房结功能障碍
背景由于冲动产生异常或窦房传导阻滞导致的窦房结功能障碍会引起心动过缓,而这种心动过缓很难与高副交感/低交感调节(HP/LSM)区分开来。假说通过Poincaré图、机器学习和三维密度网格分析,可以量化区分窦房结功能障碍的搏动间关系。此外,计算机建模确定了窦房传导阻滞是一种机制:(方法测定心率参数和波恩卡雷图数据[中位数(25%-75%)]。记录被随机分配到训练或测试中。通过测试数据对训练数据的机器学习进行评估。计算机模型包括脉冲率、出口阻滞概率和 HP/LSM。结果混淆矩阵显示了机器学习和波卡密度网格诊断的有效性。窦性停搏 >2 s 将 HP/LSM (2340; 583-3947 s) 与窦房结功能障碍 (8503; 7078-10 050 s) 区分开来(P <.0001),但平均心率并不能区分开来。窦房结功能障碍(315;278-323 ms)与 HP/LSM (260;251-292 ms;P = .008)相比,最短线性间隔更长,但窦房结功能障碍(620;565-698 ms)与 HP/LSM (843;799-888 ms;P <;.0001)相比,最长线性间隔更短。机器学习和Poincaré密度网格能准确识别窦房结功能障碍。计算机建模支持窦房传导阻滞是窦房结功能障碍的一种机制。
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来源期刊
CiteScore
4.50
自引率
11.50%
发文量
243
审稿时长
22 weeks
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.
期刊最新文献
Issue Information 2024 ACVIM Forum Research Report Program Evaluation of the efficacy of a live Escherichia coli biotherapeutic product (asymptomatic bacteriuria E. coli 212) Endothelial glycocalyx degradation in critically ill foals Effect of oral or subcutaneous administration of cyanocobalamin in hypocobalaminemic cats with chronic gastrointestinal disease or exocrine pancreatic insufficiency
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