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利用人工神经网络和步态分析过程中获得的地面反作用力诊断犬类跛行。

Diagnosis of lameness in dogs by use of artificial neural networks and ground reaction forces obtained during gait analysis.

作者信息

Kaijima Makiko, Foutz Timothy L, McClendon Ronald W, Budsberg Steven C

机构信息

Institute for Artificial Intelligence, Franklin College of Arts and Sciences, University of Georgia, Athens, GA 30602, USA.

出版信息

Am J Vet Res. 2012 Jul;73(7):973-8. doi: 10.2460/ajvr.73.7.973.

DOI:10.2460/ajvr.73.7.973
PMID:22738048
Abstract

OBJECTIVE

To evaluate the accuracy of artificial neural networks (ANNs) for use in predicting subjective diagnostic scores of lameness with variables determined from ground reaction force (GRF) data.

ANIMALS

21 adult mixed-breed dogs.

PROCEDURES

The left cranial cruciate ligament of each dog was transected to induce osteoarthritis of the stifle joint as part of another study. Lameness scores were assigned and GRF data were collected 2 times before and 5 times after ligament transection. Inputs and the output for each ANN were GRF variables and a lameness score, respectively. The ANNs were developed by use of data from 14 dogs and evaluated by use of data for the remaining 7 dogs (ie, dogs not used in model development).

RESULTS

ANN models developed with 2 preferred input variables had an overall accuracy ranging from 96% to 99% for 2 data configurations (data configuration 1 contained patterns or observations for 7 dogs, whereas data configuration 2 contained patterns or observations for 7 other dogs). When additional variables were added to the models, the highest overall accuracy ranged from 97% to 100%.

CONCLUSIONS AND CLINICAL RELEVANCE

ANNs provided a method for processing GRF data of dogs to accurately predict subjective diagnostic scores of lameness. Processing of GRF data via ANNs could result in a more precise evaluation of surgical and pharmacological intervention by detecting subtle lameness that could have been missed by visual analysis of GRF curves.

摘要

目的

评估人工神经网络(ANNs)用于根据地面反作用力(GRF)数据确定的变量预测跛行主观诊断评分的准确性。

动物

21只成年混种犬。

步骤

作为另一项研究的一部分,切断每只犬的左颅交叉韧带以诱发 stifle 关节骨关节炎。在韧带切断术前收集2次、术后收集5次跛行评分和GRF数据。每个ANN的输入和输出分别为GRF变量和跛行评分。ANNs使用14只犬的数据开发,并使用其余7只犬(即未用于模型开发的犬)的数据进行评估。

结果

使用2个优选输入变量开发的ANN模型对于2种数据配置的总体准确率范围为96%至99%(数据配置1包含7只犬的模式或观察结果,而数据配置2包含另外7只犬的模式或观察结果)。当向模型中添加其他变量时,最高总体准确率范围为97%至100%。

结论与临床意义

ANNs提供了一种处理犬GRF数据以准确预测跛行主观诊断评分的方法。通过ANNs处理GRF数据可通过检测GRF曲线视觉分析可能遗漏的细微跛行,对手术和药物干预进行更精确的评估。

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