基于 Lambda-Mu-Sigma 方法的冠状动脉 z 评分模型(ZSP 版本 4)分析川崎病患儿的运动能力。
Analysis of Exercise Capacity of Children with Kawasaki Disease by a Coronary Artery z Score Model (ZSP Version 4) Derived by the Lambda-Mu-Sigma Method.
机构信息
Department of Rehabilitation Medicine, Cishan Hospital, Ministry of Health and Welfare, Kaohsiung, Taiwan.
Department of Physical Medicine and Rehabilitation, Kaohsiung Medical University Hospital, Kaohsiung Medical University, Kaohsiung, Taiwan.
出版信息
J Pediatr. 2018 Oct;201:128-133. doi: 10.1016/j.jpeds.2018.05.036. Epub 2018 Jul 18.
OBJECTIVE
To compare exercise capacity measured by direct cardiopulmonary exercise testing (CPET) of children with Kawasaki disease with different coronary artery diameter z scores (CA z score).
STUDY DESIGN
This was a retrospective study that recruited children with Kawasaki disease after the acute stage receiving CPETs determined by CPET with treadmill. CA z score was based on a model using the Lambda-Mu-Sigma method. Max-Z was defined as the maximum z score of the proximal left anterior descending CA (LCA) or right CA (RCA). Children with Kawasaki disease with a Max z <2.0 and ≥2.0 were defined as Kawasaki disease group 1 and Kawasaki disease group 2, respectively.
RESULTS
We recruited 32 boys and 17 girls with a mean age of 12.39 ± 3.61 years. Kawasaki disease group 1 (n = 36) had significantly higher peak metabolic equivalent (peak-MET) and peak rate pressure product (PRPP) than Kawasaki disease group 2 (n-13) (P = .046, P < .001). Max-Z correlated with peak-MET moderately and negatively (P < .001, Spearman rho= - .506). Max-Z correlated with PRPP modestly and negatively (P = .011, Spearman rho= - .360).
CONCLUSIONS
Children after Kawasaki disease with a coronary artery Max-Z ≥ 2.0 had significantly lower peak exercise capacity than those with a Max-Z < 2.0. Max-Z might be used as an indicator of CA reserve and exercise capacity during peak exercise after the acute stage of Kawasaki disease.
目的
比较不同冠状动脉直径 z 分数(CA z 分数)的川崎病患儿通过直接心肺运动测试(CPET)测量的运动能力。
研究设计
这是一项回顾性研究,招募了川崎病后急性期接受 CPET 测试的儿童,CPET 测试采用跑步机。CA z 分数基于使用 Lambda-Mu-Sigma 方法的模型确定。Max-Z 定义为左前降支(LCA)或右冠状动脉(RCA)近端最大 z 分数。Max z <2.0 和≥2.0 的川崎病患儿分别定义为川崎病组 1 和川崎病组 2。
结果
共纳入 32 名男性和 17 名女性,平均年龄为 12.39±3.61 岁。川崎病组 1(n=36)的峰值代谢当量(peak-MET)和峰值压力速率乘积(PRPP)显著高于川崎病组 2(n=13)(P=0.046,P<0.001)。Max-Z 与 peak-MET 中度负相关(P<0.001,Spearman rho=-0.506)。Max-Z 与 PRPP 中度负相关(P=0.011,Spearman rho=-0.360)。
结论
川崎病后冠状动脉 Max-Z≥2.0 的患儿在急性期后峰值运动能力明显低于 Max-Z<2.0 的患儿。Max-Z 可能作为川崎病急性期后冠状动脉储备和峰值运动能力的指标。
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