利用磁共振灌注参数预测侧支循环状态：基于Tmax衍生预测模型的概率方法

Predicting Collateral Status With Magnetic Resonance Perfusion Parameters: Probabilistic Approach With a Tmax-Derived Prediction Model.

作者信息

Lee Mi Ji, Son Jeong Pyo, Kim Suk Jae, Ryoo Sookyung, Woo Sook-Young, Cha Jihoon, Kim Gyeong-Moon, Chung Chin-Sang, Lee Kwang Ho, Bang Oh Young

机构信息

From the Departments of Neurology (M.J.L., S.J.K., S.R., G.-M.K., C.-S.C., K.H.L., O.Y.B.) and Radiology (J.C.), Samsung Medical Center, School of Medicine (M.J.L., S.J.K., S.R., G.-M.K., C.-S.C., K.H.L., O.Y.B., J.C.) and Department of Health Sciences and Technology, Samsung Advanced Institute for Health Sciences and Technology (J.P.S., O.Y.B.), Sungkyunkwan University, Seoul, Korea; and Biostatistics Team, Samsung Biomedical Research Institute, Seoul, Korea (S.-Y.W.).

出版信息

Stroke. 2015 Oct;46(10):2800-7. doi: 10.1161/STROKEAHA.115.009828. Epub 2015 Aug 25.

DOI:10.1161/STROKEAHA.115.009828

PMID:26306754

Abstract

BACKGROUND AND PURPOSE

Good collateral flow is an important predictor for favorable responses to recanalization therapy and successful outcomes after acute ischemic stroke. Magnetic resonance perfusion-weighted imaging (MRP) is widely used in patients with stroke. However, it is unclear whether the perfusion parameters and thresholds would predict collateral status. The present study evaluated the relationship between hypoperfusion severity and collateral status to develop a predictive model for good collaterals using MRP parameters.

METHODS

Patients who were eligible for recanalization therapy that underwent both serial diffusion-weighted imaging and serial MRP were enrolled into the study. A collateral flow map derived from MRP source data was generated through automatic postprocessing. Hypoperfusion severity, presented as proportions of every 2-s Tmax strata to the entire hypoperfusion volume (Tmax≥2 s), was compared between patients with good and poor collaterals. Prediction models for good collaterals were developed with each Tmax strata proportion and cerebral blood volumes.

RESULTS

Among 66 patients, 53 showed good collaterals based on MRP-based collateral grading. Although no difference was noted in delays within 16 s, more severe Tmax delays (Tmax16-18 s, Tmax18-22 s, Tmax22-24 s, and Tmax>24 s) were associated with poor collaterals. The probability equation model using Tmax strata proportion demonstrated high predictive power in a receiver operating characteristic analysis (area under the curve=0.9303; 95% confidence interval, 0.8682-0.9924). The probability score was negatively correlated with the volume of infarct growth (P=0.030).

CONCLUSIONS

Collateral status is associated with more severe Tmax delays than previously defined. The present Tmax severity-weighted model can determine good collaterals and subsequent infarct growth.

摘要

背景与目的

良好的侧支循环是急性缺血性卒中再通治疗良好反应及成功预后的重要预测指标。磁共振灌注加权成像（MRP）在卒中患者中广泛应用。然而，尚不清楚灌注参数及阈值能否预测侧支循环状态。本研究评估低灌注严重程度与侧支循环状态之间的关系，以利用MRP参数建立良好侧支循环的预测模型。

方法

符合再通治疗条件且接受了系列扩散加权成像和系列MRP检查的患者纳入本研究。通过自动后处理生成源自MRP源数据的侧支循环血流图。比较侧支循环良好和不良患者之间的低灌注严重程度，低灌注严重程度以每2秒Tmax分层占整个低灌注体积（Tmax≥2秒）的比例表示。利用每个Tmax分层比例和脑血容量建立良好侧支循环的预测模型。

结果

66例患者中，基于MRP的侧支循环分级，53例显示侧支循环良好。尽管在16秒内的延迟无差异，但更严重的Tmax延迟（Tmax 16 - 18秒、Tmax 18 - 22秒、Tmax 22 - 24秒和Tmax>24秒）与侧支循环不良相关。在受试者工作特征分析中，使用Tmax分层比例的概率方程模型显示出较高的预测能力（曲线下面积 = 0.9303；95%置信区间，0.8682 - 0.9924）。概率评分与梗死灶生长体积呈负相关（P = 0.030）。

结论

侧支循环状态与比先前定义更严重的Tmax延迟相关。目前的Tmax严重程度加权模型可确定良好的侧支循环及随后的梗死灶生长。

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利用磁共振灌注参数预测侧支循环状态：基于Tmax衍生预测模型的概率方法

Predicting Collateral Status With Magnetic Resonance Perfusion Parameters: Probabilistic Approach With a Tmax-Derived Prediction Model.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

METHODS

RESULTS

CONCLUSIONS

背景与目的

方法

结果

结论

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