Evaluation of microvascular flow imaging combined with high-frequency ultrasonography in children with haemophilic arthropathy A
10.3760/cma.j.cn101070-20201215-01896
- VernacularTitle:微细血流成像联合高频超声对儿童A型血友病性关节病的评估
- Author:
Junkui WANG
1
;
Miao WANG
;
Qinghua QI
;
Zhibin WU
;
Xing PENG
;
Caiyun LI
;
Yaya YAN
;
Bai LI
;
Jianguo WEN
Author Information
1. 郑州大学第一附属医院超声科,郑州 450052
- Keywords:
Microvascular flow imaging;
High-frequency ultrasonography;
Haemophilic arthropathy A;
Child
- From:
Chinese Journal of Applied Clinical Pediatrics
2022;37(6):446-449
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To explore the application of microvascular flow imaging (MVFI) combined with high-frequency ultrasonography in children with haemophilic arthropathy A (HAA).Methods:Retrospective study.A total of 82 children diagnosed with HAA in the First Affiliated Hospital of Zhengzhou University from October 2018 to October 2020 were recruited.The elbow, knee and ankle joints of each child were examined by high-frequency ultrasonography.The numbers of thickened synovial joints were recorded.Blood flow signals of the thickening of synovial joints was checked by the MVFI and power Doppler ultrasound (PDUS), respectively.Color flow signals were graded by the semi-quantitative scoring systems.The chi- square test and independent multi-group ordinal multi-category rank-sum test were used to compare the differences of MVFI and PDUS in the display of thickened synovial blood flow. Results:A total of 254 joints were involved in 82 children with HAA, including synovial hypertrophy in 188 joints, hydrops articuli in 146 joints, fibrotic septa in 66 joints, cartilage damage in 63 joints, haemosider indeposition in 45 joints, bone erosion in 25 joints, osteophytes in 15 joints and bone remodeling in 8 joints.Grade Ⅱ synovial thickened joints were the most common.The proportion of blood flow signals detected by PDUS in thickened synovial membranes was significantly higher than that detected MVFI (52.66% vs.70.21%, χ2=12.225, P<0.05). Numbers of grade 0 and Ⅰ joints with thickened synovial membranes detected by MVFI were less than those of PDUS, while the opposite result was obtained in detecting grade Ⅱ and Ⅲ joints ( H=21.158, P<0.05). Compared with PDUS, MVFI more sensitively visualized the blood flow of the thickened synovial membrane. Conclusions:MVFI can more prominently detect the thickened synovial blood flow in children with HAA.A combined application of MVFI and high-frequency ultrasonography contributes to the evaluation of children with HAA.
