Department of Pediatric Radiology Medical University of Lublin, Poland.
Department of Pediatric Surgery Medical University of Lublin, Poland.
J Pediatr Urol. 2019 May;15(3):223.e1-223.e5. doi: 10.1016/j.jpurol.2019.01.008. Epub 2019 Jan 25.
Shear wave elastography is an ultrasound technique for non-invasive quantification of tissue stiffness. It was used in assessing testis elasticity in some scrotal abnormalities, such as undescended pediatric testes or adult varicocele testes. In this study, its usefulness in adolescent patients with varicocele was examined.
The aim of this study was to quantify elasticity of testes with the use of elastography and comparison of the results with typical threshold values used in varicocele management in adolescent patients with varicoceles.
In 30 patients with clinically diagnosed left varicoceles, quantitative 2D shear wave imaging of varicocele testes and contralateral ones were performed.
The relationships between the grade of varicocele and elastography were calculated. The stiffness was 2.5 ± 0.49 kPa in testes with grade I of varicocele, 2.59 ± 0.81 in grade II and 2.80 ± 0.72 kPa in grade III. In contralateral testes, it was respectively grade I 2.39 ± 0.49 kPa, grade II 2.41 ± 0.61 kPa, and grade III 2.42 ± 0.85 kPa. The statistical significance was close to importance in grade III (P = 0.153). There was a statistically significant difference between elastography results in patients with volume difference over 20%. In testes with varicocele, it was 2.77 ± 0.75 kPa and in contralateral testes, 2.37 ± 0.65 kPa (P < 0.05). In patients with testis volume difference between 0 and 20%, elastography results were comparable, and it was 2.45 ± 0.57 kPa in testes with varicocele and 2.44 ± 0.61 kPa in contralateral testes (Table).
Ultrasound is currently the most widely used imaging technique for the assessment of varicocele, but its role in the diagnostic algorithm is still controversial. Therefore, many attempts are made to determine the manifestations of testicular damage that precede morphological deterioration, which could increase the importance of imaging techniques in treatment planning.
The changes of tissue elasticity due to varicocele seem to confirm the need of surgery in patients with testis volume difference more than 20% and in grade III of varicocele (Table). In case of validation of diffuse testis changes, they could indicate the need for surgery also in other stages.
剪切波弹性成像是一种用于无创量化组织弹性的超声技术。它已被用于评估一些阴囊异常情况下的睾丸弹性,例如未降睾丸或成人精索静脉曲张睾丸。在这项研究中,研究了其在青少年精索静脉曲张患者中的用途。
本研究的目的是使用弹性成像定量评估睾丸弹性,并将结果与青少年精索静脉曲张患者精索静脉曲张管理中使用的典型阈值进行比较。
对 30 例临床诊断为左侧精索静脉曲张的患者进行精索静脉曲张睾丸和对侧睾丸的定量 2D 剪切波成像。
计算了精索静脉曲张程度与弹性成像之间的关系。精索静脉曲张 I 级睾丸的硬度为 2.5±0.49kPa,精索静脉曲张 II 级为 2.59±0.81kPa,精索静脉曲张 III 级为 2.80±0.72kPa。对侧睾丸分别为精索静脉曲张 I 级 2.39±0.49kPa,精索静脉曲张 II 级 2.41±0.61kPa,精索静脉曲张 III 级 2.42±0.85kPa。精索静脉曲张 III 级的统计学意义接近重要性(P=0.153)。体积差异超过 20%的患者的弹性成像结果存在统计学显著差异。精索静脉曲张侧睾丸为 2.77±0.75kPa,对侧睾丸为 2.37±0.65kPa(P<0.05)。睾丸体积差异在 0%和 20%之间的患者,弹性成像结果相当,精索静脉曲张侧睾丸为 2.45±0.57kPa,对侧睾丸为 2.44±0.61kPa(表)。
超声目前是评估精索静脉曲张最广泛使用的成像技术,但在诊断算法中的作用仍存在争议。因此,人们试图确定在形态恶化之前发生的睾丸损伤表现,这可能会增加影像学技术在治疗计划中的重要性。
精索静脉曲张引起的组织弹性变化似乎证实了在睾丸体积差异大于 20%和精索静脉曲张 III 级的患者中需要手术(表)。如果弥漫性睾丸变化得到验证,它们也可能表明需要在其他阶段进行手术。
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