Diagnostic value of virtual touch tissue imaging quantification shear wave elastography combined with pelvic ultrasound in pelvic floor dysfunction after vaginal delivery

doi:10.3877/cma.j.issn.1672-6448.2022.03.007

Abstract

Abstract:

Objective

To assess the value of virtual touch tissue imaging quantification (VTIQ) shear wave elastography combined with pelvic ultrasound in the diagnosis of pelvic floor dysfunction (PFD) after vaginal delivery.

Methods

From January 2019 to December 2019, 42 patients with PFD treated at Hainan Affiliated Hospital of Hainan Medical University Hospital after vaginal delivery were selected as a PFD group, and 52 healthy volunteers without PFD were included in a control group. All patients underwent pelvic ultrasound and VTIQ shear wave elastography. The clinical data of the two groups were recorded and compared, including age, body mass index, parity, the mean of birth weight, pelvic floor ultrasound parameters [bladder neck descent (BND), posterior urethrovesical angle (PUVA), urethral rotation angle (URA), cervical orifice descent (COD), rectal ampulla descent (RAD), and levator hiatus area (LHA)], and elastic ultrasound parameters [Young's modulus of the puborectalis (PR) at resting and maximum anal contraction state]. Rank sum test and t-test were used to screen out indicators with diagnostic value for PFD, and a binary logistic regression model was developed to identify the independent factors for postpartum PFD. Receiver-operating characteristic curve (ROC) analysis was performed to analyze the diagnostic value of single parameter and regression model, and the area under curve (AUC) was compared.

Results

There were significant differences in parity, the mean of birth weight, BND, PUVA, URA, COD, RAD, LHA, Young's modulus of PR at maximum anal contraction state, and Young's modulus difference between the two groups (P＜0.05). The AUC of Young's modulus difference was higher than that of Young's modulus at maximum anal contraction state between the two groups (0.865 vs 0.750; Z=2.844, P＜0.001). Binary logistic regression analysis showed that the mean of birth weight (X₄), BND (X₅), and LHA (X₁₀) were identified as independent risk factors, and Young's modulus difference (X₁₃) was identified as an independent protective factor for PFD after vaginal delivery. The developed logistic regression equation was: Logit (P) =-60.011+0.010X₄+0.599X₅+1.202X₁₀-0.416X₁₃. ROC curves analysis indicated that the AUCs of the mean of birth weight, BND, LHA, Young's modulus difference, and the regression model for predicting PFD after vaginal delivery were 0.779, 0.836, 0.876, 0.865, and 0.996, respectively. The AUC of the regression model was significantly higher than those of other indexes (P＜0.001,＜0.001, =0.006, and =0.013, respectively), but the AUCs of the other indexes did not differ significantly (P＞0.05). When the prediction probability of the regression model was 0.5454, the sensitivity and specificity were 88.10% and 94.23%, respectively.

Conclusion

The regression model established by VTIQ technology combined with pelvic ultrasound has high diagnostic value for PFD after vaginal delivery.

Key words: Virtual touch tissue imaging quantification, Pelvic floor dysfunction, Logistic regression model, Vaginal delivery

Tingting Zhong, Li Wang, Zaihong Li, Dayan Yang, Dongni Luo, Yan Chen, Qing Lin, Yu Mi, Xiangxiang Jing. Diagnostic value of virtual touch tissue imaging quantification shear wave elastography combined with pelvic ultrasound in pelvic floor dysfunction after vaginal delivery[J]. Chinese Journal of Medical Ultrasound (Electronic Edition), 2022, 19(03): 226-233.

/ / Recommend

Add to citation manager EndNote|Ris|BibTeX

URL: https://chaosheng.cma-cmc.com.cn/EN/10.3877/cma.j.issn.1672-6448.2022.03.007

https://chaosheng.cma-cmc.com.cn/EN/Y2022/V19/I03/226

Figures/Tables 10

组别	例数	年龄（岁， $x ¯$ ±s）	体质量指数（kg/m²， $x ¯$ ±s）	产次（次， $x ¯$ ±s）	新生儿体质量（g， $x ¯$ ±s）	BND［mm，M（Q_R）］	PUVA［°，M（Q_R）］	URA［°，M（Q_R）］	COD［mm，M（Q_R）］	RAD［mm，M（Q_R）］	LHA（cm²， $x ¯$ ±s）
正常对照组	52	41.3±8.8	21.5±2.5	1.27±0.53	3260.7±301.0	17（10，25）	137（122，144）	29（16，40）	6（3，10）	6（3，13）	17.4±3.1
PFD组	42	38.9±7.0	22.3±2.0	1.62±0.86	3621.3±346.6	31（27，38）	149（132，158）	48（41，65）	12（5，24）	13（9，21）	28.4±6.8
统计值		t=1.448	t=-1.859	t=2.305	t=-5.396	U=5.590	t=3.033	t=5.662	t=3.210	t=3.948	t=-8.059
P值		0.151	0.066	0.021	＜0.001	＜0.001	0.002	＜0.001	0.001	＜0.001	＜0.001

组别	例数	年龄（岁， $x ¯$ ±s）	体质量指数（kg/m²， $x ¯$ ±s）	产次（次， $x ¯$ ±s）	新生儿体质量（g， $x ¯$ ±s）	BND［mm，M（Q_R）］	PUVA［°，M（Q_R）］	URA［°，M（Q_R）］	COD［mm，M（Q_R）］	RAD［mm，M（Q_R）］	LHA（cm²， $x ¯$ ±s）
正常对照组	52	41.3±8.8	21.5±2.5	1.27±0.53	3260.7±301.0	17（10，25）	137（122，144）	29（16，40）	6（3，10）	6（3，13）	17.4±3.1
PFD组	42	38.9±7.0	22.3±2.0	1.62±0.86	3621.3±346.6	31（27，38）	149（132，158）	48（41，65）	12（5，24）	13（9，21）	28.4±6.8
统计值		t=1.448	t=-1.859	t=2.305	t=-5.396	U=5.590	t=3.033	t=5.662	t=3.210	t=3.948	t=-8.059
P值		0.151	0.066	0.021	＜0.001	＜0.001	0.002	＜0.001	0.001	＜0.001	＜0.001

分组	例数	静息状态（ $x ¯$ ±s）	最大缩肛状态［M（Q_R）］	弹性值差值［M（Q_R）］
正常对照组	52	34.39±15.10	83（65~105）	47（41~61）
PFD组	42	38.09±13.33	63（54~82）	23（20~34）
统计值		t=-1.234	U=-4.155	U=-6.072
P值		0.217	＜0.001	＜0.001

分组	例数	静息状态（ $x ¯$ ±s）	最大缩肛状态［M（Q_R）］	弹性值差值［M（Q_R）］
正常对照组	52	34.39±15.10	83（65~105）	47（41~61）
PFD组	42	38.09±13.33	63（54~82）	23（20~34）
统计值		t=-1.234	U=-4.155	U=-6.072
P值		0.217	＜0.001	＜0.001

自变量	B值	SE值	Wald值	P值	OR值	95%CI
新生儿体质量	0.010	0.004	4.872	0.027	1.010	1.001~1.018
膀胱颈移动度	0.599	0.279	4.617	0.032	1.821	1.054~3.145
弹性值差值	-0.416	0.177	5.514	0.019	0.659	0.466~0.933
盆膈裂孔面积	1.202	0.526	5.217	0.022	3.328	1.186~9.336
常量	-60.011	26.031	5.315	0.021	0.000

参数	最佳截断值	曲线下面积	P值	95%CI	敏感度	特异度
新生儿体质量	3342	0.779	＜0.001	0.686~0.872	83.33	65.38
膀胱颈移动度	25	0.836	＜0.001	0.756~0.917	85.71	76.92
弹性值差值	28	0.865	＜0.001	0.791~0.939	71.43	92.31
盆膈裂孔面积	21.4	0.876	＜0.001	0.802~0.950	88.10	82.69
回归模型联合预测	0.545	0.966^a	＜0.001	0.906~0.992	88.10	94.23

References 16

1	Keag OE, Norman JE, Stock SJ, et al. Long-term risks and benefits associated with cesarean delivery for mother, baby, and subsequent pregnancies: systematic review and meta-analysis [J]. PLoS Med, 2018, 15(1): 1-22.
2	Kam HA, Yagel S, Eisenberg VH, et al. Ultrasonography in pelvic floor dysfunction [J]. Obstet Gyn Clin N AM, 2019, 46(4): 715-732.
3	Gachon B, Nordez A, Pierre F, et al. In vivo assessment of the levator ani muscles using shear wave elastography: a feasibility study in women [J]. I Int Urogynecol J, 2019, 30(7): 1179-1186.
4	Mazur-Bialy AI, Nska-Bogucka DK, Nowakowski C, et al. Urinary incontinence in women: modern methods of physiotherapy as a support for surgical treatment or independent therapy [J]. J Clin Med, 2020, 9(4): 1211.
5	Howard D, Makhlouf M. Can pelvic floor dysfunction after vaginal birth be prevented? [J]. Int Urogynecol J, 2016, 27(12): 1811-1815.
6	刘丽, 刘静华, 蒋莹, 等. 经会阴三维超声断层成像评估盆腔器官脱垂患者肛提肌损伤的康复疗效 [J/CD]. 中华医学超声杂志(电子版), 2019, 16(1): 54-60.
7	Meng X, Huan Y, Pei MM, et al. Levator ani evaluation at transperineal elastography in women with deep infiltrating endometriosis postoperatively [J]. J Gynecol Obstet Hum Reprod, 2020, 49(4): 101633.
8	Nakamura M, Hasegawa S, Umegaki H, et al. The difference in passive tension applied to the muscles composing the hamstrings-comparison among muscles using ultrasound shear wave elastography [J]. Man Ther, 2016, 24: 1-6.
9	Dietz HP, Franco AVM, Shek KL, et al. Avulsion injury and levator hiatal ballooning: two independent risk factors for prolapse? An observational study [J]. Acta Obstetr Gynecol Scand, 2012, 91(2): 211-214.
10	王秋静. 静、动态MRI对经阴道分娩后压力性尿失禁的研究 [D]. 天津: 天津医科大学, 2019.
11	Sindhwani N, Bamberg C, Famaey N, et al. In vivo evidence of significant levator ani muscle stretch on MR images of a live childbirth [J]. Am J Obstet Gynecol, 2017, 217(2): 194.e1-194.e8.
12	Handa VL, Roem J, Blomquist JL, et al. Pelvic organ prolapse as a function of levator ani avulsion, hiatus size, and strength [J]. Am J Obstet Gynecol, 2019, 221(1): 41.e1-41.e7.
13	牛旺, 史铁梅, 张原溪. 剪切波弹性成像技术定量评估盆腔器官脱垂患者耻骨直肠肌功能 [J]. 中国医学影像技术, 2018, 34(2): 270-274.
14	Laterza RM, Schrutka L, Umek W, et al. Pelvic floor dysfunction after levator trauma 1-year postpartum: a prospective case-control study [J]. Int Urogynecol J, 2015, 26(1): 41-47.
15	Nordin M, Frankel VH. Basic biomechanics of themusculoskeletal system [M]. 3rd edtion. Philadelphia: Lippincott Williams & Wilkins, 2001: 102-125.
16	杨彩霞, 唐淑稳. 阴道分娩初产妇早期盆底功能障碍的危险因素分析 [J]. 重庆医学, 2020, 49(7): 1121-1124.

[1]	Yanduo Gao, Xia Zhu, Jianhua Fan, Xiuqin Ji, Sheng Zhao, Lei Xie. Three-dimensional ultrasonic evaluation of female pelvic floor function after forceps assisted delivery [J]. Chinese Journal of Medical Ultrasound (Electronic Edition), 2022, 19(12): 1361-1365.
[2]	Yanqing Wang, Fang Nie, Longli Wang, Yangyang Zhu, Yuting Tan. Clinical value of virtual touch tissue imaging quantification in diagnosing salivary gland Sjögren's syndrome [J]. Chinese Journal of Medical Ultrasound (Electronic Edition), 2021, 18(01): 11-16.
[3]	Luoxi Zhu, Pintong Huang, Lingyun Bao, Yanjuan Tan, Xiaojing Xu, Lifang Yu. The value of automated breast volume scanning, combined with virtual touch tissue imaging quantification in the differential diagnosis of benign and malignant breast lesion [J]. Chinese Journal of Medical Ultrasound (Electronic Edition), 2017, 14(07): 519-525.
[4]	Hongfeng Zhao, Shuying Wang, Wei Hu, Shijiao Nie, Ying Fei, Shangshi Shi, Huaying Chu, Jianrong Wang. Risk factors and prediction model for bloodstream infection in patients treated with extracorporeal membrane oxygenation [J]. Chinese Journal of Critical Care Medicine(Electronic Edition), 2023, 16(02): 98-104.
[5]	Xuan Zheng, Yun Zhao. Research status of pelvic floor dysfunction diseases during pregnancy and postpartum and its prevention and treatment [J]. Chinese Journal of Obstetrics & Gynecology and Pediatrics(Electronic Edition), 2022, 18(03): 366-372.
[6]	Yuewei He, Jie Tian, Qijian Yi, Xiaoyan Liu, Tiewei Lyu, Xiaojuan Ji, Mi Li. Predictive values of serum procalcitonin and C reactive protein on coronary artery lesion in children with Kawasaki disease [J]. Chinese Journal of Obstetrics & Gynecology and Pediatrics(Electronic Edition), 2018, 14(01): 31-37.
[7]	Jun Liu, Yao Tang, Juan Huang, Xiaodong Wang. Evaluation on pelvic floor functions of primiparae in early postpartum period with different delivery modes by pelvic floor function of pelvic organ prolapse quantification [J]. Chinese Journal of Obstetrics & Gynecology and Pediatrics(Electronic Edition), 2018, 14(01): 25-30.
[8]	Hongyu Li, Dan Wang, Qing Chang, Dan Zou. Effects of different modes of delivery on maternal and perinatal outcomes in low-risk puerperant [J]. Chinese Journal of Obstetrics & Gynecology and Pediatrics(Electronic Edition), 2016, 12(06): 715-719.
[9]	Shoufeng Zhang, Zhenyue Qin, Jiming Chen, Wendi Zhang, Hongxia Yu, Mingyue Bao, Huihui Wang, Huichao Xiao, Ying Cao, Yafeng Zheng, Yunfen Jiang, Ruxia Shi. A case report of successful vaginal delivery for full-term pregnancy after transvaginal natural orifice transluminal endoscopic surgery(V-NOTES) [J]. Chinese Journal of Laparoscopic Surgery(Electronic Edition), 2020, 13(05): 297-300.
[10]	Qiqi Wang, Mengyuan Gong, Zhengyuan Feng, Liang Han, Zheng Wang, Qingyong Ma, Zheng Wu. Prediction value of Logistic regression model based on preoperative detection indexes in pathological types of periampullary carcinoma [J]. Chinese Journal of Hepatic Surgery(Electronic Edition), 2023, 12(02): 196-200.
[11]	Yongtong Wang, Heiying Jin, Chunxia Zhang, Xiaorui Ye, Jun Wang, Yang Yang, Jianlei Liu, Xinyi Zhang. Efficacy of magnetic stimulation combined with biofeedback in treatment of pelvic floor dysfunction: a prospective nonrandomized controlled study [J]. Chinese Journal of Clinicians(Electronic Edition), 2022, 16(07): 621-625.
[12]	Xiaorui Ye, Heiying Jin, Chunxia Zhang. Necessity and existing problems of multidisciplinary integration for diagnosis and treatment of pelvic floor dysfunction [J]. Chinese Journal of Clinicians(Electronic Edition), 2022, 16(07): 605-609.
[13]	Meng Lan, Ailian Liu, Tianxiang Lan, Fengjing Fan, Dan Guo, Xuan Sheng, Hongyu Ding. Virtual touch tissue imaging quantification and conventional ultrasound in diagnosis of metastatic axillary lymph nodes in patients with breast cancer [J]. Chinese Journal of Clinicians(Electronic Edition), 2019, 13(04): 281-285.
[14]	Jing Peng, Yasong Chen, Yuemei Liang, Li Zhang, Danling Chen, Guocheng Liu. The effect of operative vaginal delivery on women with previous cesarean delivery [J]. Chinese Journal of Obstetric Emergency(Electronic Edition), 2020, 09(03): 180-185.
[15]	Zhengping Liu, Shuzhen Wu, Jiaming Rao, Ruifeng Ou, Demei Lu, Yan Liu. The analysis of safety and influencing factors of the vaginal birth after cesarean section [J]. Chinese Journal of Obstetric Emergency(Electronic Edition), 2019, 08(04): 235-240.

Please choose a citation manager

Content to export