ADVANCED ULTRASOUND IN DIAGNOSIS AND THERAPY >
The Application of Ultrasound in the Pre-operative Evaluation of Cervical Cancer
1Juan Zhang and Cuiqin Shen contributed equally to this study.
Received date: 2024-10-10
Revised date: 2024-06-02
Accepted date: 2024-11-07
Online published: 2025-07-06
Cervical cancer is a common gynecologic malignancy worldwide, ranking fourth for both incidence and mortality. Imaging and pathology assessments are incorporated in the revised 2018 International Federation of Gynecology and Obstetrics staging system for cervical cancer. The use of imaging techniques for pre-operative evaluation of cervical cancer has been increasing. Among imaging modalities for evaluating cervical cancer, ultrasound is more easily accessible, faster and more widely available than other options such as computed tomography or magnetic resonance imaging. Advanced technique in ultrasound, such as three-dimension ultrasound and contrast-enhanced ultrasound, have improved the clinical application of ultrasound in cervical cancer. Ultrasound may provide highly accurate information on detecting tumor presence and assessing local extent if performed by well-trained sonographers, as the experience level of readers is also critical for correct pre-operative staging and evaluation of treatment response. In the future, ultrasound imaging with the assistance of artificial intelligence will play an even greater role in management. This review aims to present the most updated applications of ultrasound in the pre-operative evaluation of cervical cancer.
Key words: Cervical cancer; Ultrasound; Staging
Zhang Juan , Shen Cuiqin , Du Lianfang , Li Fan . The Application of Ultrasound in the Pre-operative Evaluation of Cervical Cancer[J]. ADVANCED ULTRASOUND IN DIAGNOSIS AND THERAPY, 2025 , 9(2) : 163 -170 . DOI: 10.37015/AUDT.2025.240020
| [1] | Cohen PA, Jhingran A, Oaknin A, Denny L. Cervical cancer. Lancet 2019;393:169-182. |
| [2] | Salib MY, Russell JHB, Stewart VR, Sudderuddin SA, Barwick TD, Rockall AG, et al. 2018 FIGO Staging Classification for Cervical Cancer: Added Benefits of Imaging. Radiographics 2020;40:1807-1822. |
| [3] | Balcacer P, Shergill A, Litkouhi B. MRI of cervical cancer with a surgical perspective: staging, prognostic implications and pitfalls. Abdom Radiol (NY) 2019;44:2557-2571. |
| [4] | Crosbie EJ, Einstein MH, Franceschi S, Kitchener HC. Human papillomavirus and cervical cancer. Lancet 2013;382:889-899. |
| [5] | Saida T, Sakata A, Tanaka YO, Ochi H, Ishiguro T, Sakai M, et al. Clinical and MRI characteristics of uterine cervical adenocarcinoma: Its variants and mimics. Korean J Radiol 2019;20:364-377. |
| [6] | Fischerova D, Smet C, Scovazzi U, Sousa DN, Hundarova K, Haldorsen IS. Staging by imaging in gynecologic cancer and the role of ultrasound: an update of European joint consensus statements. Int J Gynecol Cancer 2024;34:363-378. |
| [7] | Olorunfemi G, Ndlovu N, Masukume G, Chikandiwa A, Pisa PT, Singh E.Temporal trends in the epidemiology of cervical cancer in South Africa (1994-2012). Int J Cancer 2018;143:2238-2249. |
| [8] | Woo S, Atun R, Ward ZJ, Scott AM, Hricak H, Vargas HA. Diagnostic performance of conventional and advanced imaging modalities for assessing newly diagnosed cervical cancer: systematic review and meta-analysis. Eur Radiol 2020;30:5560-5577. |
| [9] | Epstein E, Di Legge A, M?sb?ck A, Lindqvist PG, Kannisto P, Testa AC. Sonographic characteristics of squamous cell cancer and adenocarcinoma of the uterine cervix. Ultrasound Obstet Gynecol 2010;36:512-516. |
| [10] | Li J, Gu C, Zheng H, Geng X, Yang Z, Zhou L, et al. Ultrasonographic diagnosis in rare primary cervical cancer. Int J Gynecol Cancer 2021;31:1535-1540. |
| [11] | Stukan M, Buderath P, Szulczyński B, G?bicki J, Kimmig R.Accuracy of ultrasonography and magnetic resonance imaging for preoperative staging of cervical cancer-analysis of patients from the prospective study on total mesometrial resection. Diagnostics (Basel) 2021;11:1749. |
| [12] | Gaurilcikas A, Vaitkiene D, Cizauskas A, Inciura A, Svedas E, Maciuleviciene R, et al. Early-stage cervical cancer: agreement between ultrasound and histopathological findings with regard to tumor size and extent of local disease. Ultrasound Obstet Gynecol 2011;38:707-715. |
| [13] | Testa AC, Ludovisi M, Manfredi R, Zannoni G, Gui B, Basso D, et al. Transvaginal ultrasonography and magnetic resonance imaging for assessment of presence, size and extent of invasive cervical cancer. Ultrasound Obstet Gynecol 2009;34:335-344. |
| [14] | Pinkavova I, Fischerova D, Zikan M, Burgetova A, Slama J, Svarovsky J, et al. Transrectal ultrasound and magnetic resonance imaging in the evaluation of tumor size following neoadjuvant chemotherapy for locally advanced cervical cancer. Ultrasound Obstet Gynecol 2013;42:705-712. |
| [15] | Lin Y, Dong P, Shi D, Mao Z, Zhang N, Li W, et al. Clinical values of transrectal ultrasound in judging GTV of cervical cancer. Brachytherapy 2021;20:1172-1179. |
| [16] | Ordeanu C, Pop DC, Badea R, Csutak C, Todor N, Ordeanu C, et al. Local experience in cervical cancer imaging: Comparison in tumour assessment between TRUS and MRI. Rep Pract Oncol Radiother 2015;20:223-230. |
| [17] | Fischerova D, Cibula D, Stenhova H, Vondrichova H, Calda P, Zikan M, et al. Transrectal ultrasound and magnetic resonance imaging in staging of early cervical cancer. Int J Gynecol Cancer 2008;18:766-772. |
| [18] | Epstein E, Testa A, Gaurilcikas A, Di Legge A, Ameye L, Atstupenaite V, et al. Early-stage cervical cancer: tumor delineation by magnetic resonance imaging and ultrasound - a European multicenter trial. Gynecol Oncol 2013;128:449-453. |
| [19] | Moloney F, Ryan D, Twomey M, Hewitt M, Barry J. Comparison of MRI and high-resolution transvaginal sonography for the local staging of cervical cancer. J Clin Ultrasound 2016;44:78-84. |
| [20] | Kaku T, Hirakawa T, Kamura T, Amada S, Kinukawa N, Kobayashi H, et al. Angiogenesis in adenocarcinoma of the uterine cervix. Cancer 1998;83:1384-1390. |
| [21] | Hsieh CY, Wu CC, Chen TM, Chen CA, Chen CL, Wang JF, et al. Clinical significance of intratumoral blood flow in cervical carcinoma assessed by color Doppler ultrasound. Cancer 1995;75:2518-2522. |
| [22] | Cheng WF, Lee CN, Chu JS, Chen CA, Chen TM, Shau WY, et al. Vascularity index as a novel parameter for the in vivo assessment of angiogenesis in patients with cervical carcinoma. Cancer 1999;85:651-657. |
| [23] | Cheng WF, Wei LH, Su YN, Cheng SP, Chu JS, Lee CN.The possible use of colour flow Doppler in planning treatment in early invasive carcinoma of the cervix. Br J Obstet Gynaecol 1999;106:1137-1142. |
| [24] | Wu YC, Yuan CC, Hung JH, Chao KC, Yen MS, Ng HT. Power Doppler angiographic appearance and blood flow velocity waveforms in invasive cervical carcinoma. Gynecol Oncol 2000;79:181-186. |
| [25] | Alcázar JL, Castillo G, Jurado M, López-García G. Intratumoral blood flow in cervical cancer as assessed by transvaginal color doppler ultrasonography: Correlation with tumor characteristics. Int J Gynecol Cancer 2003;13:510-514. |
| [26] | Che D, Yang Z, Wei H, Wang X, Gao J.The Adler grade by Doppler ultrasound is associated with clinical pathology of cervical cancer: Implication for clinical management. PLoS One 2020;15:e0236725. |
| [27] | Jurado M, Galván R, Martinez-Monge R, Mazaira J, Alcazar JL. Neoangiogenesis in early cervical cancer: correlation between color Doppler findings and risk factors. A prospective observational study. World J Surg Oncol 2008;6:126. |
| [28] | Bolla D, In-Albon S, Papadia A, Di Naro E, Gasparri ML, Mueller MM, et al. Doppler ultrasound flow evaluation of the uterine arteries significantly correlates with tumor size in cervical cancer patients. Ann Surg Oncol 2015;22:S959-S963. |
| [29] | Ghi T, Giunchi S, Kuleva M, Santini D, Savelli L, Formelli G, et al. Three-dimensional transvaginal sonography in local staging of cervical carcinoma: description of a novel technique and preliminary results. Ultrasound Obstet Gynecol 2007;30:778-782. |
| [30] | Arribas S, Alcázar JL, Arraiza M, Benito A, Minguez JA, Jurado M. Three-dimensional transvaginal sonography and magnetic resonance imaging for local staging of cervical cancer: an agreement study. J Ultrasound Med 2016;35:867-873. |
| [31] | Perniola G, Fischetti M, Tomao F, Di Donato V, Palaia I, Santangelo G, et al. Evaluation of parametrial status in locally advanced cervical cancer patients after neoadjuvant chemotherapy: a prospective study on diagnostic accuracy of three-dimensional transvaginal ultrasound. Oncology 2020;98:603-611. |
| [32] | Han XS, Ning CP, Sun LT, Li XY, Peng YQ, Dang MZ. Three-dimensional transvaginal tomographic ultrasound imaging for cervical cancer staging. Ultrasound Med Biol 2015;41:2303-2309. |
| [33] | Byun JM, Kim YN, Jeong DH, Kim KT, Sung MS, Lee KB. Three-dimensional transvaginal ultrasonography for locally advanced cervical cancer. Int J Gynecol Cancer 2013;23:1459-1464. |
| [34] | Zhu Y, Lu M, Dai KJ, Liu C, He R. Comparison between 360° 3-D transvaginal ultrasound and magnetic resonance imaging for assessment of Vaginal invasion in cervical cancer:a preliminary report. Ultrasound Med Biol 2021;47:2250-2257. |
| [35] | Chiappa V, Di Legge A, Valentini AL, Gui B, Miccò M, Ludovisi M, et al. Agreement of two-dimensional and three-dimensional transvaginal ultrasound with magnetic resonance imaging in assessment of parametrial infiltration in cervical cancer. Ultrasound Obstet Gynecol 2015;45:459-469. |
| [36] | Testa AC, Ferrandina G, Distefano M, Fruscella E, Mansueto D, Basso D, et al. Color Doppler velocimetry and three-dimensional color power angiography of cervical carcinoma. Ultrasound Obstet Gynecol 2004;24:445-452. |
| [37] | Alcázar JL, Jurado M, López-García G. Tumor vascularization in cervical cancer by 3-dimensional power Doppler angiography: correlation with tumor characteristics. Int J Gynecol Cancer 2010;20:393-397. |
| [38] | Hsu KF, Su JM, Huang SC, Cheng YM, Kang CY, Shen MR, et al. Three-dimensional power Doppler imaging of early-stage cervical cancer. Ultrasound Obstet Gynecol 2004;24:664-671. |
| [39] | Tanaka K, Umesaki N. Impact of three-dimensional (3D) ultrasonography and power Doppler angiography in the management of cervical cancer. Eur J Gynaecol Oncol 2010;31:10-17. |
| [40] | Belitsos P, Papoutsis D, Rodolakis A, Mesogitis S, Antsaklis A. Three-dimensional power Doppler ultrasound for the study of cervical cancer and precancerous lesions. Ultrasound Obstet Gynecol 2012;40:576-581. |
| [41] | Daskalakis G, Diamantopoulos D, Theodora M, Semertzidou A, Pappa K, Antsaklis P, et al. 3D vocal power Doppler sonography for the estimation of tumor volume and vascularization in stage IB1 cervical cancer. Arch Gynecol Obstet 2018;298:617-622. |
| [42] | Pálsdóttir K, Epstein E. A pilot study on diagnostic performance of contrast-enhanced ultrasonography for detection of early cervical cancer. Ultrasound Med Biol 2018;44:1664-1671. |
| [43] | Zhang J, Xiang JD, Jia C, Du LF, Li F. Contrast-enhanced ultrasonography for transabdominal and transrectal ultrasound in staging cervical cancer: A Reliability study. Ultrasound Med Biol 2023;49:2283-2290. |
| [44] | Zheng W, Xiong YH, Han J, Guo ZX, Li YH, Li AH, et al. Contrast-enhanced ultrasonography of cervical carcinoma: perfusion pattern and relationship with tumour angiogenesis. Br J Radiol 2016;89:20150887. |
| [45] | Zheng W, Chen K, Peng C, Yin SH, Pan YY, Liu M, et al. Contrast-enhanced ultrasonography vs MRI for evaluation of local invasion by cervical cancer. Br J Radiol 2018;91:20170858. |
| [46] | Wu M, Wu J, Huang L, Chen Y, Qu E, Xu J, et al. Comparison of contrast-enhanced ultrasonography and magnetic resonance imaging in the evaluation of tumor size and local invasion of surgically treated cervical cancer. Abdom Radiol (NY) 2022;47:2928-2936 |
| [47] | Thomas A, Kümmel S, Gemeinhardt O, Fischer T. Real-time sonoelastography of the cervix: Tissue elasticity of the normal and abnormal cervix. Acad Radiol 2007;14:193-200. |
| [48] | Yücel E, Koca Y?ld?r?m HE, ?ahin Duran F, ?ak?r C, Korkmaz V. The role of cervical elastography in the differential diagnosis of preinvasive and invasive lesions of the cervix. Arch Gynecol Obstet 2024;309:1585-1595. |
| [49] | Lu R, Xiao Y, Liu M, Shi D. Ultrasound elastography in the differential diagnosis of benign and malignant cervical lesions. J Ultrasound Med 2014;33:667-671. |
| [50] | Dudea-Simon M, Dudea SM, Burde A, Ciortea R, Malutan A, Mihu D. Usefulness of real time elastography strain ratio in the assessment of cervical intraepithelial neoplasia and cervical cancer using a reference material. Med Ultrason 2020;22:145-151. |
| [51] | Ma X, Li Q, Wang JL, Shao J, Zhu YC, Ding W, et al. Comparison of elastography based on transvaginal ultrasound and MRI in assessing parametrial invasion of cervical cancer. Clin Hemorheol Microcirc 2017;66:27-35. |
| [52] | Molina FS, Gómez LF, Florido J, Padilla MC, Nicolaides KH. Quantification of cervical elastography: a reproducibility study. Ultrasound Obstet Gynecol 2012;39:685-689. |
| [53] | Manchanda S, Vora Z, Sharma R, Hari S, Das CJ, Kumar S, et al. Quantitative sonoelastographic assessment of the normal uterus using shear wave elastography: An initial experience. J Ultrasound Med 2019;38:3183-3189. |
| [54] | Zhang HP, Wu JJ, Zhang WY, Tao JZ, Ma CB, Zhou YQ.Evaluation of the stiffness of normal cervix and its change with different factors using transvaginal two-dimensional shear wave elastography under strict quality control. BMC Med Imaging 2023;23:65. |
| [55] | O'Hara S, Zelesco M, Sun Z. Shear wave elastography on the uterine cervix: technical development for the transvaginal approach. J Ultrasound Med 2019;38:1049-1060. |
| [56] | Castro L, García-Mejido JA, Arroyo E, Carrera J, Fernández-Palacín A, Sainz JA. Influence of epidemiological characteristics (age, parity and other factors) in the assessment of healthy uterine cervical stiffness evaluated through shear wave elastography as a prior step to its use in uterine cervical pathology. Arch Gynecol Obstet 2020;302:753-762. |
| [57] | Liu C, Li TT, Hu Z, Li Y, Cheng X, Zhu Y, et al. Transvaginal realtime shear wave elastography in the diagnosis of cervical disease. J Ultrasound Med 2019;38:3173-3181. |
| [58] | Fu B, Zhang H, Song ZW, Lu JX, Wu SH, Li J. Value of shear wave elastography in the diagnosis and evaluation of cervical cancer. Oncol Lett 2020;20:2232-2238. |
| [59] | Guo YJ, Yan XJ, Zhao HX, Wen XD, Wang J, Du YY, et al. Quantitative evaluation of the normal cervix, cervical cancer, and cervical precancerous changes via real-time shear wave elastography. J Ultrasound Med 2023;42:345-354. |
| [60] | Sainz JA, Castro L, Romo JM, Holgado A, Fernández-Palacín A, García-Mejido JA. Evaluation of pre-malignant lesions of the uterine cervix by shear wave elastography: A new diagnostic tool. Ultrasound Med Biol 2021;47:3275-3282. |
| [61] | Sun LT, Ning CP, Liu YJ, Wang ZZ, Wang LD, Kong XC, et al. Is transvaginal elastography useful in pre-operative diagnosis of cervical cancer? Eur J Radiol 2012;81:e888-e892. |
| [62] | Bakay OA, Golovko TS. Use of elastography for cervical cancer diagnostics. Exp Oncol 2015;37:139-145. |
| [63] | Borges AC, Veloso H, Galindo P, Danés A, Chacon E, Mínguez JA, et al. Role of ultrasound in detection of lymph-node metastasis in gynecological cancer: systematic review and meta-analysis. Ultrasound Obstet Gynecol 2024;64:155-163. |
| [64] | Pálsdóttir K, Fischerova D, Franchi D, Testa A, Di Legge A, Epstein E. Preoperative prediction of lymph node metastasis and deep stromal invasion in women with invasive cervical cancer: prospective multicenter study using 2D and 3D ultrasound. Ultrasound Obstet Gynecol 2015;45:470-475. |
| [65] | Fischerova D, Cibula D.Ultrasound in gynecological cancer: is it time for re-evaluation of its uses? Curr Oncol Rep 2015;17:28. |
| [66] | Fischerova D. Ultrasound scanning of the pelvis and abdomen for staging of gynecological tumors: a review. Ultrasound Obstet Gynecol 2011;38:246-266. |
| [67] | Pálsdóttir K, Fridsten S, Blomqvist L, Alagic Z, Fischerova D, Gaurilcikas A, et al. Interobserver agreement of transvaginal ultrasound and magnetic resonance imaging in local staging of cervical cancer. Ultrasound Obstet Gynecol 2021;58:773-779. |
| [68] | Chilamkurthy S, Ghosh R, Tanamala S, Biviji M, Campeau NG, Venugopal VK, et al. Deep learning algorithms for detection of critical findings in head CT scans: a retrospective study. Lancet 2018;392:2388-2396. |
| [69] | Esteva A, Kuprel B, Novoa RA, Ko J, Swetter SM, Blau HM, et al. Dermatologist-level classification of skin cancer with deep neural networks. Nature 2017: 542:115-118. |
| [70] | Gulshan V, Peng L, Coram M, Stumpe MC, Wu D, Narayanaswamy A, et al. Development and validation of a deep learning algorithm for detection of diabetic Retinopathy in retinal fundus photographs. JAMA 2016;316:2402-2410. |
| [71] | Shrestha P, Poudyal B, Yadollahi S, E Wright D, V Gregory A, D Warner J, et al. A systematic review on the use of artificial intelligence in gynecologic imaging - Background, state of the art, and future directions. Gynecol Oncol 2022;166:596-605. |
| [72] | Liu Q, Jiang N, Hao Y, Hao C, Wang W, Bian T, et al. Identification of lymph node metastasis in pre-operation cervical cancer patients by weakly supervised deep learning from histopathological whole-slide biopsy images. Cancer Med 2023;12:17952-17966. |
| [73] | Mathivanan SK, Francis D, Srinivasan S, Khatavkar V, Karthikeyan P, Shah MA.Enhancing cervical cancer detection and robust classification through a fusion of deep learning models. Sci Rep 2024;14:10812. |
| [74] | Zhu Y, Meng Z, Wu H, Fan X, Lv W, Tian J, et al. Deep learning radiomics of multimodal ultrasound for classifying metastatic cervical lymphadenopathy into primary cancer sites: a feasibility study. Ultraschall Med 2024;45:305-315. |
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