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Journal of Contemporary Brachytherapy
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5/2017
vol. 9
 
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Case report

Locally advanced squamous cell cervical cancer in a patient with septate uterus

Guler Yavas
,
Cagdas Yavas
,
Gokcen Inan

J Contemp Brachytherapy 2017; 9, 5: 487–489
Online publish date: 2017/10/20
Article file
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Purpose

The standard management of individuals with locally advanced cervical cancer includes external pelvic radiotherapy (EPRT) with concurrent cisplatin-based chemotherapy with brachytherapy (BRT) [1,2]. Bra­chy­therapy is critical for curative-intent treatment of cervical cancer, because it has intrinsic physical property of steep dose gradient, and has a potential to deliver relatively large dose while sparing the surrounding organs at risk (OAR) [3,4], and when it is replaced with EPRT, the results are clearly inferior [5,6,7]. The skills and expertise of the radiation oncologist and proper applicator placement are critical determinants of dose specification in addition to the treatment success in BRT [8,9,10,11]. The American Brachytherapy Society (ABS) and the Groupe Européen de Curiethérapie – European Society for Radiology and Oncology (GEC-ESTRO) working group, have released specific guidelines to aid radiation oncologist in performing effective and safe BRT application in cervical cancer [8,12,13].
Uterine anomalies occur in 2 to 4 percent of fertile women with normal reproductive outcomes [14,15]. Among all the uterine anomalies, the septate uterus frequency was reported as a 35% in a review [15]. Herein, we report an unusual case of a patient with a congenital septate uterus who received definitive EPRT and concomitant cisplatin, followed by 3-dimesional BRT for locally advanced cervical cancer.

Case presentation

A 33-year-old premenopausal multiparous woman was referred to the hospital with menorrhagia and intermenstrual bleeding occurring for the last 6 months, with a history of septate uterus (Figure 1). Gynecological examination revealed a bulky cervical tumor with right parametrial invasion and extension to the upper part of the vagina. The biopsy of this lesion revealed a squamous cell cervical cancer. Cystoscopy and rectoscopy were normal. A pelvic magnetic resonance imaging (MRI) found a 42 × 55 × 60 mm enhancing cervical mass arising from the cervix with a parametrial extension on the right side. Whole body positron emission tomography/computed tomography (PET-CT) scan revealed high fluorodeoxyglucose uptake in primary cervical tumor and right internal iliac lymph node with a maximum standardized uptake value (SUVmax) of 25.73. According to the Federation Internationale de Gynecologic et d’Obstetrique (FIGO) classification, the tumor was stage IIB.
The patient underwent laparoscopic extraperitoneal lymph node dissection and curative chemoradiotherapy. External pelvic radiotherapy was performed using 3-di­men­sional conformal radiotherapy, with four-field technique to a dose of 45 Gy in 25 daily fractions of 1.8 Gy each with the use of midline blocks up to 50.4 Gy. Throughout the treatment, the patient received weekly cisplatin at a dose of 40 mg/m2. Treatment could be given without interruption. The patient was evaluated on fraction 20 of EPRT; however, we could not perform BRT application because of the remaining exophytic tumor. Brachytherapy application could be performed after EPRT. Since the patient denied general anesthesia, the BRT application was performed under sedation with intramuscular midazolam. Without using general anesthesia, it was very difficult to perform the application. Therefore, we used vaginal misoprostol. Since the patient’s septate was located superiorly and the left side of the uterus was very small when compared to right side, we could employ standard uterine tandem to the right side. The tumor was also located on the right side predominantly. After successfully placing the tandem, two CT-compatible ovoids were placed in right and left vaginal fornices. Once the tandem and the ovoids were successfully placed and appropriate geometry obtained, vaginal packing was completed to separate rectum and bladder. Computed tomography was performed for treatment planning. High-risk clinical target volume (HR-CTV), intermediate risk CTV (IR-CTV), and OAR were contoured. Iridium-192 (192Ir) high-dose-rate (HDR) brachytherapy treatment (GammaMedplus™ iX HDR Brachytherapy Afterloader, Varian, USA) was delivered, with 28 Gy in 4 fractions over 2 weeks.
Organs at risk constraints were calculated using total equieffective dose (EQD2) according to GEC-ESTRO recommendations [13,16]. Coverage for the HR-CTV was analyzed using recommended dose-volume histogram (DVH) parameter of D90, which was greater than 7 Gy for each fraction of BRT. Dose limits to the normal structures were within acceptable limits for entire treatment: bladder D2cc = 76.85 GyEQD2, rectum D2cc = 71.93 GyEQD2, and sigmoid D2cc = 69.75 GyEQD2. Total D90 to the HR-CTV was calculated as 84.35 GyEQD2. Total treatment time (EPRT plus BT) was 53 days.

Discussion

The development of female urogenital tract in utero starts around the sixth week of embryological life. Three main structures are involved as genital ridge, Wolffian (mesonephric) ducts, and Müllerian (paramesonephric) ducts [17]. Although, there is no universally accepted and interpreted classification scheme for uterine anomalies, one of the most commonly used classification scheme is the American Fertility Society Classification, which was established in 1988 [18]. Herein, we report a case of locally advanced cervical carcinoma with class V of Müllerian anomaly who underwent curative chemoradiotherapy. To the best of our knowledge, the current case is the second case of septate uterus who developed cervical cancer and was treated with chemoradiotherapy.
The first case of congenital septate uterus and locally advanced cervical carcinoma patient was reported by Platta et al. [19]. Platta et al. treated a stage IIB cervical adenocarcinoma using Rotte-Y tandem to conform to patient’s septate uterus, since it was not possible to employ a standard uterine tandem. In the current case, the histopathologic subtype was squamous cell carcinoma, and a standard uterine tandem was used. The case reported by Platta et al. presented a low septate nearly abutting the internal cervical os; the current case had a septate located superiorly. Moreover, the left side of the uterus was very small. We tried to employ the tandem to both sides; however, the left side was very narrow and we could not use any applicator to the left side. Nevertheless, it was possible to achieve the suggested doses both in HR-CTV and OAR according to the GEC-ESTRO guidelines. In a recent study, it was shown that during the definitive radiotherapy for cervical cancer patients, the most expressive tumor shrinking occurs in the first three weeks of oncological treatment [20]. Platta et al. started BRT application following 23rd fraction of EPRT in order to complete the treatment within the recommended duration [21]. In the current case, we evaluated our patient on fraction 20 of EPRT. However, we could not perform BRT application because of the remaining exophytic tumor. Nevertheless, the treatment duration was 53 days, which was in suggested duration limits.
Loo et al. reported a case of FIGO stage IIB squamous cell carcinoma with congenital abnormality of bicornuate bicollis uterus, which is a class IV Müllerian duct anomaly [17]. They inserted intra-uterine BRT applicator into both uterine cavities. Brachytherapy was performed using low-dose-rate cesium remote afterloading machine, using a Perspex vaginal cylinder applicator with a tungsten rectal shields. Cordoba et al. reported a case of locally advanced adenocarcinoma of the cervix on uterus didelphys [22]. Brachytherapy boost was performed using mold technique and a pulsed-dose-rate technique. Lee et al. reported a case of didelphys uterus, which is class III Müllerian anomaly, with FIGO stage IIA1 squamous cell carcinoma of the cervix [23]. They performed EPRT followed by bilateral cervical BRT, placing a tandem into each cervix and respective uterine cavity using symmetrical dual channel applicator.
The most challenging part of our treatment was tandem application. Initially, we could not find the appropriate uterine cavity. After careful examination of the patient’s anatomy, we realized that the patient’s septate was located superiorly, and the left side of the uterus was very small when compared to right side. Therefore, we could employ tandem to the right side. Differently from the other reported uterine anomaly cases, since the patient refused general anesthesia, we performed the application using vaginal misoprostol. Another challenge for the BRT application was the poor response of the tumor to EPRT and concomitant chemotherapy. Lastly, due to the lack of BRT applications guidelines in patients with uterine anomalies, it was difficult to perform application as well as the treatment plan.
To the best of our knowledge, the current case is the second case of septate uterus and the fifth case of uterine anomaly with locally advanced cervical cancer. Due to the rarity of uterine anomaly with locally cervical cancer patients, there is no BRT application guidelines. We don’t know the most useful BRT application, the best dose-rate option in such patients. Nevertheless, we believe that sophisticated BRT techniques including 3-dimesional BRT can improve our treatment accuracy. In the current case, we preferred using standard tandem and CT-compatible ovoids, according to GEC-ESTRO guideline dose suggestions both in HR-CTV and OAR. Due to the lack of guidelines about BRT applications in patients with uterine anomaly and owing to the anatomical anomaly, BRT application is challenging in this patients population.

Disclosure

Authors report no conflict of interest.

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