Image Based Brachytherapy in Locally Advanced Cervical Cancers - a Randomized Controlled Trial (COMBAT-Cx)

The standard treatment of locally advanced cervical cancer is radio-chemotherapy including external beam radiotherapy (EBRT), brachytherapy (BT) and concomitant chemotherapy with weekly Cisplatin. While image based conformal EBRT is routinely used, prescription and reporting of BT is still based on specific dose points which are conventional radiography based surrogates for tumour (Manchester point A prescription point) and normal tissues [International commission on Radiation Units and Measurements (ICRU) Bladder and Rectum point]. This conventional radiography based planning has been adopted universally for ease of delivering safe doses with reasonably good local control rates (stage IIB - 85%; Stage IIIB - 65%) and acceptable acute and late toxicities (</=10% grade III/IV). Thus, for several decades conventional radiography based prescription has been standard of care universally. But these conventional radiography based surrogates have been proved to be only rough estimates and do not always correlate in 3 dimensional (3D) anatomy for neither tumour nor normal tissues for actual doses delivered and outcomes in terms of control rates and toxicities respectively. Several studies have been published demonstrating limitations and criticizing this point based treatments. In 2006, a working group from Groupe Européen de Curiethérapie- European Society for Therapeutic Radiology and Oncology (GEC-ESTRO) has published recommendations on contouring of tumour target and organs at risk (OAR) as well as on dose volume parameters to be reported for image guided BT in definitive radiotherapy for locally advanced cervical cancer. These recommendations are mainly derived from retrospective single institution experience with Magnetic Resonance (MR) image based Intracavitary Brachytherapy (ICBT). The major advantage of this technique is the possibility to conform the dose given by BT with regard to volume (3D) for both tumour and critical normal tissues (bladder, rectum, sigmoid mainly). Thus, by repetitive imaging performed before each BT treatment it is possible to adapt dose given as per the anatomy of each individual patient taking into account not only the position of OAR but also the tumour regression which often is obtained by preceding EBRT and chemotherapy. Clinical Outcome data from Vienna, Paris and Mumbai have shown potential in improved local control rates with acceptable toxicities so far. Prospectively treated more than 100 patients with image based brachytherapy from Vienna Group have shown improved local control rates across all stages with decreased toxicity on comparisons with historical series of patients treated with Conventional Radiography based BT [13-19]. Also, a phase II multicentre intercontinental study using MR Image Based Brachytherapy (EMBRACE: European study on MRI-guided Brachytherapy in Locally Advanced Cervical Cancer) has been implemented and tested in various centres across the world including Tata Memorial Hospital, Mumbai. Over 600 patients have been recruited in the study so far. Based on the experience collected so far, the image based BT approach is expected to have a major impact on the clinical outcome for II B and III B (increase in local control rates by 10-20%) with concomitant decrease in the rates of late normal tissue toxicity (<5% Grade ¾), as compared to historical results for point based conventional treatment prescriptions [20].

EMBRACE is a study on MRI guided brachytherapy (BT) in locally advanced cervical cancer. Today point-based two-dimensional BT is most often used for definitive radiotherapy in cervical cancer. However, MRI guided Image Based brachytherapy is increasingly being used in several centres, and the results reported so far are very promising. The major advantage of this technique is the possibility to conform the dose given by BT with regard to both volume (3D) and time (4D). Thus, by repetitive imaging performed before each BT implant it is possible to adapt the dose given by BT to the anatomy of each individual patient taking into account not only the position of organs at risk but also the tumour regression which often is obtained by preceding external beam radiotherapy and chemotherapy. Based on the experience collected so far, the image based BT approach significantly improves the dose-volume histogram (DVH) parameters and the improved dose delivered seems to have a major impact on the clinical outcome with a concomitant decrease in the rates of both local failure and morbidity. Preliminary results of ongoing studies including RETRO EMBRACE (600 patients - retrospective multicentric analysis) and EMBRACE (1000 patients recruited so far prospectively multicentric) also suggest excellent local control rates & minimal clinical significant toxicities.

Hypothesis: The clinical outcome of radical radiation therapy including Conventional radiography based brachytherapy for International Federation of Gynecology and Obstetrics (FIGO) Stage IIB and IIIB reported in historical series is 75% and 55% local control rates and grade ¾ rectal / bladder toxicities of 10-15%. With the addition of concomitant cisplatin chemotherapy there is an additional local control benefit of 5-10% and potentially increase in late toxicities (no substantial evidence for toxicities reported so far). With the MR Image Based Brachytherapy approach, mono-institutional series and phase II multicentric international study, the results reported so far show an improvement in local control rates to 96% and 86% for IIB and IIIB respectively and late toxicities <5% reported so far. We propose this randomized control study to test the following hypothesis: With the use of MR Image Based Brachytherapy (Study Arm) in locally advanced cervical cancers (Stratified for Stage IIB and IIIB), there will be an absolute increase in local control rates by 10% and reduction in late rectal and bladder toxicities by 5% - 10% as compared to the Conventional radiography based ICBT. Thus, for demonstrating absolute local control benefit of 10% in Stages IIB (85% to 95%) and Stage IIIB (65% to 75%) a total of 1050 patients (350 patients with Stage IIB and 650 patients with stage IIB respectively) will be accrued.