ESTRO 2022

Session Item

Monday

May 09

11:40 - 12:40

Room D1

Highlights of Proffered Papers - Latest Clinical Trials

Chair: , United Kingdom;

Chair: , The Netherlands

Session Code: 3290

Session Type: Proffered Papers

Track: Interdisciplinary

11:50 - 12:00

Systemic recurrence after primary chemoradiation in cervical cancer patients – an EMBRACE analysis

Johannes Knoth, Austria

Presentation Number: OC-0830

Abstract

Abstract Title:

Systemic recurrence after primary chemoradiation in cervical cancer patients – an EMBRACE analysis

Authors:

Johannes Knoth¹, Remi Nout², Umesh Mahantshetty³, Ina Jürgenliemk-Schulz⁴, Christine Haie-Meder⁵, Lars U. Fokdal⁶, Alina Sturdza⁷, Peter Hoskin⁸, Barbara Segedin⁹, Kjersti Bruheim¹⁰, Fleur Huang¹¹, Bhavana Rai¹², Rachel Cooper¹³, Elzbieta van der Steen-Banasik¹⁴, Erik van Limbergen¹⁵, Bradley R. Pieters¹⁶, Li Tee Tan¹⁷, Sadhana Kannan³, Astrid A.C. de Leeuw⁴, Nicole Nesvacil⁷, Kari Tanderup⁶, Christian Kirisits⁷, Jacob C. Lindegaard⁶, Richard Pötter⁷, Maximilian P. Schmid⁷

¹Medical University of Vienna/General Hospital of Vienna, Department of Radiation Oncology, Comprehensive Cancer Center, Vienna, Austria; ²Erasmus University Rotterdam, Department of Radiation Oncology, Rotterdam, The Netherlands; ³Tata Memorial Hospital, Department of Radiation Oncology, Mumbai, India; ⁴University Medical Centre Utrecht, Department of Radiation Oncology, Utrecht, The Netherlands; ⁵Gustave-Roussy, Department of Radiotherapy, Villejuif, France; ⁶Aarhus University Hospital, Department of Oncology, Aarhus, Denmark; ⁷Medical University/General Hospital of Vienna, Department of Radiation Oncology, Comprehensive Cancer Center, Vienna, Austria; ⁸Mount Vernon Hospital, Mount Vernon Cancer Centre, Northwood, United Kingdom; ⁹Institute of Oncology Ljubljana, Department of Radiotherapy, Faculty of Medicine, University of Ljubljana, Ljubljana, Slovenia; ¹⁰The Norwegian Radium Hospital, Oslo University Hospital, Department of Oncology, Oslo, Norway; ¹¹Cross Cancer Institute and University of Alberta, Department of Oncology, Edmonton, Canada; ¹²Postgraduate Institute of Medical Education and Research, Department of Radiotherapy and Oncology, Chandigarh, India; ¹³St James's University Hospital, Leeds Cancer Centre, Leeds, United Kingdom; ¹⁴Radiotherapiegroep Arnhem, Department of Radiotherapy, Arnhem, The Netherlands; ¹⁵UZ Leuven, Department of Radiation Oncology, Leuven, Belgium; ¹⁶University of Amsterdam, Department of Radiation Oncology, Amsterdam University Medical Centers, Academic Medical Center, Amsterdam, The Netherlands; ¹⁷Addenbrooke´s Hospital, Cambridge University Hospitals, Department of Oncology, Cambridge, United Kingdom

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Purpose or Objective

To evaluate systemic recurrence within the prospective observational multi-centre IntErnational study on MRI-guided BRAchytherapy in locally advanced CErvical Cancer (EMBRACE) cohort.

Material and Methods

Data from 1416 patients with locally advanced cervical cancer (LACC) treated from 2008-2015 in 24 centres were collected. Treatment consisted of pelvic +/- para-aortic external beam radiotherapy with 45-50Gy (1.8-2.0 Gy per fraction), concurrent chemotherapy (Cisplatin 40mg/m² weekly) (RCHT) and MRI based image-guided adaptive brachytherapy (IGABT). Follow-up (FU) visits were scheduled at 3 months intervals for the first year, 6 months intervals for the second and third year and yearly intervals thereafter. In case of recurrent disease only the first site of recurrence was registered. A systemic recurrence (SR) was defined as any first recurrent disease outside the pelvis. Descriptive statistics, uni- and multivariate analyses (MVA) were performed to describe patterns of recurrence and risk factors using the following variables: age, haemoglobin and white blood cell count at diagnosis, WHO performance score, hydronephrosis, smoking status, FIGO₂₀₀₉ stage, histology, maximum tumour dimension, involved lymph node regions (N0 vs pelvic vs common iliac vs para-aortic (PAN), no. of chemotherapy cycles, CTV_HR volume at IGABT, D90 for CTV_HR, overall treatment time. Risk factors were evaluated for the overall cohort and for initially node negative and node positive patients (NNP/NPP), separately.

Results

1318 patients were eligible for analysis. FIGO₂₀₀₉ stages were IB1 (8%), IB2 (9%), IIA (5%), IIB (52%), IIIA (1%), IIIB (14%), IVA (3%) and IVB (PAN only, 7%), N0 = 48%, N1 = 52%. After a median FU of 51 months, SR was reported in 243 patients (18%). Of these, 31 (13%) had a simultaneous local and 77 (32%) had a simultaneous pelvic nodal recurrence. Median time to SR was 12 months (1-97). Most common sites for SR were PAN (n=106), lungs (n=61), unknown (n=41), mediastinal lymph nodes (n=36), bones (n=23), peritoneum(n=19) and liver (n=17). Risk factors for SR in the overall cohort are summarized in table 1. Nodal status (with risk increasing the more cranial the nodal region) and histology were the strongest risk factors for SR in the overall cohort. Additional risk factors in NNP were dose to the D90 of CTV_HR at IGABT and presence of tumour necrosis on MRI. Additional risk factors in NPP were CTV_HR >45cm³ at IGABT and haemoglobin level at diagnosis. FIGO₂₀₀₉ stage was not significant in any analysis. 5-year systemic control based on these factors is shown in table 2.

Conclusion

Para-aortic lymph nodes and lungs are the most common sites of SR. Nodal status at diagnosis, histologic subtype and large CTV_HR at IGABT are the most important risk factors for the occurrence of SR. Patients with presence of one or more of these factors should be considered in future trials investigating the role of adjuvant treatment after primary chemoradiation.