Prognostic Implications of Uterine Cervical Cancer Regression During Chemoradiation Evaluated by the T-Score in the Multicenter EMBRACE I Study

Forfattere Lindegaard JC, Petric P, Schmid MP, Nesvacil N, Haie-Meder C, Fokdal LU, Sturdza AE, Hoskin P, Mahantshetty U, Segedin B, Bruheim K, Huang F, Rai B, Cooper R, van der Steen-Banasik E, Van Limbergen E, Pieters BR, Tan LT, Nout RA, De Leeuw AAC, Kirchheiner K, Spampinato S, Jürgenliemk-Schulz I, Tanderup K, Kirisits C, Pötter R

Kilde Int J Radiat Oncol Biol Phys. 2022 Jun 1;113(2):379-389 Publiceringsdato 12 feb 2022

Abstrakt

Abstract

Purpose: A simple scoring system (T-score, TS) for integrating findings from clinical examination and magnetic resonance imaging (MRI) of the primary tumor at diagnosis has shown strong prognostic capability for predicting local control and survival in locally advanced cervical cancer treated with chemoradiation and MRI-guided brachytherapy (BT). The aim was to validate the performance of TS using the multicenter EMBRACE I study and to evaluate the prognostic implications of TS regression obtained during initial chemoradiation.

Methods and materials: EMBRACE I recruited 1416 patients, of whom 1318 were available for TS. Patients were treated with chemoradiation followed by MRI-guided BT. A ranked ordinal scale of 0 to 3 points was used to assess 8 anatomic locations typical for local invasion of cervical cancer. TS was calculated separately at diagnosis (TS_D) and at BT (TS_BT) by the sum of points obtained from the 8 locations at the 2 occasions.

Results: Median TS_D and TS_BT was 5 and 4, respectively. TS regression was observed in 71% and was an explanatory variable for BT technique (intracavitary vs intracavitary/interstitial) and major dose-volume histogram parameters for BT, such as high-risk clinical target (CTV_HR), CTV_HR D90 (minimal dose to 90% of the target volume), D2cm³ bladder (minimal dose to the most exposed 2 cm³ of the bladder), and D2cm³ rectum. TS regression (TS_BT≤5) was associated with improved local control and survival and with less morbidity compared with patients with TS_BT remaining high (>5) despite initial chemoradiation. TS regression was significant in multivariate analysis for both local control and survival when analyzed in consort with already established prognostic parameters related to the patient, disease, and treatment.

Conclusions: TS was validated in a multicenter setting and proven to be a strong multidisciplinary platform for integration of clinical findings and imaging with the ability to quantitate local tumor regression and its prognostic implications regarding BT technique, dose-volume histogram parameters, local control, survival, and morbidity.