Radiation Response Prediction Model Based on Integrated Clinical and Genomic Data Analysis
- Author:
Bum-Sup JANG
1
;
Ji-Hyun CHANG
;
Seung Hyuck JEON
;
Myung Geun SONG
;
Kyung-Hun LEE
;
Seock-Ah IM
;
Jong-Il KIM
;
Tae-You KIM
;
Eui Kyu CHIE
Author Information
- Publication Type:Original Article
- From:Cancer Research and Treatment 2022;54(2):383-395
- CountryRepublic of Korea
- Language:English
-
Abstract:
Purpose:The value of the genomic profiling by targeted gene-sequencing on radiation therapy response prediction was evaluated through integrated analysis including clinical information. Radiation response prediction model was constructed based on the analyzed findings.
Materials and Methods:Patients who had the tumor sequenced using institutional cancer panel after informed consent and received radiotherapy for the measurable disease served as the target cohort. Patients with irradiated tumor locally controlled for more than 6 months after radiotherapy were defined as the durable local control (DLC) group, otherwise, non-durable local control (NDLC) group. Significant genomic factors and domain knowledge were used to develop the Bayesian Network model to predict radiotherapy response.
Results:Altogether, 88 patients were collected for analysis. Of those, 41 (43.6%) and 47 (54.4%) patients were classified as the NDLC and DLC group, respectively. Somatic mutations of NOTCH2 and BCL were enriched in the NDLC group, whereas, mutations of CHEK2, MSH2, and NOTCH1 were more frequently found in the DLC group. Altered DNA repair pathway was associated with better local failure–free survival (hazard ratio, 0.40; 95% confidence interval, 0.19 to 0.86; p=0.014). Smoking somatic signature was found more frequently in the DLC group. Area under the receiver operating characteristic curve of the Bayesian network model predicting probability of 6-month local control was 0.83.
Conclusion:Durable radiation response was associated with alterations of DNA repair pathway and smoking somatic signature. Bayesian network model could provide helpful insights for high precision radiotherapy. However, these findings should be verified in prospective cohort for further individualization.
