PLoS ONE (Jan 2019)

Radiomics features of the primary tumor fail to improve prediction of overall survival in large cohorts of CT- and PET-imaged head and neck cancer patients.

  • Rachel B Ger,
  • Shouhao Zhou,
  • Baher Elgohari,
  • Hesham Elhalawani,
  • Dennis M Mackin,
  • Joseph G Meier,
  • Callistus M Nguyen,
  • Brian M Anderson,
  • Casey Gay,
  • Jing Ning,
  • Clifton D Fuller,
  • Heng Li,
  • Rebecca M Howell,
  • Rick R Layman,
  • Osama Mawlawi,
  • R Jason Stafford,
  • Hugo Aerts,
  • Laurence E Court

DOI
https://doi.org/10.1371/journal.pone.0222509
Journal volume & issue
Vol. 14, no. 9
p. e0222509

Abstract

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Radiomics studies require many patients in order to power them, thus patients are often combined from different institutions and using different imaging protocols. Various studies have shown that imaging protocols affect radiomics feature values. We examined whether using data from cohorts with controlled imaging protocols improved patient outcome models. We retrospectively reviewed 726 CT and 686 PET images from head and neck cancer patients, who were divided into training or independent testing cohorts. For each patient, radiomics features with different preprocessing were calculated and two clinical variables-HPV status and tumor volume-were also included. A Cox proportional hazards model was built on the training data by using bootstrapped Lasso regression to predict overall survival. The effect of controlled imaging protocols on model performance was evaluated by subsetting the original training and independent testing cohorts to include only patients whose images were obtained using the same imaging protocol and vendor. Tumor volume, HPV status, and two radiomics covariates were selected for the CT model, resulting in an AUC of 0.72. However, volume alone produced a higher AUC, whereas adding radiomics features reduced the AUC. HPV status and one radiomics feature were selected as covariates for the PET model, resulting in an AUC of 0.59, but neither covariate was significantly associated with survival. Limiting the training and independent testing to patients with the same imaging protocol reduced the AUC for CT patients to 0.55, and no covariates were selected for PET patients. Radiomics features were not consistently associated with survival in CT or PET images of head and neck patients, even within patients with the same imaging protocol.