Journal of Bone Oncology (Aug 2024)

Impact of quantitative CT texture analysis on the outcome of CT-guided bone biopsy

  • Silvio Wermelskirchen,
  • Jakob Leonhardi,
  • Anne-Kathrin Höhn,
  • Georg Osterhoff,
  • Nikolas Schopow,
  • Silke Zimmermann,
  • Sebastian Ebel,
  • Gordian Prasse,
  • Jeanette Henkelmann,
  • Timm Denecke,
  • Hans-Jonas Meyer

Journal volume & issue
Vol. 47
p. 100616

Abstract

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Texture analysis can provide new imaging-based biomarkers. Texture analysis derived from computed tomography (CT) might be able to better characterize patients undergoing CT-guided percutaneous bone biopsy. The present study evaluated this and correlated texture features with bioptic outcome in patients undergoing CT-guided bone biopsy. Overall, 123 patients (89 female patients, 72.4 %) were included into the present study. All patients underwent CT-guided percutaneous bone biopsy with an 11 Gauge coaxial needle. Clinical parameters and quantitative imaging features were investigated. Random forest classifier was used to predict a positive biopsy result. Overall, 69 patients had osteolytic metastasis (56.1 %) and 54 had osteoblastic metastasis (43.9 %). The overall positive biopsy rate was 72 %. The developed radiomics model demonstrated a prediction accuracy of a positive biopsy result with an AUC of 0.75 [95 %CI 0.65 – 0.85]. In a subgroup of breast cancer patients, the model achieved an AUC of 0.85 [95 %CI 0.73 – 0.96]. In the subgroup of non-breast cancer patients, the signature achieved an AUC of 0.80 [95 %CI 0.60 – 0.99]. Quantitative CT imaging findings comprised of conventional and texture features can aid to predict the bioptic result of CT-guided bone biopsies. The developed radiomics signature aids in clinical decision-making, and could identify patients at risk for a negative biopsy.

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