Optimized 18F-FDG PET-CT Method to Improve Accuracy of Diagnosis of Metastatic Cancer.
Richard BlackJelle O BarentszDavid HowellDavid G BostwickStephen B StrumPublished in: Diagnostics (Basel, Switzerland) (2023)
The diagnosis of cancer by FDG PET-CT is often inaccurate owing to subjectivity of interpretation. We compared the accuracy of a novel normalized (standardized) method of interpretation with conventional non-normalized SUV. Patients ( n = 393) with various malignancies were studied with FDG PET/CT to determine the presence or absence of cancer. Target lesions were assessed by two methods: (1) conventional SUV max (conSUV max ) and (2) a novel method that combined multiple factors to optimize SUV (optSUVmax), including the patient's normal liver SUV max , a liver constant (k) derived from a review of the literature, and use of site-specific thresholds for malignancy. The two methods were compared to pathology findings in 154 patients being evaluated for mediastinal and/or hilar lymph node (MHLNs) metastases, 143 evaluated for extra-thoracic lymph node (ETLNs) metastases, and 96 evaluated for liver metastases. OptSUV max was superior to conSUV max for all patient groups. For MHLNs, sensitivity was 83.8% vs. 80.7% and specificity 88.7% vs. 9.6%, respectively; for ETLNs, sensitivity was 92.1% vs. 77.8% and specificity 80.1% vs. 27.6%, respectively; and for lesions in the liver parenchyma, sensitivity was 96.1% vs. 82.3% and specificity 88.8% vs. 23.0%, respectively. Optimized SUV max increased diagnostic accuracy of FDG PET-CT for cancer when compared with conventional SUV max interpretation.
Keyphrases
- lymph node
- papillary thyroid
- end stage renal disease
- squamous cell
- chronic kidney disease
- ejection fraction
- newly diagnosed
- peritoneal dialysis
- liver metastases
- case report
- prognostic factors
- small cell lung cancer
- lymph node metastasis
- patient reported outcomes
- radiation therapy
- spinal cord injury
- locally advanced
- rectal cancer