Dosimetric Verification of the Dynamic Intensity-Modulated Radiation Therapy of 92 Patients

Purpose: To verify that optimized dose distributions provided by an intensity-modulated radiation therapy (IMRT) system are delivered accurately to human patients. Methods and Materials: Anthropomorphic phantoms are used to measure IMRT doses. Four types of verification are developed for: I) system commissioning with beams optimized to irradiate simulated targets in phantoms, II) plans with patient-optimized beams directed to phantoms simulating the patient, III) patient–phantom hybrid plans with patient-optimized beams calculated in phantom without further optimization, and IV) in vivo measurements. Phantoms containing dosimeters are irradiated with patient-optimized beams. Films are scanned and data were analyzed with software. Percent difference between verified and planned maximum target doses is defined as “dose discrepancy” (Δ vp). The frequency distribution of type II Δ vp from 204 verification films of 92 IMRT patients is fit to a Gaussian. Measurements made in vivo yield discrepancies specified as Δ ivp, also fit to a Gaussian. Results and Discussion: Verification methods revealed three systematic errors in plans that were corrected prior to treatment. Values of |Δ vp| for verification type I are