PURPOSE: To study the feasibility of measuring volumetric changes in the primary tumor on megavoltage-computed tomography (MVCT) during chemoradiation and to examine the correlation with local response. PATIENTS AND METHODS: Fifteen consecutive patients with stage III, inoperable, locally advanced non-small cell lung cancer (NSCLC) were treated in a prospective dose escalation study protocol of concurrent chemoradiation. They were monitored for acute toxicity and evaluated with daily MVCT imaging. The volumetric changes were fitted to a negative exponential resulting in a regression coefficient (RC). Local response evaluation was done with positron emission tomography using the radio-labeled glucose analogue F18 fluorodeoxyglucose (FDG-PET). RESULTS: The mean volume decrease (+/-standard deviation) was 73% (+/-18%). With a mean treatment time of 42days this treatment schedule resulted in a mean decrease of 1.74%/day. Of the 13 evaluable patients seven developed a metabolic complete remission (MCR). The mean RC of the patients with MCR is 0.050 versus a mean RC of 0.023 in non-responders (p=0.0074). Using a proposed cut-off value for the RC of 0.03 80% of the non-responders will be detected correctly while misclassifying 16.4% of patients who will eventually achieve an MCR. The total cumulative percentage of esophageal grade 3 or more toxicity was 46.7%. CONCLUSION: The RC derived from volumetric analysis of daily MVCT is prognostic and predictive for local response in patients treated with chemoradiation for a locally advanced NSCLC. Because this treatment schedule is toxic in nearly half of the patient population, MVCT is a tool in the implementation of patient-individualized treatment strategies.
PURPOSE: To study the feasibility of measuring volumetric changes in the primary tumor on megavoltage-computed tomography (MVCT) during chemoradiation and to examine the correlation with local response. PATIENTS AND METHODS: Fifteen consecutive patients with stage III, inoperable, locally advanced non-small cell lung cancer (NSCLC) were treated in a prospective dose escalation study protocol of concurrent chemoradiation. They were monitored for acute toxicity and evaluated with daily MVCT imaging. The volumetric changes were fitted to a negative exponential resulting in a regression coefficient (RC). Local response evaluation was done with positron emission tomography using the radio-labeled glucose analogue F18 fluorodeoxyglucose (FDG-PET). RESULTS: The mean volume decrease (+/-standard deviation) was 73% (+/-18%). With a mean treatment time of 42days this treatment schedule resulted in a mean decrease of 1.74%/day. Of the 13 evaluable patients seven developed a metabolic complete remission (MCR). The mean RC of the patients with MCR is 0.050 versus a mean RC of 0.023 in non-responders (p=0.0074). Using a proposed cut-off value for the RC of 0.03 80% of the non-responders will be detected correctly while misclassifying 16.4% of patients who will eventually achieve an MCR. The total cumulative percentage of esophageal grade 3 or more toxicity was 46.7%. CONCLUSION: The RC derived from volumetric analysis of daily MVCT is prognostic and predictive for local response in patients treated with chemoradiation for a locally advanced NSCLC. Because this treatment schedule is toxic in nearly half of the patient population, MVCT is a tool in the implementation of patient-individualized treatment strategies.
Authors: Lukas Käsmann; Maximilian Niyazi; Oliver Blanck; Christian Baues; René Baumann; Sophie Dobiasch; Chukwuka Eze; Daniel Fleischmann; Tobias Gauer; Frank A Giordano; Yvonne Goy; Jan Hausmann; Christoph Henkenberens; David Kaul; Lisa Klook; David Krug; Matthias Mäurer; Cédric M Panje; Johannes Rosenbrock; Lisa Sautter; Daniela Schmitt; Christoph Süß; Alexander H Thieme; Maike Trommer-Nestler; Sonia Ziegler; Nadja Ebert; Daniel Medenwald; Christian Ostheimer Journal: Strahlenther Onkol Date: 2017-10-13 Impact factor: 3.621
Authors: Kylie H Kang; Jimmy T Efird; Tarun K Podder; Yuxia Zhang; Afshin Dowlati; Mitchell Machtay; Charulata Jindal; Tithi Biswas Journal: Int J Environ Res Public Health Date: 2021-03-21 Impact factor: 3.390