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Bio-effect model applied to 131I radioimmunotherapy of refractory non-Hodgkin's lymphoma.


ABSTRACT: Improved data collection methods have improved absorbed dose estimation by tracking activity distributions and tumor extent at multiple time points, allowing individualized absorbed dose estimation. Treatment with tositumomab and (131)I-tositumomab anti-CD20 radioimmunotherapy (BEXXAR) yields a cold antibody antitumor response (cold protein effect) and a radiation response. Biologically effective contributions, including the cold protein effect, are included in an equivalent biological effect model that was fit to patient data.Fifty-seven tumors in 19 patients were followed using 6 single proton emission computed tomography (SPECT)/CT studies, 3 each post tracer (5 mCi) and therapy (?100 mCi) injections with tositumomab and (131)I-tositumomab. Both injections used identical antibody mass, a flood dose of 450 mg plus 35 mg of (131)I tagged antibody. The SPECT/CT data were used to calculate absorbed dose rate distributions and tumor and whole-body time-activity curves, yielding a space-time dependent absorbed dose rate description for each tumor. Tumor volume outlines on CT were used to derive the time dependence of tumor size for tracer and therapy time points. A combination of an equivalent biological effect model and an inactivated cell clearance model was used to fit absorbed dose sensitivity and cold effect sensitivity parameters to tumor shrinkage data, from which equivalent therapy values were calculated.Patient responses were categorized into three groups: standard radiation sensitivity with no cold effect (7 patients), standard radiation sensitivity with cold effect (11 patients), and high radiation sensitivity with cold effect (1 patient).Fit parameters can be used to categorize patient response, implying a potential predictive capability.

SUBMITTER: Roberson PL 

PROVIDER: S-EPMC3312018 | biostudies-literature | 2011 May

REPOSITORIES: biostudies-literature

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Bio-effect model applied to 131I radioimmunotherapy of refractory non-Hodgkin's lymphoma.

Roberson Peter L PL   Amro Hanan H   Wilderman Scott J SJ   Avram Anca M AM   Kaminski Mark S MS   Schipper Matthew J MJ   Dewaraja Yuni K YK  

European journal of nuclear medicine and molecular imaging 20101221 5


<h4>Purpose</h4>Improved data collection methods have improved absorbed dose estimation by tracking activity distributions and tumor extent at multiple time points, allowing individualized absorbed dose estimation. Treatment with tositumomab and (131)I-tositumomab anti-CD20 radioimmunotherapy (BEXXAR) yields a cold antibody antitumor response (cold protein effect) and a radiation response. Biologically effective contributions, including the cold protein effect, are included in an equivalent biol  ...[more]

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