PURPOSE: The purposes of this study were to evaluate the organ biodistribution, pharmacokinetics, immunogenicity, and tumor uptake of (111)Indium ((111)In)-MxDTPA-trastuzumab in patients with human epidermal growth factor receptor 2 (HER2)-overexpressing breast cancers and to determine whether (90)Y-MxDTPA-trastuzumab should be evaluated in subsequent clinical therapy trials. EXPERIMENTAL DESIGN: Patients with HER2-overexpressing breast cancers who were to undergo planned trastuzumab therapy first received unlabeled trastuzumab (4-8 mg/kg IV), followed 4 hours later by 5 mCi (111)In-MxDTPA-trastuzumab (10 mg antibody). Serial blood samples, 24-hour urine collections, and nuclear scans were performed at defined time points for 7 days. RESULTS: Eight (8) patients received (111)In-MxDTPA-trastuzumab, which was well tolerated with no adverse side-effects. Three (3) of 7 patients with known lesions demonstrated positive imaging on nuclear scans. No antiantibody responses were observed for 2 months postinfusion. Organ doses (cGy/mCi) assuming radiolabeling with (90)Y were 19.9 for heart wall, 17.6 for liver, 4.6 for red marrow, and 2.8 for the whole body. Tumor doses ranged from 24 to 172 cGy/mCi. CONCLUSIONS: In summary, results from this study indicate that (90)Y-MxDTPA-trastuzumab is an appropriate agent to evaluate in therapy trials. No evidence of an immune response to (111)In-MxDTPA-trastuzumab was detected, predicting for the ability to administer multiple cycles. With the exception of cardiac uptake, pharmacokinetics and organ biodistribution were comparable to other (90)Y-labeled monoclonal antibodies previously evaluated in the clinic. Cardiac uptake was comparable to hepatic uptake and therefore predicted to not be prohibitively high as to result in dose-limiting cardiotoxicity.
PURPOSE: The purposes of this study were to evaluate the organ biodistribution, pharmacokinetics, immunogenicity, and tumor uptake of (111)Indium ((111)In)-MxDTPA-trastuzumab in patients with humanepidermal growth factor receptor 2 (HER2)-overexpressing breast cancers and to determine whether (90)Y-MxDTPA-trastuzumab should be evaluated in subsequent clinical therapy trials. EXPERIMENTAL DESIGN:Patients with HER2-overexpressing breast cancers who were to undergo planned trastuzumab therapy first received unlabeled trastuzumab (4-8 mg/kg IV), followed 4 hours later by 5 mCi (111)In-MxDTPA-trastuzumab (10 mg antibody). Serial blood samples, 24-hour urine collections, and nuclear scans were performed at defined time points for 7 days. RESULTS: Eight (8) patients received (111)In-MxDTPA-trastuzumab, which was well tolerated with no adverse side-effects. Three (3) of 7 patients with known lesions demonstrated positive imaging on nuclear scans. No antiantibody responses were observed for 2 months postinfusion. Organ doses (cGy/mCi) assuming radiolabeling with (90)Y were 19.9 for heart wall, 17.6 for liver, 4.6 for red marrow, and 2.8 for the whole body. Tumor doses ranged from 24 to 172 cGy/mCi. CONCLUSIONS: In summary, results from this study indicate that (90)Y-MxDTPA-trastuzumab is an appropriate agent to evaluate in therapy trials. No evidence of an immune response to (111)In-MxDTPA-trastuzumab was detected, predicting for the ability to administer multiple cycles. With the exception of cardiac uptake, pharmacokinetics and organ biodistribution were comparable to other (90)Y-labeled monoclonal antibodies previously evaluated in the clinic. Cardiac uptake was comparable to hepatic uptake and therefore predicted to not be prohibitively high as to result in dose-limiting cardiotoxicity.
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Authors: J Y Wong; G Somlo; T Odom-Maryon; L E Williams; A Liu; D Yamauchi; A M Wu; P Yazaki; S Wilczynski; J E Shively; S Forman; J H Doroshow; A A Raubitschek Journal: Clin Cancer Res Date: 1999-10 Impact factor: 12.531
Authors: M A Cobleigh; C L Vogel; D Tripathy; N J Robert; S Scholl; L Fehrenbacher; J M Wolter; V Paton; S Shak; G Lieberman; D J Slamon Journal: J Clin Oncol Date: 1999-09 Impact factor: 44.544
Authors: Paul E Borchardt; Rui R Yuan; Matthias Miederer; Michael R McDevitt; David A Scheinberg Journal: Cancer Res Date: 2003-08-15 Impact factor: 12.701
Authors: Joanne E Mortimer; James R Bading; David M Colcher; Peter S Conti; Paul H Frankel; Mary I Carroll; Shan Tong; Erasmus Poku; Joshua K Miles; John E Shively; Andrew A Raubitschek Journal: J Nucl Med Date: 2013-12-12 Impact factor: 10.057
Authors: K A Kurdziel; E Mena; Y McKinney; K Wong; S Adler; T Sissung; J Lee; S Lipkowitz; L Lindenberg; B Turkbey; S Kummar; D E Milenic; J H Doroshow; W D Figg; M J Merino; C H Paik; M W Brechbiel; P L Choyke Journal: J Transl Sci Date: 2018-07-13