Pharmacokinetics of an indium-111-labeled monoclonal antibody in cancer patients.

We have evaluated the pharmacokinetics in patients of a monoclonal antibody (19-9) F(ab')2 fragment coupled with DTPA and labeled with 111In. In addition to imaging and organ uptake determinations, serum and urine samples were analyzed to help determine the in vivo behavior of the label. Using a competitive binding assay, the immunoreactivity of the coupled fragment was found to be indistinguishable from that of the unmodified fragment. The absence of radiocolloids in the injectate was confirmed as was the in vivo stability of the attached DTPA groups. By a variety of techniques, we show that the only significant source of label instability was transcomplexation to circulating transferrin. About 9% per day of label exposed to transferrin (about 1-2% of the injected dose) dissociated with slight bone marrow accumulation. Following i.v. administration, serum activity levels fell rapidly (T 1/2 alpha 2 hr, T 1/2 beta 19 hr). Whole-body clearance of the label was slow (T 1/2 160 hr) and may be attributed entirely to urinary excretion (0.26% of the injected dose per hour). Organ accumulation was greatest in the liver and persisted after rapidly attaining high values (20% of the injected dose). A total of 14 cancer patients were studied, nine with identifiable sites of metastatic disease from colorectal [8], pancreatic [2], ovarian [3], or small cell lung [1] primaries. Eight of the 12 sites of documented tumor were visualized by external imaging (67%) most distinctly at 48-72 hr postadministration.

[1]  C. Mulhern,et al.  Detection of metastatic tumor in normal-sized retroperitoneal lymph nodes by monoclonal-antibody imaging. , 1984, The New England journal of medicine.

[2]  T. Klug,et al.  Initial clinical evaluation of an immunoradiometric assay for CA 19‐9 using the nci serum bank , 1984, International journal of cancer.

[3]  S. Larson,et al.  Diagnosis of and therapy for solid tumors with radiolabeled antibodies and immune fragments. , 1984, Cancer treatment reports.

[4]  R. L. Childs,et al.  The preparation of DTPA-coupled antibodies radiolabeled with metallic radionuclides: an improved method. , 1983, Journal of immunological methods.

[5]  C. Mulhern,et al.  Metastatic colon carcinoma detected with radiolabeled F(ab')2 monoclonal antibody fragments. , 1983, Radiology.

[6]  J. Koziol,et al.  Stability, characterization, and kinetics of 111In-labeled monoclonal antitumor antibodies in normal animals and nude mouse-human tumor models. , 1983, Cancer research.

[7]  M. Herlyn,et al.  Tumor localization in patients by radiolabeled monoclonal antibodies against colon carcinoma. , 1983, Cancer research.

[8]  R. L. Childs,et al.  Radioactive labeling of antibody: a simple and efficient method. , 1983, Science.

[9]  J. Uhr,et al.  Immunotoxins: a new approach to cancer therapy. , 1983, Science.

[10]  P W Doherty,et al.  A computer program for reconstruction of images from a scanning gamma camera. , 1982, Computer programs in biomedicine.

[11]  D. Sullivan,et al.  Localization of I-131-labeled goat and primate anti-carcinoembryonic antigen(CEA) antibodies in patients with cancer. , 1981, Investigative radiology.

[12]  R. Dillman,et al.  Radiolabeling of monoclonal antitumor antibodies: comparison of i-125 and in-111-anti-cea with ga-67 in a nude mouse-human colon tumor model. Abstr. , 1981 .

[13]  C. Meares,et al.  Selective binding of metal ions to macromolecules using bifunctional analogs of EDTA. , 1974, Journal of medicinal chemistry.

[14]  L. S. Graham,et al.  In vivo quantitation of radioactivity using the Anger camera. , 1974, Radiology.