【 摘 要 】

Biodistribution and dosimetry of 88Y (and equimolar 90Y) Janus-dodecanetetraacetic acid (DOTA) were performed using a three-step pretargeting protocol in BALB/c mice bearing mouse mammary adenocarcinoma (KHJJ) implants. Pretargeting was performed with mouse monoclonal antibody (mAb) 2D12.5 specific for yttrium-DOTA, and the chase was Y-DOTA–human transferrin conjugate. In this article, we report extensive organ dosimetry and the theoretic limits of the radionuclide physical half-life (Tp) for pretargeting. Methods: Organ biodistribution data were obtained from bioassays on tissue taken from tumor mice killed at 3, 24, 48, 72, 96, and 120 h after intravenous injection of 88Y-Janus-DOTA. Uptake and retention of 88Y as a function of time were described by nonlinear least squares fits of the tissue data to multiexponential functions. Radiation dose estimates for equivalent molar amounts of 90Y were subsequently derived from these time-integrated functions. Results: The results were as follows: rapid blood clearance of 88Y-Janus-DOTA; rapid uptake and slow clearance of 88Y-Janus-DOTA from the tumor over 5 d; rapid clearance from all organs and body; largest radiation absorbed dose (AD) per injected dose of 63.52 (cGy/MBq) to tumor; high therapeutic ratios (AD tumor/AD tissue), particularly for blood and bone; and optimal radionuclide Tp range from 30 min to 10 d. Conclusion: Although the absolute concentration of 90Y in the tumor is less using the hapten system than is achieved generally with the chelated radionuclide covalently attached to the mAb, the achievable tumor uptake of radioactivity, coupled with low radioactivity in bone, blood, and other organs, suggests that a three-step pretargeting protocol has considerable promise as a method for 90Y radioimmunotherapy.

【 授权许可】

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