Purpose: We recently reported that anionic phospholipids, principally phosphatidylserine, become exposed on the external surface of vascular endothelial cells in tumors, probably in response to oxidative stresses present in the tumor microenvironment. In the present study, we tested the hypothesis that a chimeric monoclonal antibody that binds phosphatidylserine could be labeled with radioactive arsenic isotopes and used for molecular imaging of solid tumors in rats. As (h -,T 1/2 1.6 days) using a novel procedure. The radionuclides of arsenic were selected because their long half-lives are consistent with the long biological half lives of antibodies in vivo and because their chemistry permits stable attachment to antibodies. The radiolabeled antibodies were tested for the ability to image subcutaneous Dunning prostate R3227-AT1tumors in rats. Results: Clear images of the tumors were obtained using planar g-scintigraphy and positron emission tomography. Biodistribution studies confirmed the specific localization of bavituximab to the tumors. The tumor-to-liver ratio 72 h after injection was 22 for bavituximab compared with 1.5 for an isotype-matched control chimeric antibody of irrelevant specificity. Immunohistochemical studies showed that the bavituximab was labeling the tumor vascular endothelium. Conclusions: These results show that radioarsenic-labeled bavituximab has potential as a new tool for imaging the vasculature of solid tumors.
Luminosity-driven channeling extraction has been observed for the first time
in a 900 GeV study at the Fermilab Tevatron. This experiment, Fermilab E853,
demonstrated that useful TeV level beams can be extracted from a
superconducting accelerator during high luminosity collider operations without
unduly affecting the background at the collider detectors. Multi-turn
extraction was found to increase significantly the efficiency of the process.
The beam extraction efficiency was about 25%. Studies of time dependent effects
found that the turn-to-turn structure was governed mainly by accelerator beam
dynamics. An investigation of a pre-scatterer using the accelerator flying wire
system showed that a fiber could produce a significant extracted flux,
consistent with expectations. Based on these results, it is feasible to
construct a parasitic 5-10 MHz proton beam from the Tevatron collider.Comment: 55 page
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