A new 3-step approach to imaging infectious and inflammatory foci was developed and optimized in a rat model. The approach relies on the nonspecific localization of an anti-diethylenetriaminepentaacetic acid (DTPA) antibody in inflamed tissue. In this study, the 3-step strategy was optimized by selecting the most suitable radiolabeled hapten and tuning the dosing schedule. METHODS: Wistar rats with Staphylococcus aureus infection in the left calf muscle were primed with the anti-DTPA antibody DTIn-1 (0.67, 2, or 6 nmol per rat). In the second step (1-24 h later), the anti-DTPA activity in the circulation was blocked with unlabeled bovine serum albumin DTPA-In (0.3, 1, or 3 nmol per rat). In the third step (5-30 min later), the radiolabeled hapten (monovalent or bivalent 111In-DTPA) was administered. The in vivo distribution of the radiolabel was monitored by scintigraphic imaging and by ex vivo counting of dissected tissues. RESULTS: Scatchard analysis revealed that the affinity of DTIn-1 for bivalent DTPA-111In (111In-diDTPA) was 6 times higher than the affinity for monovalent 111In-DTPA (K(a) = 0.87 x 10(-9) mol/L vs. 5.3 x 10(-9) mol/L). The uptake of the bivalent chelate in the abscess was 2.5-fold higher than that of monovalent 111In-DTPA. Most important, the bivalent chelate was completely retained in the abscess over time. Using the bivalent chelate, the optimal dosing scheme was determined with respect to the DTIn-1 dose (2 nmol per rat), the blocking agent dose (1 nmol per rat), and radiolabeled chelate dose (40 pmol per rat). The procedure was rapid; the infectious focus was clearly visualized 1 h after injection of the 111In-labeled diDTPA, which was 5 h after administration of the anti-DTPA antibody. The nontargeted radiolabel rapidly cleared to the urine, only being retained in the abscess and the kidneys (4-6 percentage injected dose). Finally, an N2S2 core was attached to the diDTPA compound, allowing the use of 99mTc. CONCLUSION: This 3-step approach enables rapid imaging of infectious foci with minimal uptake in noninflamed tissues.

Item does not contain fulltext