Objective Through binding to folate receptor-β (FR-β), the new 99mTc–EC20 (Etarfolatide) imaging technique detects activated but not resting macrophages in vivo. The goal of this study was to investigate macrophage-related inflammation in osteoarthritis (OA). Methods Twenty-five individuals (50 knees) with symptomatic OA of at least one knee underwent SPECT-CT imaging of both knees and planar imaging of the whole body after injection of Etarfolatide. Scans and knee radiographs were scored blinded to clinical information including knee and other joint site pain severity. Measures of association controlled for age, gender, BMI and employed repeated measures to adjust for correlation between knees. Design Activated macrophages were present in the majority (76%) of knees. The quantity of knee-related macrophages was significantly associated with knee pain severity (R=0.60, p<0.0001) and radiographic knee OA severity including joint space narrowing (R=0.68, p=0.007), and osteophyte (R=0.66, p=0.001). Macrophages were also localized to joints commonly affected by OA including hand finger joints (12%), thumb bases (28%), shoulders (26%), great toes (18%) and ankles (12%). The presence of joint pain at fingers, wrists, ankles and great toes was significantly positively associated with presence of activated macrophages at these sites (p<0.0001–0.04). Conclusions This study provides the first direct in vivo evidence for macrophage involvement in OA in a substantial proportion of human knees. The association of quantity of activated macrophages with radiographic knee OA severity and joint symptoms suggests that drugs targeting macrophages and macrophage-associated inflammatory pathways may have the potential to be both symptom and structure modifying.
Radioimmunotherapy with [131I]anti-B1 antibody is a promising new treatment for lymphoma.
This phase 1 study was performed to determine the pharmacokinetics and ability to visualize prostate cancer in bone, soft-tissue, and the prostate gland using 123 I-MIP-1072 and 123 I-MIP-1095, novel radiolabeled small molecules targeting prostate-specific membrane antigen. Methods: Seven patients with a documented history of prostate cancer by histopathology or radiologic evidence of metastatic disease were intravenously administered 370 MBq (10 mCi) of 123 I-MIP-1072 and 123 I-MIP-1095 2 wk apart in a crossover trial design. 123 I-MIP-1072 was also studied in 6 healthy volunteers. Whole-body planar and SPECT/CT imaging was performed and pharmacokinetics studied over 2-3 d. Target-to-background ratios were calculated. Absorbed radiation doses were estimated using OLINDA/EXM. Results: 123 I-MIP-1072 and 123 I-MIP-1095 visualized lesions in soft tissue, bone, and the prostate gland within 0.5-1 h after injection, with retention beyond 48 h. Target-to-background ratios from planar images averaged 2:1 at 1 h, 3:1 at 4-24 h, and greater than 10:1 at 4 and 24 h for SPECT/CT. Both agents cleared the blood in a biphasic manner; clearance of 123 I-MIP-1072 was approximately 5 times faster. 123 I-MIP-1072 was excreted in the urine, with 54% and 74% present by 24 and 72 h, respectively. In contrast, only 7% and 20% of 123 I-MIP-1095 had been renally excreted by 24 and 72 h, respectively. Estimated absorbed radiation doses were 0.054 versus 0.110 mGy/MBq for the kidneys and 0.024 versus 0.058 mGy/MBq for the liver, for 123 I-MIP-1072 and 123 I-MIP-1095, respectively. Conclusion: 123 I-MIP-1072 and 123 I-MIP-1095 detect lesions in soft tissue, bone, and the prostate gland at as early as 1-4 h. These novel radiolabeled small molecules have excellent pharmacokinetic and pharmacodynamic profiles and warrant further development as diagnostic and potentially when labeled with 131 I therapeutic radiopharmaceuticals.
CED has the potential to deliver high molecular weight agents into tumor-infiltrated brain parenchyma with volumes of distribution that are clinically relevant. Target tissue anatomy and catheter position are critical parameters in optimizing drug delivery.
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