Thallium-201 (TI-201) distribution in acute experimental myocardial infarction (MI) (n = 18) was ... more Thallium-201 (TI-201) distribution in acute experimental myocardial infarction (MI) (n = 18) was compared with cardiac-specific antimyosin Fab (AM-Fab) uptake, a specific marker for myocardial necrosis. When antimyosin was injected 4 hours after ligation with TI-201 administered 23 hours 55 minutes later and measurement of myocardial distribution determined 5 minutes after intravenous administration of TI-201, (1) TI-201 distribution closely correlated with microsphere regional blood flow, and (2) an inverse exponential relation to iodine-125 (I-125) AM-Fab uptake was apparent. In another group of 4 animals, TI-201 and AM-Fab were administered intravenously 4 hours after MI, and 36 hours later myocardial distribution was measured. This delayed TI-201 distribution had a close inverse linear correlation with I-125 AM-Fab uptake. This inverse linear relation also was apparent in 28-hour-old MIs in dogs (n = 4) where collateral circulation had been established. TI-201 was administered intravenously at 27 hours after MI, and TI-201 distribution was determined 1 hour later. The present study demonstrated that whereas immediate TI-201 distribution is flow-limited, delayed TI-201 distribution is a marker of cell viability which, due to prolonged circulation time and redistribution, is not flow-limited.
Journal of the American College of Cardiology, Volume 27, Issue 2, Pages 321, February 1996, Auth... more Journal of the American College of Cardiology, Volume 27, Issue 2, Pages 321, February 1996, Authors:Pierluigi Pieri; Ignasi Carrió; Jagat Narula; Giovanni Moscatelli; Lourdes Prat; Luciano Pedrini; Vicens Riambau; Chris Pak; Francis Chen; Ban-An Khaw. Journal Home, ...
We performed radionuclide scanning after the intravenous injection of human IgG labeled with indi... more We performed radionuclide scanning after the intravenous injection of human IgG labeled with indium-111 in 128 patients with suspected focal sites of inflammation. Localization of 111In-labeled IgG correlated with clinical findings in 51 infected patients (21 with abdominal or pelvic infections, 11 with intravascular infections, 7 with pulmonary infections, and 12 with skeletal infections). Infecting organisms included gram-positive bacteria, gram-negative bacteria, Pneumocystis carinii, Mycoplasma pneumoniae, and Candida albicans. No focal localization of 111In-labeled IgG was observed in 63 patients without infection. There were five false negative results, and nine results were unusable. Serial scans were carried out in eight patients: continued localization correctly predicted relapse in six, and the absence of localization indicated resolution in two. To determine whether 111In-labeled IgG localization was specific for inflammation, we studied 16 patients with cancer. Focal localization occurred in 13 of these patients (5 with melanomas, 5 with gynecologic cancers, and 1 each with lymphoma, prostate cancer, and malignant fibrous histiocytoma). No localization was seen in patients with renal or colon cancer or metastatic medullary carcinoma of the thyroid. We conclude that 111In-labeled IgG imaging is effective for the detection of focal infection and that serial scans may be useful in assessing therapeutic efficacy. This technique may also be helpful in the evaluation of certain cancers.
Cell surfaces and intercellular matrixes contain acidic residues, making them negatively charged.... more Cell surfaces and intercellular matrixes contain acidic residues, making them negatively charged. Antibodies are basic, positively charged glycoproteins. Therefore the potential for nonspecific ionic interaction exists, which could increase the background activity. Modification of antibodies with negatively charge-modified polymers have been shown to reduce this nonspecific background activity. This study was performed to investigate the appropriateness of different cross-linkers used covalently to link the chelating negatively charge-modified polylysine to antimyosin Fab (AM-Fab). The cross-linking was performed through peptide (AM-I) or thioether (AM-II) bonds. The in vitro evaluation of the immunointegrity and the in vivo assessment were performed to investigate the potential for reduction of nontarget background activity. Furthermore, the role of the charge of the polymers (whether completely negatively charge modified by succinylation [AM-IIs] or only partially negatively charge modified [AM-IIns]) was also assessed. All polymer-modified preparations (AM-I, AM-IIs, and AM-IIns) retained the immunoreactivities relative to the unmodified or conventional diethylenetriaminepentaacetic acid-coupled AM-Fab as assessed by radioimmunoassay or enzyme-linked immunosorbent assay. These polymer-modified preparations labeled with 111In were assessed in 13 rabbits with acute experimental myocardial infarction. Acute infarcts were produced by 40 minutes of left anterior descending coronary artery occlusion followed by reperfusion. At between 10 and 30 minutes of reperfusion, 10.4 +/- 1.8 mBq 111In-AM-I (10 to 20 micrograms; n = 7) or 11.4 +/- 2.3 mBq 111In-AM-II (n or ns) (20 to 25 micrograms; n = 6) was administered intravenously. Gamma imaging was performed in the left lateral position and arterial blood samples were withdrawn serially for the next 3 hours. At the end of the final imaging session, AM-I uptake was determined to be 1.09% +/- 0.11% (mean percent injected dose per gram myocardium +/- SEM) in 20 infarcted myocardial segments from seven rabbits, compared with 0.031% +/- 0.003% in 20 normal myocardial segments (infarct/normal myocardial ratio 53.9 +/- 18.41). The mean percent injected dose of 111In-labeled thioether-linked AM-Fab preparations in nine infarcted myocardial segments from each group was 0.067% +/- 0.008% (infarct/normal myocardial ratio 9.0 +/- 1.5) and 0.144% +/- 0.011% (infarct/normal myocardial ratio 10.2 +/- 1.9) with AM-IIs (n = 3) and AM-IIns (n = 3), respectively (p < 0.0001). The non-target organ distribution of the AM-I and AM-IIs was similar. AM-IIns preparation resulted in high non-target organ activities. This study shows that the charge of the antibody can be manipulated favorably by cross-linking with negatively charged polymers, which results in the reduced in vivo non-target organ activities. Charge modification does not adversely affect the apparent affinity of the antibody. However, the type of cross-linkers used may significantly influence the in vivo stability of the modified antibody preparations for target organ visualization. These data may find potential application in future clinical imaging protocols.
Methods We examined seven explanted hearts obtained during cardiac transplantation for evidence o... more Methods We examined seven explanted hearts obtained during cardiac transplantation for evidence of apoptosis. All seven patients had severe chronic heart failure: four had idiopathic dilated cardiomyopathy, and three had ischemic cardiomyopathy. DNA fragmentation (an ...
LyP-1, a nine-amino-acid tumor homing peptide, selectively binds to its cognate receptor, p32. Ov... more LyP-1, a nine-amino-acid tumor homing peptide, selectively binds to its cognate receptor, p32. Overexpression of p32 in certain tumors should allow use of LyP-1 as a targeting agent for the delivery of therapeutic or diagnostic agents. Peptide conjugates are developed for enhanced pre-targeting of MDA-MB-231 breast cancer cells with peptide-antibody bispecific complexes and targeting with multiple-drug/-fluorophore-conjugated nano-polymers. LyP-1-anti-DTPA bispecific antibody complexes (LyP-1-bsAbCx) were generated by conjugation of anti-DTPA antibody and LyP-1. LyP-1-doxorubicin (Dox), Dox-DTPA-succinyl-polylysine (Dox-DSPL), Dox-DSPL-LyP-1, DTPA-Dox-poly glutamic acid (D-Dox-PGA) or DTPA-rhodamine conjugated polylysine (DSPL-RITC) were prepared. In vitro therapeutic efficacy and targeting by immunofluorescence in MDA-MB-231 breast cancer cells were assessed with Dox-LyP-1. Immunofluorescence visualization of cancer cells was evaluated after pretargeting with LyP-1-bsAbCx and targe...
Antimyosin antibody is highly specific for in vivo delineation of acute myocyte necrosis as only ... more Antimyosin antibody is highly specific for in vivo delineation of acute myocyte necrosis as only irreversibly damaged myocytes with sarcolemmal disruption will enable access of the administered antibody to the once-privileged intracellular antigen-myosin. Thus, antimyosin radiolabeled with either indium-111 or technitium-99m has been used for the noninvasive diagnosis of myocyte necrosis associated with acute myocardial infarction, myocarditis, heart transplant rejection, as well as in other cardiac disorders such as rheumatic carditis or adriamycin cardiotoxicity. The sensitivity of antimyosin scintigraphy for these disorders has been reported to be 90%-100%. The final verdict on its full potential must await extensive clinical use.
International journal of radiation applications and instrumentation. Part B, Nuclear medicine and biology, 1991
The protocol used for coupling of monoclonal antibodies with mixed anhydride of DTPA for subseque... more The protocol used for coupling of monoclonal antibodies with mixed anhydride of DTPA for subsequent radiolabeling with indium-111 affects the integrity of the immunoreactivity of the antibody preparations. To analyze the effect of minor methodological variations on coupling characteristics, a two-step addition of DTPA to antimyosin antibody with gentle mixing was compared to a single addition with vigorous stirring. The molar ratios of DTPA to antibody were also varied. The polymer formation was assessed by SDS-PAGE and immunoreactivity was assessed by solid phase radioimmunoassay using human heart myosin as the antigen. The immunoreactivity was significantly decreased in the two-step, gentle-mixing method where polymer formation was evident. The one-step, vigorous-stirring method of DTPA incorporation produced no polymerization and no loss of immunoreactivity.
Bispecific monoclonal antibodies (bsMAbs) have been developed as a pretargeting tool to reduce ba... more Bispecific monoclonal antibodies (bsMAbs) have been developed as a pretargeting tool to reduce background activity, thereby increasing target to background (T : B) ratios. To enhance visualization of small lesions in vivo, we have used the pretargeting approach of bsMAb and negatively charged polymers radiolabeled with high-specific radioactivity. Imaging of metastatic melanoma lesions localized in lung tissues pretargeted with bsMAb and targeted with high-specific radioactivity polymers was carried out. The bsMAb was prepared by covalent conjugation of an antinucleosomal antibody (2C5) recognizing a nucleosomal pan cancer antigen and an anti-diethylene triaminepentaacetic acid antibody (6C31H3) by means of thioether linkage. BsMAb was injected intravenously 10 days after the initiation of the induction of murine melanoma metastasized to the lungs. The next day, 37 MBq ⁹⁹mTc-diethylene triaminepentaacetic acid-succinylated polylysine were injected intravenously and in-vivo imaging was carried out after the injection. In-vivo and ex-vivo target (T) to background (B) activity ratios were assessed by computer planimetry and biodistribution studies. Lesions were visualized unequivocally in 3 h by gamma scintigraphy. Ex-vivo gamma-scintillation counting corrected for the lesion mass showed that the mean lesion activity was 24.85 ± 13.53 percent injected dose per gram when pretargeted with bsMAb, whereas it was 0.977 ± 0.465 percent injected dose per gram (P<0.01) in the control group injected only with radioactive polymers also corrected similarly. The use of bsMAb complexes and ⁹⁹mTc-diethylene triaminepentaacetic acid-succinylated polylysine enabled early in-vivo visualization of small metastatic melanoma lesions in the lungs.
Two-step targeting with bispecific antibody and Tc-labeled high-specific radioactivity polymers w... more Two-step targeting with bispecific antibody and Tc-labeled high-specific radioactivity polymers was used for molecular imaging of two very small model lesions in rats. Sprague-Dawley rats (group I) were injected with surrogate antigen-coated beads (SA beads) in the right hind leg or unmodified beads in the contralateral hind leg. In group II, femoral artery de-endothelialization was induced in the left hind leg and sham operation was performed in the contralateral hind leg. Bispecific antibody Z2D3 F(ab')2-anti-DTPA F(ab')2 was injected intravenously 24 h after SAB injection or 1 week after endothelial denudation. Tc-labeled polymers were injected intravenously 24 h later and gamma-images obtained at 2 and 24 h in group I or approximately 2.5 h in group II. Lesions were visualized by 2 h. In group I, SA beads-specific uptake in muscles was significantly greater than with unmodified beads (P<0.015). In group II, lesions were visualized by 2.5 h after radiopolymer injection with uptake activity 2.1+/-0.6 times greater than in the contralateral side from in-vivo images (P<0.004) and 1.8+/-0.7 times by gamma-scintillation counting (P<0.04). Pretargeting with Z2D3 bispecific antibody for the localization of radiolabeled polymers enabled successful in-vivo gamma-imaging of very small lesions in two rat models of extravascular and intravascular targets. Biodistribution data confirmed that pretargeting with bispecific antibody enabled targeted visualization of two different very small model lesions by in-vivo gamma-imaging.
Thallium-201 (TI-201) distribution in acute experimental myocardial infarction (MI) (n = 18) was ... more Thallium-201 (TI-201) distribution in acute experimental myocardial infarction (MI) (n = 18) was compared with cardiac-specific antimyosin Fab (AM-Fab) uptake, a specific marker for myocardial necrosis. When antimyosin was injected 4 hours after ligation with TI-201 administered 23 hours 55 minutes later and measurement of myocardial distribution determined 5 minutes after intravenous administration of TI-201, (1) TI-201 distribution closely correlated with microsphere regional blood flow, and (2) an inverse exponential relation to iodine-125 (I-125) AM-Fab uptake was apparent. In another group of 4 animals, TI-201 and AM-Fab were administered intravenously 4 hours after MI, and 36 hours later myocardial distribution was measured. This delayed TI-201 distribution had a close inverse linear correlation with I-125 AM-Fab uptake. This inverse linear relation also was apparent in 28-hour-old MIs in dogs (n = 4) where collateral circulation had been established. TI-201 was administered intravenously at 27 hours after MI, and TI-201 distribution was determined 1 hour later. The present study demonstrated that whereas immediate TI-201 distribution is flow-limited, delayed TI-201 distribution is a marker of cell viability which, due to prolonged circulation time and redistribution, is not flow-limited.
Journal of the American College of Cardiology, Volume 27, Issue 2, Pages 321, February 1996, Auth... more Journal of the American College of Cardiology, Volume 27, Issue 2, Pages 321, February 1996, Authors:Pierluigi Pieri; Ignasi Carrió; Jagat Narula; Giovanni Moscatelli; Lourdes Prat; Luciano Pedrini; Vicens Riambau; Chris Pak; Francis Chen; Ban-An Khaw. Journal Home, ...
We performed radionuclide scanning after the intravenous injection of human IgG labeled with indi... more We performed radionuclide scanning after the intravenous injection of human IgG labeled with indium-111 in 128 patients with suspected focal sites of inflammation. Localization of 111In-labeled IgG correlated with clinical findings in 51 infected patients (21 with abdominal or pelvic infections, 11 with intravascular infections, 7 with pulmonary infections, and 12 with skeletal infections). Infecting organisms included gram-positive bacteria, gram-negative bacteria, Pneumocystis carinii, Mycoplasma pneumoniae, and Candida albicans. No focal localization of 111In-labeled IgG was observed in 63 patients without infection. There were five false negative results, and nine results were unusable. Serial scans were carried out in eight patients: continued localization correctly predicted relapse in six, and the absence of localization indicated resolution in two. To determine whether 111In-labeled IgG localization was specific for inflammation, we studied 16 patients with cancer. Focal localization occurred in 13 of these patients (5 with melanomas, 5 with gynecologic cancers, and 1 each with lymphoma, prostate cancer, and malignant fibrous histiocytoma). No localization was seen in patients with renal or colon cancer or metastatic medullary carcinoma of the thyroid. We conclude that 111In-labeled IgG imaging is effective for the detection of focal infection and that serial scans may be useful in assessing therapeutic efficacy. This technique may also be helpful in the evaluation of certain cancers.
Cell surfaces and intercellular matrixes contain acidic residues, making them negatively charged.... more Cell surfaces and intercellular matrixes contain acidic residues, making them negatively charged. Antibodies are basic, positively charged glycoproteins. Therefore the potential for nonspecific ionic interaction exists, which could increase the background activity. Modification of antibodies with negatively charge-modified polymers have been shown to reduce this nonspecific background activity. This study was performed to investigate the appropriateness of different cross-linkers used covalently to link the chelating negatively charge-modified polylysine to antimyosin Fab (AM-Fab). The cross-linking was performed through peptide (AM-I) or thioether (AM-II) bonds. The in vitro evaluation of the immunointegrity and the in vivo assessment were performed to investigate the potential for reduction of nontarget background activity. Furthermore, the role of the charge of the polymers (whether completely negatively charge modified by succinylation [AM-IIs] or only partially negatively charge modified [AM-IIns]) was also assessed. All polymer-modified preparations (AM-I, AM-IIs, and AM-IIns) retained the immunoreactivities relative to the unmodified or conventional diethylenetriaminepentaacetic acid-coupled AM-Fab as assessed by radioimmunoassay or enzyme-linked immunosorbent assay. These polymer-modified preparations labeled with 111In were assessed in 13 rabbits with acute experimental myocardial infarction. Acute infarcts were produced by 40 minutes of left anterior descending coronary artery occlusion followed by reperfusion. At between 10 and 30 minutes of reperfusion, 10.4 +/- 1.8 mBq 111In-AM-I (10 to 20 micrograms; n = 7) or 11.4 +/- 2.3 mBq 111In-AM-II (n or ns) (20 to 25 micrograms; n = 6) was administered intravenously. Gamma imaging was performed in the left lateral position and arterial blood samples were withdrawn serially for the next 3 hours. At the end of the final imaging session, AM-I uptake was determined to be 1.09% +/- 0.11% (mean percent injected dose per gram myocardium +/- SEM) in 20 infarcted myocardial segments from seven rabbits, compared with 0.031% +/- 0.003% in 20 normal myocardial segments (infarct/normal myocardial ratio 53.9 +/- 18.41). The mean percent injected dose of 111In-labeled thioether-linked AM-Fab preparations in nine infarcted myocardial segments from each group was 0.067% +/- 0.008% (infarct/normal myocardial ratio 9.0 +/- 1.5) and 0.144% +/- 0.011% (infarct/normal myocardial ratio 10.2 +/- 1.9) with AM-IIs (n = 3) and AM-IIns (n = 3), respectively (p < 0.0001). The non-target organ distribution of the AM-I and AM-IIs was similar. AM-IIns preparation resulted in high non-target organ activities. This study shows that the charge of the antibody can be manipulated favorably by cross-linking with negatively charged polymers, which results in the reduced in vivo non-target organ activities. Charge modification does not adversely affect the apparent affinity of the antibody. However, the type of cross-linkers used may significantly influence the in vivo stability of the modified antibody preparations for target organ visualization. These data may find potential application in future clinical imaging protocols.
Methods We examined seven explanted hearts obtained during cardiac transplantation for evidence o... more Methods We examined seven explanted hearts obtained during cardiac transplantation for evidence of apoptosis. All seven patients had severe chronic heart failure: four had idiopathic dilated cardiomyopathy, and three had ischemic cardiomyopathy. DNA fragmentation (an ...
LyP-1, a nine-amino-acid tumor homing peptide, selectively binds to its cognate receptor, p32. Ov... more LyP-1, a nine-amino-acid tumor homing peptide, selectively binds to its cognate receptor, p32. Overexpression of p32 in certain tumors should allow use of LyP-1 as a targeting agent for the delivery of therapeutic or diagnostic agents. Peptide conjugates are developed for enhanced pre-targeting of MDA-MB-231 breast cancer cells with peptide-antibody bispecific complexes and targeting with multiple-drug/-fluorophore-conjugated nano-polymers. LyP-1-anti-DTPA bispecific antibody complexes (LyP-1-bsAbCx) were generated by conjugation of anti-DTPA antibody and LyP-1. LyP-1-doxorubicin (Dox), Dox-DTPA-succinyl-polylysine (Dox-DSPL), Dox-DSPL-LyP-1, DTPA-Dox-poly glutamic acid (D-Dox-PGA) or DTPA-rhodamine conjugated polylysine (DSPL-RITC) were prepared. In vitro therapeutic efficacy and targeting by immunofluorescence in MDA-MB-231 breast cancer cells were assessed with Dox-LyP-1. Immunofluorescence visualization of cancer cells was evaluated after pretargeting with LyP-1-bsAbCx and targe...
Antimyosin antibody is highly specific for in vivo delineation of acute myocyte necrosis as only ... more Antimyosin antibody is highly specific for in vivo delineation of acute myocyte necrosis as only irreversibly damaged myocytes with sarcolemmal disruption will enable access of the administered antibody to the once-privileged intracellular antigen-myosin. Thus, antimyosin radiolabeled with either indium-111 or technitium-99m has been used for the noninvasive diagnosis of myocyte necrosis associated with acute myocardial infarction, myocarditis, heart transplant rejection, as well as in other cardiac disorders such as rheumatic carditis or adriamycin cardiotoxicity. The sensitivity of antimyosin scintigraphy for these disorders has been reported to be 90%-100%. The final verdict on its full potential must await extensive clinical use.
International journal of radiation applications and instrumentation. Part B, Nuclear medicine and biology, 1991
The protocol used for coupling of monoclonal antibodies with mixed anhydride of DTPA for subseque... more The protocol used for coupling of monoclonal antibodies with mixed anhydride of DTPA for subsequent radiolabeling with indium-111 affects the integrity of the immunoreactivity of the antibody preparations. To analyze the effect of minor methodological variations on coupling characteristics, a two-step addition of DTPA to antimyosin antibody with gentle mixing was compared to a single addition with vigorous stirring. The molar ratios of DTPA to antibody were also varied. The polymer formation was assessed by SDS-PAGE and immunoreactivity was assessed by solid phase radioimmunoassay using human heart myosin as the antigen. The immunoreactivity was significantly decreased in the two-step, gentle-mixing method where polymer formation was evident. The one-step, vigorous-stirring method of DTPA incorporation produced no polymerization and no loss of immunoreactivity.
Bispecific monoclonal antibodies (bsMAbs) have been developed as a pretargeting tool to reduce ba... more Bispecific monoclonal antibodies (bsMAbs) have been developed as a pretargeting tool to reduce background activity, thereby increasing target to background (T : B) ratios. To enhance visualization of small lesions in vivo, we have used the pretargeting approach of bsMAb and negatively charged polymers radiolabeled with high-specific radioactivity. Imaging of metastatic melanoma lesions localized in lung tissues pretargeted with bsMAb and targeted with high-specific radioactivity polymers was carried out. The bsMAb was prepared by covalent conjugation of an antinucleosomal antibody (2C5) recognizing a nucleosomal pan cancer antigen and an anti-diethylene triaminepentaacetic acid antibody (6C31H3) by means of thioether linkage. BsMAb was injected intravenously 10 days after the initiation of the induction of murine melanoma metastasized to the lungs. The next day, 37 MBq ⁹⁹mTc-diethylene triaminepentaacetic acid-succinylated polylysine were injected intravenously and in-vivo imaging was carried out after the injection. In-vivo and ex-vivo target (T) to background (B) activity ratios were assessed by computer planimetry and biodistribution studies. Lesions were visualized unequivocally in 3 h by gamma scintigraphy. Ex-vivo gamma-scintillation counting corrected for the lesion mass showed that the mean lesion activity was 24.85 ± 13.53 percent injected dose per gram when pretargeted with bsMAb, whereas it was 0.977 ± 0.465 percent injected dose per gram (P<0.01) in the control group injected only with radioactive polymers also corrected similarly. The use of bsMAb complexes and ⁹⁹mTc-diethylene triaminepentaacetic acid-succinylated polylysine enabled early in-vivo visualization of small metastatic melanoma lesions in the lungs.
Two-step targeting with bispecific antibody and Tc-labeled high-specific radioactivity polymers w... more Two-step targeting with bispecific antibody and Tc-labeled high-specific radioactivity polymers was used for molecular imaging of two very small model lesions in rats. Sprague-Dawley rats (group I) were injected with surrogate antigen-coated beads (SA beads) in the right hind leg or unmodified beads in the contralateral hind leg. In group II, femoral artery de-endothelialization was induced in the left hind leg and sham operation was performed in the contralateral hind leg. Bispecific antibody Z2D3 F(ab')2-anti-DTPA F(ab')2 was injected intravenously 24 h after SAB injection or 1 week after endothelial denudation. Tc-labeled polymers were injected intravenously 24 h later and gamma-images obtained at 2 and 24 h in group I or approximately 2.5 h in group II. Lesions were visualized by 2 h. In group I, SA beads-specific uptake in muscles was significantly greater than with unmodified beads (P<0.015). In group II, lesions were visualized by 2.5 h after radiopolymer injection with uptake activity 2.1+/-0.6 times greater than in the contralateral side from in-vivo images (P<0.004) and 1.8+/-0.7 times by gamma-scintillation counting (P<0.04). Pretargeting with Z2D3 bispecific antibody for the localization of radiolabeled polymers enabled successful in-vivo gamma-imaging of very small lesions in two rat models of extravascular and intravascular targets. Biodistribution data confirmed that pretargeting with bispecific antibody enabled targeted visualization of two different very small model lesions by in-vivo gamma-imaging.
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