Abstract
Objective: In this investigation, TNF analogs (WH701) was labeled with technetium (A number of TNF analogs had been selected and synthesized in our lab using random phage-display peptides library ) and pharmacokinetics and feasibility studies were performed for its potential use as diagnostic radiopharmaceutical. Methods WH701 was radiolabeled with {sup 99m}Tc then the complexes were characterized by thin layer chromatography. In vitro stability of the radiolabeled WH701 was examined simultaneity. Biodistribution and tumor uptake studies were also conducted to determine its in vivo characteristics. Results: The peptide analog WH701 permitted efficient incorporation of {sup 99m}Tc. The preparation of {sup 99m}Tc-WH701 was stable in vitro. Studies in vivo suggested that the biological activity of the peptide was not compromised. The agent was cleared rapidly from the blood and excreted mainly from kidney. The labeled peptide was shown in the nude mouse model to localize rapidly and specifically in site of tumor. Conclusions: The TNF analogue peptide WH701 can be radiolabeled with {sup 99m}Tc without loss of affinity, and the {sup 99m}Tc-WH701 shows radiochemical stability for an extended period of time in vitro. The high specific tumor uptake, rapid blood clearance, and predominantly renal excretion make {sup 99m}Tc-WH701 a promising candidate for
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Jinsong, Xia;
Hua, Wu;
Yan, Xiang
[1]
- Department of Nuclear Medicine, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan (China)
Citation Formats
Jinsong, Xia, Hua, Wu, and Yan, Xiang.
Technetium labeled WH701 for its potential use to image TNF-receptor-positive hepatocarcinoma.
China: N. p.,
2004.
Web.
Jinsong, Xia, Hua, Wu, & Yan, Xiang.
Technetium labeled WH701 for its potential use to image TNF-receptor-positive hepatocarcinoma.
China.
Jinsong, Xia, Hua, Wu, and Yan, Xiang.
2004.
"Technetium labeled WH701 for its potential use to image TNF-receptor-positive hepatocarcinoma."
China.
@misc{etde_22084031,
title = {Technetium labeled WH701 for its potential use to image TNF-receptor-positive hepatocarcinoma}
author = {Jinsong, Xia, Hua, Wu, and Yan, Xiang}
abstractNote = {Objective: In this investigation, TNF analogs (WH701) was labeled with technetium (A number of TNF analogs had been selected and synthesized in our lab using random phage-display peptides library ) and pharmacokinetics and feasibility studies were performed for its potential use as diagnostic radiopharmaceutical. Methods WH701 was radiolabeled with {sup 99m}Tc then the complexes were characterized by thin layer chromatography. In vitro stability of the radiolabeled WH701 was examined simultaneity. Biodistribution and tumor uptake studies were also conducted to determine its in vivo characteristics. Results: The peptide analog WH701 permitted efficient incorporation of {sup 99m}Tc. The preparation of {sup 99m}Tc-WH701 was stable in vitro. Studies in vivo suggested that the biological activity of the peptide was not compromised. The agent was cleared rapidly from the blood and excreted mainly from kidney. The labeled peptide was shown in the nude mouse model to localize rapidly and specifically in site of tumor. Conclusions: The TNF analogue peptide WH701 can be radiolabeled with {sup 99m}Tc without loss of affinity, and the {sup 99m}Tc-WH701 shows radiochemical stability for an extended period of time in vitro. The high specific tumor uptake, rapid blood clearance, and predominantly renal excretion make {sup 99m}Tc-WH701 a promising candidate for tumor imaging. This agent is worthy of further investigation.}
place = {China}
year = {2004}
month = {Jul}
}
title = {Technetium labeled WH701 for its potential use to image TNF-receptor-positive hepatocarcinoma}
author = {Jinsong, Xia, Hua, Wu, and Yan, Xiang}
abstractNote = {Objective: In this investigation, TNF analogs (WH701) was labeled with technetium (A number of TNF analogs had been selected and synthesized in our lab using random phage-display peptides library ) and pharmacokinetics and feasibility studies were performed for its potential use as diagnostic radiopharmaceutical. Methods WH701 was radiolabeled with {sup 99m}Tc then the complexes were characterized by thin layer chromatography. In vitro stability of the radiolabeled WH701 was examined simultaneity. Biodistribution and tumor uptake studies were also conducted to determine its in vivo characteristics. Results: The peptide analog WH701 permitted efficient incorporation of {sup 99m}Tc. The preparation of {sup 99m}Tc-WH701 was stable in vitro. Studies in vivo suggested that the biological activity of the peptide was not compromised. The agent was cleared rapidly from the blood and excreted mainly from kidney. The labeled peptide was shown in the nude mouse model to localize rapidly and specifically in site of tumor. Conclusions: The TNF analogue peptide WH701 can be radiolabeled with {sup 99m}Tc without loss of affinity, and the {sup 99m}Tc-WH701 shows radiochemical stability for an extended period of time in vitro. The high specific tumor uptake, rapid blood clearance, and predominantly renal excretion make {sup 99m}Tc-WH701 a promising candidate for tumor imaging. This agent is worthy of further investigation.}
place = {China}
year = {2004}
month = {Jul}
}