Clinical Evaluation of Efficacy of 99mTC -Ethambutol in Tubercular Lesion Imaging

Purpose. The aim of this work was to develop specific radiopharmaceutical and to evaluate its efficacy in human to detect and locate the tubercular lesion. Materials and Methods. 99mTc-Ethambutol (EMB) was produced by direct labeling method. In vitro and in vivo biological studies and animal experim...

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Bibliographic Details
Main Authors: Namrata Singh, A. Bhatnagar
Format: Article
Language:English
Published: Hindawi Limited 2010-01-01
Series:Tuberculosis Research and Treatment
Online Access:http://dx.doi.org/10.1155/2010/618051
Description
Summary:Purpose. The aim of this work was to develop specific radiopharmaceutical and to evaluate its efficacy in human to detect and locate the tubercular lesion. Materials and Methods. 99mTc-Ethambutol (EMB) was produced by direct labeling method. In vitro and in vivo biological studies and animal experiments were done. Phase I Clinical trial was performed. As per plan, 2 normal human subjects for biodistribution studies and fourteen patients (8 males and 6 females; age range of 25–50, with one patient aged 12 years as an exception) were chosen for clinical trial. Whole body scan and spots were acquired at 1 hour and 4 hour. Angiography, blood pool, and 24-hours spot images of the infected areas were also acquired. Result. Radiolabeling yielded >85% of labeled complex. In vitro and in vivo biological studies and animal experiments indicated 99mTc-EMB as a specific tuberculosis imaging agent. The biodistribution study in normal human subjects suggested stability of 99mTc-EMB, with main excretory pathways being renal and hepatobiliary, which appeared to be similar to the known behavior of unlabeled EMB. No adverse reactions were observed. 99mTc-EMB got localized in pulmonary and bone tubercular lesions. Scintigrams of 99mTc-EMB and 99mTc-Ciprofloxacin were compared at different time intervals. Conclusion. The present study states that developed 99mTc-EMB has high potential to qualify as a specific tuberculosis imaging radiopharmaceutical and is safe for human use.
ISSN:2090-150X
2090-1518