Radiosynthesis, molecular modeling studies and biological evaluation of 99mTc-Ifosfamide complex as a novel probe for solid tumor imaging.

PURPOSE: Ifosfamide as a chemotherapeutic drug is used for the treatment of different cancer types. The purpose of this study is the preparation of 99mTc-ifosfamide complex to be evaluated as a potential candidate for tumor imaging. MATERIALS AND METHODS: The radiolabeling of ifosfamide with technetium-99m was carried out by mixing 4mg ifosfamide and 5 µg of SnCl2.2H2O with 400 MBq Na99mTcO4 at pH 9 for 30 min at room temperature. Computer simulation studies were performed using Accelrys Discovery Studio 2.5 operating system to illustrate the interaction of ifosfamide and 99mTc-ifosfamide complexes with DNA. The in-vivo biodistribution of 99mTc-ifosfamide was studied in tumor-bearing Albino mice. RESULTS: A new 99mTc-ifosfamide complex was synthesized with a good radiochemical yield of 90.3 ± 2.1% under the optimized conditions and exhibited in-vitro stability up to 2 h. Biodistribution studies showed good uptake in tumor site and high uptake in tumor site with T/NT ∼3 after 60 min post-injection. Besides, the molecular docking study confirmed that the complexation of ifosfamide with technetium-99m does not abolish its binding to the target receptor. CONCLUSION: These promising results afford a new radiopharmaceutical that could be used as a potential tumor imaging.

Radioiodinated esmolol as a highly selective radiotracer for myocardial perfusion imaging: In silico study and preclinical evaluation.

Challenges facing cardiovascular imaging necessitate innovation of better radiopharmaceuticals to augment or replace the existing ones. This research assesses the ability and competency of radioiodinated esmolol as a potential cardio selective imaging agent. Radioiodinated esmolol was synthesized with 97.3 ±â€¯0.3% radiochemical yield and with high stability up to 48 h at room temperature as well as in rat serum. Molecular modeling study was performed to confirm the binding of iodinated esmolol to ß1-adrenergic receptor. Its biodistribution studies in normal Swiss albino mice showed high heart uptake (38.5 ±â€¯0.11%ID/g at 5 min p.i.), heart/liver ratio nearly 3.85:1 and heart/lungs ratio was about 7:1 at 5 min p.i. The evidenced selectivity of the radioiodinated esmolol to ß1-adrenoceptor was confirmed by prior injection of cold esmolol. Gamma camera biodistribution pattern showed that radioiodinated esmolol accumulated selectively in heart.