Impact of disposable syringes type choice on myocardial perfusion imaging procedures with [99mTc]Tc-tetrofosmin.

BACKGROUND: Residual activity in dispensing syringes is a problem that has been sporadically reported with various radiopharmaceuticals. Studies with [99mTc]Tc-tetrofosmin are non-consistent so far. The aim was to quantify the residual activity of [99mTc]Tc-tetrofosmin in different syringes in a clinical setting and to assess its impact on the clinical imaging procedure. METHODS: The residual activity of [99mTc]Tc-tetrofosmin was measured in 3 types of syringes: 3-part lubricated and non-lubricated syringes and 2-part syringe (n ≥ 30 for each syringe). The residual activity was located and quantified using a CzT SPECT camera and radio-counting then was correlated with different clinical parameters and processed by multiple linear regression analysis. RESULTS: Residual activity was different in all syringe types but lubricated syringes showed significantly higher levels with a mean ± SD of 26.12 ± 10.21% (P < .001). For these syringes, the residual activity was mainly located on the lubricated body. They also have a positive and significant impact on the standardized counting duration of patients' acquisitions. CONCLUSION: Lubricated syringes with high residual activity should be avoided as they increase the risk of prolonging patient acquisition time and potentially increasing the risk of poor image quality.

Container-content interactions with radiopharmaceuticals: Seeing is believing.

This perspective article addresses the critical issue of container-content interactions in the administration of intravenous medications, with a focus on radiopharmaceuticals used in nuclear medicine. Medication administration errors pose a significant challenge to patient safety. The "five rights" framework-ensuring the right patient, drug, time, dose, and route-serves as a cornerstone for safe drug administration. In the context of radiopharmaceuticals, notable for their use in nuclear medicine, adherence to these principles is paramount due to their unique properties and role in diagnostic and therapeutic procedures. The article explores the impact of container materials, particularly in syringes, on radiopharmaceutical stability and administration accuracy. It delves into the complexities of sorption phenomena, highlighting studies demonstrating its occurrence and potential consequences, including variations in administered doses and compromised diagnostic or therapeutic outcomes. Noteworthy factors influencing sorption include the type of radiopharmaceutical, container composition, molecular properties, and dilution. Findings revealing residual activity in syringes and identifying specific components, such as lubricants, silicon gaskets, and plungers, contributing to adsorption are presented. Migration of metal contaminants from container to content is discussed, emphasizing the potential impact on radiochemical yield and stability. There is a need for comprehensive studies to characterize drug-container interactions and poses crucial questions about the true benefit patients derive from prescribed activities. It challenges current practices, suggesting a need for tailored activity levels, container validation protocols, and rigorous testing of hospital preparations. Ultimately, this perspective paper calls for a deeper understanding of these interactions, urging regulatory consideration and standardization to ensure optimal drug administration and patient outcomes.

Safety and Therapeutic Optimization of Lutetium-177 Based Radiopharmaceuticals.

Peptide receptor radionuclide therapy (PRRT) using Lutetium-177 (177Lu) based radiopharmaceuticals has emerged as a therapeutic area in the field of nuclear medicine and oncology, allowing for personalized medicine. Since the first market authorization in 2018 of [¹77Lu]Lu-DOTATATE (Lutathera®) targeting somatostatin receptor type 2 in the treatment of gastroenteropancreatic neuroendocrine tumors, intensive research has led to transfer innovative 177Lu containing pharmaceuticals to the clinic. Recently, a second market authorization in the field was obtained for [¹77Lu]Lu-PSMA-617 (Pluvicto®) in the treatment of prostate cancer. The efficacy of 177Lu radiopharmaceuticals are now quite well-reported and data on the safety and management of patients are needed. This review will focus on several clinically tested and reported tailored approaches to enhance the risk-benefit trade-off of radioligand therapy. The aim is to help clinicians and nuclear medicine staff set up safe and optimized procedures using the approved 177Lu based radiopharmaceuticals.