期刊论文详细信息
Journal of Nuclear Medicine Technology | |
Practical Aspects of 18F-FDG PET When Receiving 18F-FDG from a Distant Supplier | |
Jaylene Ducharme1  Andrew L. Goertzen1  Judy Patterson1  Sandor Demeter1  | |
关键词: positron emission tomography; organizational efficiency; 18F-FDG; radioisotope transportation; patient scheduling; | |
DOI : 10.2967/jnmt.109.062950 | |
学科分类:医学(综合) | |
来源: Society of Nuclear Medicine | |
【 摘 要 】
With PET becoming more widely used, there is an increase in the number of imaging centers being forced to rely on distant suppliers of 18F-FDG. Because of the large distances between major urban centers, this is particularly true for PET centers in Canada. Methods: Our PET center, located in Winnipeg, Manitoba, Canada, currently purchases 18F-FDG from a commercial vendor located more than 1,000 km from Winnipeg, necessitating transport by commercial airline cargo. This dependence on air transport and a distant supplier creates a situation in which our 18F-FDG supply is less reliable than it would be with onsite production. In this article, we offer insight into the obstacles we have encountered in imaging with a distant supplier of 18F-FDG and the solutions we have implemented to minimize the disruption to our patients and maximize the number of scans performed each year. Results: The development of contingency plans and protocols designed to suit our operating environment has allowed us to increase the number of patient scans obtained from 659 in year 1 to 993 in year 3, an increase of 51%, despite an increase in our actual number of scan days of only 24%. 18F-FDG injection timetables are presented for a variety of scenarios including normal delivery, low shipped activity, and delayed delivery. Conclusion: Through the careful establishment of contingency protocols and management of 18F-FDG shipments, patient throughput can be increased and disruptions minimized.【 授权许可】
Unknown
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RO201912010179666ZK.pdf | 168KB | download |