Active monitoring improves radiopharmaceutical administration quality.

James R Crowley, Iryna Barvi, Jackson W Kiser
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Abstract

Introduction: In 2016, our center adopted technology to routinely monitor 18F-FDG radiopharmaceutical administrations. Within six months of following basic quality improvement methodology, our technologists reduced extravasation rates from 13.3% to 2.9% (p < 0.0001). These same technologists administer other radiopharmaceuticals (without monitoring technology) for general nuclear medicine procedures in a separate facility at the clinic. Our hypothesis was that they would apply 18F-FDG lessons-learned to 99mTc-MDP administrations and that 99mTc-MDP manual injection extravasation rate would be consistent with the ongoing 18F-FDG manual injection extravasation rate (3.4%). We tested our hypothesis by following the same quality improvement methodology and added monitoring equipment to measure extravasation rates for 99mTc-MDP administrations.

Results: 816 99mTc-MDP administrations were monitored during 16-month period (four 4-month periods: A, B, C, D). Period A (first four months of active monitoring) extravasation rate was not statistically different from the Measure Phase extravasation rate of the previously completed PET/CT QI Project: 12.75% compared to 13.3% (p-0.7925). Period A extravasation rate was statistically different from Period C (months 9-12) extravasation rate and Period D (months 13-16) extravasation rate: 12.75% compared to 2.94% and to 3.43% (p < 0.0001). During Period C and D technologists achieved extravasation rates comparable to the longstanding manual 18F-FDG injection extravasation rate (3.4%).

Conclusion: Our initial hypothesis, that awareness of a problem and the steps need to correct it would result in process improvement, was not accurate. While those factors are important, they are not sufficient. Our findings suggest that active monitoring and the associated display of results are critical to quality improvement efforts to reduce and sustain radiopharmaceutical extravasation rates.

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主动监测提高了放射性药物给药质量
2016年,我中心采用技术对18F-FDG放射性药物管理进行常规监测。在遵循基本质量改进方法的六个月内,我们的技术人员将外渗率从13.3%降低到2.9% (p < 0.0001)。这些技术人员在诊所的单独设施中为一般核医学程序管理其他放射性药物(没有监测技术)。我们的假设是,他们将18F-FDG的经验教训应用于99mTc-MDP给药,99mTc-MDP手动注射外渗率将与正在进行的18F-FDG手动注射外渗率(3.4%)一致。我们通过遵循相同的质量改进方法和增加监测设备来测量99mTc-MDP药物的外渗率来检验我们的假设。结果共监测816例99mTc-MDP用药16个月(4个月:A、B、C、D)。A期(主动监测的前四个月)外渗率与之前完成PET/CT QI项目的Measure期外渗率无统计学差异:12.75%比13.3% (p = 0.7925)。A期外渗率与C期(9 ~ 12个月)外渗率、D期(13 ~ 16个月)外渗率分别为12.75%、2.94%和3.43%,差异有统计学意义(p < 0.0001)。在C和D期间,技术人员实现了与长期手工18F-FDG注射外渗率相当的外渗率(3.4%)。我们最初的假设是,意识到问题和纠正问题的步骤将导致过程改进,这是不准确的。虽然这些因素很重要,但它们是不够的。我们的研究结果表明,积极监测和相关结果的显示对于降低和维持放射性药物外渗率的质量改进工作至关重要。
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