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在学术性良好生产规范环境下进行的[氮]氨的生产、验证及暴露剂量测量。

Production, Validation, and Exposure Dose Measurement of [N]Ammonia Under Academic Good Manufacturing Practice Environments.

作者信息

Tomiyoshi Katsumi, Namiki Yuta, Yang David J, Inoue Tomio

机构信息

Shonan Research Institute of Innovative Medicine, Shonan Kamakura General Hospital, 1370-1, Okamoto, Kamakura 247-8533, Japan.

Advanced Medical Center, Shonan Kamakura General Hospital, Kamakura 247-8533, Japan.

出版信息

Pharmaceutics. 2025 May 19;17(5):667. doi: 10.3390/pharmaceutics17050667.

DOI:10.3390/pharmaceutics17050667
PMID:40430957
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12115206/
Abstract

Current good manufacturing practice (cGMP) guidance for positron emission tomography (PET) drugs has been established in Europe and the United States. In Japan, the Pharmaceuticals and Medical Devices Agency (PMDA) approved the use of radiosynthesizers as medical devices for the in-house manufacturing of PET drugs in hospitals and clinics, regardless of the cGMP environment. Without adequate facilities, equipment, and personnel required by cGMP regulations, the quality assurance (QA) and clinical effectiveness of PET drugs largely depend on the radiosynthesizers themselves. To bridge the gap between radiochemistry standardization and site qualification, the Japanese Society of Nuclear Medicine (JSNM) has issued guidance for the in-house manufacturing of small-scale PET drugs under academic GMP (a-GMP) environments. The goals of cGMP and a-GMP are different: cGMP focuses on process optimization, certification, and commercialization, while a-GMP facilitates the small-scale, in-house production of PET drugs for clinical trials and patient-specific standard of care. Among PET isotopes, N-13 has a short half-life (10 min) and must be synthesized on site. [N]Ammonia ([N]NH) is used for myocardial perfusion imaging under the Japan Health Insurance System (JHIS) and was thus selected as a working example for the manufacturing of PET drugs in an a-GMP environment. A [N]NH-radiosynthesizer was installed in a hot cell within an a-GMP-compliant radiopharmacy unit. To comply with a-GMP regulations, the air flow was adjusted through HEPA filters. All cabinets and cells were disinfected to ensure sterility once a month. Standard operating procedures (SOPs) were applied, including analytical methods. Batch records, QA data, and radiation exposure to staff in the synthesis of [N]NH were measured and documented. 2.52 GBq of [N]NH end-of-synthesis (EOS) was obtained in an average of 13.5 min in 15 production runs. The radiochemical purity was more than 99%. Exposure doses were 11 µSv for one production run and 22 µSv for two production runs. The pre-irradiation background dose rate was 0.12 µSv/h. After irradiation, the exposed dosage in the front of the hot cell was 0.15 µSv/h. The leakage dosage measured at the bench was 0.16 µSv/h. The exposure and leakage dosages in the manufacturing of [N]NH were similar to the background level as measured by radiation monitoring systems in an a-GMP environments. All QAs, environmental data, bacteria assays, and particulates met a-GMP compliance standards. : In-house a-GMP environments require dedicated radiosynthesizers, documentation for batch records, validation schedules, radiation protection monitoring, air and particulate systems, and accountable personnel. In this study, the in-house manufacturing of [N]NH under a-GMP conditions was successfully demonstrated. These findings support the international harmonization of small-scale PET drug manufacturing in hospitals and clinics for future multi-center clinical trials and the development of a standard of care.

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/0e437becfccf/pharmaceutics-17-00667-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/c38c52066504/pharmaceutics-17-00667-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/63553a4474c1/pharmaceutics-17-00667-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/649f979f3a6b/pharmaceutics-17-00667-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/d04e6f54c1b8/pharmaceutics-17-00667-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/a9961efd88a7/pharmaceutics-17-00667-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/943546e11fd2/pharmaceutics-17-00667-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/0e437becfccf/pharmaceutics-17-00667-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/c38c52066504/pharmaceutics-17-00667-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/63553a4474c1/pharmaceutics-17-00667-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/649f979f3a6b/pharmaceutics-17-00667-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/d04e6f54c1b8/pharmaceutics-17-00667-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/a9961efd88a7/pharmaceutics-17-00667-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/943546e11fd2/pharmaceutics-17-00667-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd76/12115206/0e437becfccf/pharmaceutics-17-00667-g007.jpg
摘要

欧洲和美国已制定了正电子发射断层扫描(PET)药物的现行良好生产规范(cGMP)指南。在日本,药品和医疗器械管理局(PMDA)批准将放射性合成仪作为医疗设备,用于医院和诊所内部生产PET药物,而无需考虑cGMP环境。如果没有cGMP法规要求的适当设施、设备和人员,PET药物的质量保证(QA)和临床有效性在很大程度上取决于放射性合成仪本身。为了弥合放射化学标准化与场地鉴定之间的差距,日本核医学协会(JSNM)发布了在学术性GMP(a-GMP)环境下小规模PET药物内部生产的指南。cGMP和a-GMP的目标不同:cGMP侧重于工艺优化、认证和商业化,而a-GMP则促进用于临床试验和患者特定护理标准的PET药物的小规模内部生产。在PET同位素中,N-13半衰期短(10分钟),必须现场合成。[N]氨([N]NH₃)在日本健康保险制度(JHIS)下用于心肌灌注成像,因此被选为在a-GMP环境下生产PET药物的一个实例。一台[N]NH₃放射性合成仪安装在符合a-GMP的放射性药房单元的热室内。为符合a-GMP法规,通过高效空气过滤器调节气流。所有柜子和房间每月消毒一次以确保无菌。应用了标准操作程序(SOP),包括分析方法。测量并记录了[N]NH₃合成过程中的批次记录、QA数据以及工作人员的辐射暴露情况。在15次生产运行中,平均13.5分钟内获得了2.52 GBq的[N]NH₃合成结束(EOS)产物。放射化学纯度超过99%。一次生产运行的暴露剂量为11 µSv,两次生产运行的暴露剂量为22 µSv。辐照前的本底剂量率为0.12 µSv/h。辐照后,热室前部的暴露剂量为0.15 µSv/h。在工作台上测量的泄漏剂量为0.16 µSv/h。在a-GMP环境下,[N]NH₃生产过程中的暴露和泄漏剂量与辐射监测系统测量的本底水平相似。所有QA、环境数据、细菌检测和颗粒物均符合a-GMP合规标准。内部a-GMP环境需要专用的放射性合成仪、批次记录文档、验证计划、辐射防护监测、空气和颗粒物系统以及负责人员。在本研究中,成功展示了在a-GMP条件下[N]NH₃的内部生产。这些发现支持了医院和诊所小规模PET药物生产的国际协调,以用于未来的多中心临床试验和护理标准的制定。

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