Validation of a radiosynthesis method and a novel quality control system for [68 Ga]Ga-MAA: is TLC enough to assess radiopharmaceutical quality?

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR EJNMMI Radiopharmacy and Chemistry Pub Date : 2024-10-15 DOI:10.1186/s41181-024-00302-x

Silvia Migliari, Stefano Bruno, Annalisa Bianchera, Ilaria De Nardis, Antonio Scarano, Monica Lusardi, Anna Gaiani, Alessandra Guercio, Maura Scarlattei, Giorgio Baldari, Ruggero Bettini, Livia Ruffini

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Abstract

Background

Technetium-99 m-labelled macroaggregated human serum albumin ([99mTc]Tc-MAA) is commonly used for lung perfusion scintigraphy. The European Pharmacopoeia (Eu.Ph.) specifies thin-layer chromatography (TLC) as the only method to assess its radiochemical purity (RCP). Similarly, TLC is the sole method reported in the literature to evaluate the RCP of Gallium-68-labelled MAA [⁶⁸ Ga]Ga-MAA, recently introduced for lung perfusion PET/CT imaging. Since [⁶⁸ Ga]Ga-MAA is prepared from commercial kits originally designed for the preparation of [99mTc]Tc-MAA, it is essential to optimize and validate the preparation methods for [⁶⁸ Ga]Ga-MAA.

Results

We tested a novel, simplified method for the preparation of [⁶⁸ Ga]Ga-MAA that does not require organic solvents, prewash or final purification steps to remove radioactive impurities. We assessed the final product using radio-TLC, radio-UV-HPLC, and radio SDS-PAGE. Overall, our quality control (QC) method successfully detected [⁶⁸ Ga]Ga-MAA along with all potential impurities, including free Ga-68, [⁶⁸ Ga]Ga-HSA, unlabeled HSA, which may occur during labelling process and HEPES residual, a non-toxic but non-human-approved contaminant, used as buffer solution. We then applied our QC system to [⁶⁸ Ga]Ga-MAA prepared under different conditions (25°–40°–75°–95 °C), thus defining the optimal temperature for labelling. Scanning Electron Microscopy (SEM) analysis of the products obtained through our novel method confirmed that most [⁶⁸ Ga]Ga-MAA particles preserved the morphological structure and size distribution of unlabeled MAA, with a particle diameter range of 25–50 μm, assuring diagnostic efficacy.

Conclusions

We optimized a novel method to prepare [⁶⁸ Ga]Ga-MAA through a QC system capable of monitoring all impurities of the final products.

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68 Ga]Ga-MAA 放射性合成方法和新型质量控制系统的验证：TLC 是否足以评估放射性药物的质量？

背景锝-99 m 标记的大聚合人血清白蛋白（[99mTc]Tc-MAA）常用于肺灌注闪烁成像。欧洲药典》（Eu.Ph.）规定，薄层色谱法（TLC）是评估其放射化学纯度（RCP）的唯一方法。同样，TLC 也是文献中报道的评估镓-68 标记的 MAA [68 Ga]Ga-MAA 的 RCP 的唯一方法。由于[68 Ga]Ga-MAA是用最初为制备[99mTc]Tc-MAA而设计的商业试剂盒制备的，因此优化和验证[68 Ga]Ga-MAA的制备方法至关重要。结果我们测试了一种新颖、简化的[68 Ga]Ga-MAA制备方法，该方法不需要有机溶剂、预洗或最终纯化步骤来去除放射性杂质。我们使用放射性-TLC、放射性-UV-HPLC 和放射性 SDS-PAGE 对最终产品进行了评估。总之，我们的质量控制（QC）方法成功地检测出了[68 Ga]Ga-MAA 以及所有可能的杂质，包括游离 Ga-68、[68 Ga]Ga-HSA 、标记过程中可能出现的未标记 HSA 以及用作缓冲溶液的 HEPES 残留物（一种无毒但未经人体批准的污染物）。然后，我们将质控系统应用于在不同条件（25°-40°-75°-95 °C）下制备的[68 Ga]Ga-MAA ，从而确定了标记的最佳温度。通过我们的新方法获得的产品的扫描电子显微镜（SEM）分析证实，大多数[68 Ga]Ga-MAA 颗粒保持了未标记 MAA 的形态结构和大小分布，颗粒直径范围为 25-50 μm，确保了诊断效果。

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