Optimising 3D printed medications for rare diseases: In-line mass uniformity testing in direct powder extrusion 3D printing.

IF 5.3 2区 医学 Q1 PHARMACOLOGY & PHARMACY International Journal of Pharmaceutics Pub Date : 2024-11-16 DOI:10.1016/j.ijpharm.2024.124964
Gloria Mora-Castaño, Lucía Rodríguez-Pombo, Paola Carou-Senra, Patricija Januskaite, Carlos Rial, Carlos Bendicho-Lavilla, Maria L Couce, Mónica Millán-Jiménez, Isidoro Caraballo, Abdul W Basit, Carmen Alvarez-Lorenzo, Alvaro Goyanes
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Abstract

Biotinidase deficiency is a rare inherited disorder characterized by biotin metabolism issues, leading to neurological and cutaneous symptoms that can be alleviated through biotin administration. Three-dimensional (3D) printing (3DP) offers potential for personalized medicine production for rare diseases, due to its flexibility in designing dosage forms and controlling release profiles. For such point-of-care applications, rigorous quality control (QC) measures are essential to ensure precise dosing, optimal performance, and product safety, especially for low personalized doses in preclinical and clinical studies. In this work, we addressed QC challenges by integrating a precision balance into a direct powder extrusion pharmaceutical 3D printer (M3DIMAKER™) for real-time, in-line mass uniformity testing, a critical quality control step. Small and large capsule-shaped biotin printlets (3D printed tablets) for immediate- and extended-release were printed. The integrated balance monitored and registered each printlet's weight, identifying any deviations from acceptable limits. While all large printlet batches met mass uniformity criteria, some small printlet batches exhibited weight deviations. In vitro release studies showed large immediate-release printlets releasing 82% of biotin within 45 min, compared to 100% for small immediate-release printlets. For extended-release formulations, 35% of the drug was released from small printlets, whereas 24% was released from large printlets at the same time point. The integration of process analytical technology tools in 3DP shows promise in enhancing QC and scalability of personalized dosing at the point-of-care, demonstrating successful integration of a balance into a direct powder extrusion 3D printer for in-line mass uniformity testing across different sizes of capsule-shaped printlets.

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优化治疗罕见病的 3D 打印药物:直接粉末挤压三维打印中的在线质量均匀性测试。
生物素酶缺乏症是一种罕见的遗传性疾病,其特征是生物素代谢问题,导致神经和皮肤症状,通过服用生物素可以缓解这些症状。三维(3D)打印(3DP)在设计剂型和控制释放曲线方面具有灵活性,为罕见疾病的个性化药物生产提供了潜力。对于此类护理点应用,严格的质量控制(QC)措施对于确保精确剂量、最佳性能和产品安全至关重要,尤其是对于临床前和临床研究中的低个性化剂量。在这项工作中,我们将精密天平集成到直接粉末挤压制药 3D 打印机(M3DIMAKER™)中,用于实时、在线质量均匀性测试这一关键的质量控制步骤,从而解决了质量控制难题。打印出了速释和缓释的小粒和大粒胶囊状生物素打印片(3D 打印药片)。集成天平监控并记录每个打印片的重量,识别任何偏离可接受范围的情况。虽然所有大型打印片批次都符合质量均匀性标准,但一些小型打印片批次出现了重量偏差。体外释放研究显示,大型速释颗粒在 45 分钟内释放了 82% 的生物素,而小型速释颗粒则释放了 100% 的生物素。对于缓释制剂,在同一时间点,小颗粒释放出 35% 的药物,而大颗粒释放出 24%。在3DP中集成工艺分析技术工具有望提高医疗点个性化剂量的质量控制和可扩展性,该研究成功地将天平集成到了直接粉末挤压3D打印机中,用于对不同尺寸的胶囊状打印件进行在线质量均匀性测试。
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来源期刊
CiteScore
10.70
自引率
8.60%
发文量
951
审稿时长
72 days
期刊介绍: The International Journal of Pharmaceutics is the third most cited journal in the "Pharmacy & Pharmacology" category out of 366 journals, being the true home for pharmaceutical scientists concerned with the physical, chemical and biological properties of devices and delivery systems for drugs, vaccines and biologicals, including their design, manufacture and evaluation. This includes evaluation of the properties of drugs, excipients such as surfactants and polymers and novel materials. The journal has special sections on pharmaceutical nanotechnology and personalized medicines, and publishes research papers, reviews, commentaries and letters to the editor as well as special issues.
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