Uncovering advances in final end-user applications, user acceptability, quality assurance, and digital technologies for 3D-printed oral drug delivery systems

IF 6.8 3区 医学 Q1 ENGINEERING, BIOMEDICAL
Veronica L. Rios-Mata, Marisela Rodriguez-Salvador, Jia An, Chee Kai Chua, Pedro F. Castillo-Valdez
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引用次数: 0

Abstract

The increasing demand for innovative drugs and personalized treatment is radically changing the pharmaceutical industry, where significant efforts in research and development (R&D) are taking place. Three-dimensional (3D) printing offers interesting solutions for these demands, solving some of the limitations of current manufacturing processes. 3D-printed oral drug delivery systems can improve the delivery of pharmaceutical substances in the body, and the dynamic interaction between pharmaceutical ingredients, while providing personalized formulations, geometries, sizes, controlled release rates, and increasing time in the gastrointestinal tract. Advances in 3D printing for oral drug delivery systems have been investigated in terms of processes, materials, and effects. However, it is important to also consider other topics, such as the specific needs of the users to enhance drugs acceptability, the quality control processes due to the absence of approved guidelines, and the digitalization of the industry to respond to future challenges of the digital era; nevertheless, there are no studies that comprise these elements. To fill this gap, the aim of this research is to identify advances in terms of final end-user applications, quality assurance, user acceptability, and digital technologies for 3D-printed oral drug delivery systems. To accomplish this, a competitive technology intelligence (CTI) methodology was applied, where scientific literature was retrieved from the Web of Science covering the period from January 1, 1900, to May 1, 2023. For this task, a scientometric analysis was performed, and the main trends involving the previously mentioned elements were identified. In the first case, 3D-printed oral drug delivery systems are being designed for different purposes, including as anti-deterrent formulations to decrease the global problem of opioid abuse. For quality assurance, the results demonstrated the implementation of approaches like quality by design to increase the quality of the 3D-printed dosage forms. In the case of user acceptability, the interest in creating more attractive formulations was identified; for this, innovative technologies such as ColorJet 3D printing are being used. Lastly, regarding digital technologies, the importance of cyberattacks while sending the 3D-printed dosage form file to the 3D printer is highlighted; for this, cybersecurity systems are being studied. The outcomes of this study can add value to researchers, organizations, and investment firms interested in the R&D of novel and personalized treatments, and the areas of 3D printing, pharmaceutical, medical, and health.    
揭示3d打印口服给药系统在最终用户应用、用户可接受性、质量保证和数字技术方面的进展
对创新药物和个性化治疗日益增长的需求正在从根本上改变制药行业,该行业正在进行重大的研究和开发(R&D)。三维(3D)打印为这些需求提供了有趣的解决方案,解决了当前制造工艺的一些限制。3d打印的口服给药系统可以改善药物在体内的传递,以及药物成分之间的动态相互作用,同时提供个性化的配方、几何形状、大小、可控释放率,并增加在胃肠道中的时间。3D打印用于口服药物输送系统的进展已经在工艺、材料和效果方面进行了研究。然而,也必须考虑其他主题,例如用户提高药物可接受性的特定需求,由于缺乏批准指南而导致的质量控制过程,以及行业的数字化以应对数字时代的未来挑战;然而,没有研究包含这些要素。为了填补这一空白,本研究的目的是确定3d打印口服给药系统在最终用户应用、质量保证、用户可接受性和数字技术方面的进展。为了实现这一目标,我们采用了竞争技术情报(CTI)方法,从科学网上检索了从1900年1月1日到2023年5月1日的科学文献。为了完成这项任务,我们进行了科学计量分析,并确定了涉及上述元素的主要趋势。在第一个案例中,3d打印的口服药物输送系统被设计用于不同的目的,包括作为反威慑配方,以减少阿片类药物滥用的全球问题。为了保证质量,结果证明了通过设计提高质量等方法的实施,以提高3d打印剂型的质量。在用户可接受的情况下,确定了创造更有吸引力的配方的兴趣;为此,正在使用ColorJet 3D打印等创新技术。最后,关于数字技术,在将3D打印的剂型文件发送到3D打印机时,强调了网络攻击的重要性;为此,人们正在研究网络安全系统。这项研究的结果可以为研究人员、组织和投资公司增加价值,这些公司对新型和个性化治疗的研发以及3D打印、制药、医疗和健康领域感兴趣。,,,,
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来源期刊
CiteScore
6.90
自引率
4.80%
发文量
81
期刊介绍: The International Journal of Bioprinting is a globally recognized publication that focuses on the advancements, scientific discoveries, and practical implementations of Bioprinting. Bioprinting, in simple terms, involves the utilization of 3D printing technology and materials that contain living cells or biological components to fabricate tissues or other biotechnological products. Our journal encompasses interdisciplinary research that spans across technology, science, and clinical applications within the expansive realm of Bioprinting.
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