{"title":"创建自动注射器合格医疗器械开发工具的框架。","authors":"Marlon Luca Machal","doi":"10.3389/fmedt.2023.1281403","DOIUrl":null,"url":null,"abstract":"<p><strong>Objectives: </strong>Autoinjectors are pivotal for precise self-administration of medications across a wide range of medical conditions. Nevertheless, the absence of a dedicated Medical Device Development Tool (MDDT) for autoinjectors represents a gap that may result in variations in the quality and regulatory compliance of autoinjectors as components of combination products. This research aim is to utilize the recently introduced Primary Functions outlined in ISO 11608-1:2022 with the title \"Needle-based injection systems for medical use. Requirements and test methods. Part 1: Needle-based injection systems\" to create a comprehensive MDDT framework tailored specifically for autoinjectors.</p><p><strong>Methods: </strong>To support the creation of the framework, the analysis of the FDA MDDTs that were already approved, FDA's design controls regulations, FDA's guidance related to autoinjectors, and the Primary functions outlined in ISO 11608-1:2022 were utilized.</p><p><strong>Results: </strong>The research identifies the Primary Functions in autoinjector to be Holding Force, Cap Removal Force, Activation Force, Extended Needle Length, Injection Time, Dose Accuracy and Needle Guard Lockout. Leveraging these Primary Functions and the FDA's MDDT approach, the research aims to bridge the gap by proposing a structured framework for the development of a specific MDDT tailored to autoinjectors.</p><p><strong>Conclusion: </strong>This study presents a MDDT framework tailored to the development of autoinjectors for drug delivery. This framework provides a structured methodology to support predictability and effectiveness of the autoinjector development and support regulatory review process, thereby expediting FDA approval for autoinjectors as part of combination product.</p>","PeriodicalId":94015,"journal":{"name":"Frontiers in medical technology","volume":null,"pages":null},"PeriodicalIF":2.7000,"publicationDate":"2023-11-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10733859/pdf/","citationCount":"0","resultStr":"{\"title\":\"Framework for creating a qualified medical device development tool of autoinjectors.\",\"authors\":\"Marlon Luca Machal\",\"doi\":\"10.3389/fmedt.2023.1281403\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Objectives: </strong>Autoinjectors are pivotal for precise self-administration of medications across a wide range of medical conditions. Nevertheless, the absence of a dedicated Medical Device Development Tool (MDDT) for autoinjectors represents a gap that may result in variations in the quality and regulatory compliance of autoinjectors as components of combination products. This research aim is to utilize the recently introduced Primary Functions outlined in ISO 11608-1:2022 with the title \\\"Needle-based injection systems for medical use. Requirements and test methods. Part 1: Needle-based injection systems\\\" to create a comprehensive MDDT framework tailored specifically for autoinjectors.</p><p><strong>Methods: </strong>To support the creation of the framework, the analysis of the FDA MDDTs that were already approved, FDA's design controls regulations, FDA's guidance related to autoinjectors, and the Primary functions outlined in ISO 11608-1:2022 were utilized.</p><p><strong>Results: </strong>The research identifies the Primary Functions in autoinjector to be Holding Force, Cap Removal Force, Activation Force, Extended Needle Length, Injection Time, Dose Accuracy and Needle Guard Lockout. Leveraging these Primary Functions and the FDA's MDDT approach, the research aims to bridge the gap by proposing a structured framework for the development of a specific MDDT tailored to autoinjectors.</p><p><strong>Conclusion: </strong>This study presents a MDDT framework tailored to the development of autoinjectors for drug delivery. 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引用次数: 0
摘要
目标:自动注射器对于在各种医疗条件下精确地自行给药至关重要。然而,自动注射器专用医疗器械开发工具(MDDT)的缺乏是一个空白,可能会导致作为组合产品组成部分的自动注射器在质量和合规性方面出现差异。本研究旨在利用 ISO 11608-1:2022(标题为 "医用针式注射系统")中最近推出的主要功能。要求和测试方法。方法:为了支持该框架的创建,我们分析了已获批准的 FDA MDDT、FDA 的设计控制法规、FDA 与自动注射器相关的指南以及 ISO 11608-1:2022 中概述的主要功能:研究发现,自动注射器的主要功能包括保持力、瓶盖移除力、激活力、延长针头长度、注射时间、剂量准确性和针头保护锁定。本研究利用这些主要功能和 FDA 的 MDDT 方法,提出了一个结构化框架,用于开发专门针对自动注射器的 MDDT,从而弥补了这一差距:本研究提出了一个 MDDT 框架,专门用于开发用于给药的自动注射器。该框架提供了一种结构化方法,可支持自动注射器开发的可预测性和有效性,并支持监管审查流程,从而加快美国食品及药物管理局对作为组合产品一部分的自动注射器的审批。
Framework for creating a qualified medical device development tool of autoinjectors.
Objectives: Autoinjectors are pivotal for precise self-administration of medications across a wide range of medical conditions. Nevertheless, the absence of a dedicated Medical Device Development Tool (MDDT) for autoinjectors represents a gap that may result in variations in the quality and regulatory compliance of autoinjectors as components of combination products. This research aim is to utilize the recently introduced Primary Functions outlined in ISO 11608-1:2022 with the title "Needle-based injection systems for medical use. Requirements and test methods. Part 1: Needle-based injection systems" to create a comprehensive MDDT framework tailored specifically for autoinjectors.
Methods: To support the creation of the framework, the analysis of the FDA MDDTs that were already approved, FDA's design controls regulations, FDA's guidance related to autoinjectors, and the Primary functions outlined in ISO 11608-1:2022 were utilized.
Results: The research identifies the Primary Functions in autoinjector to be Holding Force, Cap Removal Force, Activation Force, Extended Needle Length, Injection Time, Dose Accuracy and Needle Guard Lockout. Leveraging these Primary Functions and the FDA's MDDT approach, the research aims to bridge the gap by proposing a structured framework for the development of a specific MDDT tailored to autoinjectors.
Conclusion: This study presents a MDDT framework tailored to the development of autoinjectors for drug delivery. This framework provides a structured methodology to support predictability and effectiveness of the autoinjector development and support regulatory review process, thereby expediting FDA approval for autoinjectors as part of combination product.
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