1.1 本标准中描述的测试方法适用于用于（生物）医药产品的一次性制造设备，也称为一次性系统（SUSs）。 1.2 本标准中描述的试验方法不适用于主要容器、组合产品（由药物、装置或生物产品的任何组合组成的产品）或装置的一次性使用技术。涵盖主要容器完整性保证的文件中讨论了与这些产品相关的适当程序 ( 1. ) 2. 或医疗产品 ( 2- 4. ) . 1.3 测试方法及其验证仅涵盖空SUS和干SUS的测试。 SUS中的残留液体会影响测试的可靠性和再现性。 1.4 试验方法旨在确认供试品的阻隔性能，也称为完整性试验，或测试SUS是否存在某些尺寸的泄漏，也称为泄漏试验。 注1: 为了验证完整性测试可以确认SUS的预期屏障特性，其检测极限必须等于或优于各自的最大允许泄漏极限。 1.5 本标准涵盖的物理测试方法包括: 1.5.1 基于压力的试验方法。 1.5.2 基于示踪气体的试验方法。 1.6 所述物理测试方法通常不适用于- 具有破坏性，并允许进一步使用SUS。 注2: 一些变体可以以破坏性的方式使用，例如，对泄漏进行根本原因分析。 1.7 本标准描述了测试设备、操作程序、环境要求，并讨论了测试SUS的具体挑战，以及如何对测试方法进行稳健验证。 1.8 本标准不包括为保持SUS的阻隔性能而确定最大允许泄漏极限的方法。为此，请参考实践 E3244 和试验方法 E3251 . 1.9 本标准未描述如何选择适当的测试方法。 为此，请参考实践 E3244 . 1.10 此外，它没有讨论是否应进行完整性测试，测试频率以及在SUS生命周期中的位置。关于这一点，请参考实践 E3244 . 1.11 另外测试SUS完整性的滤膜完整性测试不在范围内。SUS的某些组件可能需要额外测试。 1.12 本标准并非旨在解决与其使用相关的所有安全问题（如有）。本标准的用户有责任在使用前制定适当的安全、健康和环境实践，并确定监管限制的适用性。 1.13 本国际标准是根据世界贸易组织技术性贸易壁垒（TBT）委员会发布的《关于制定国际标准、指南和建议的原则的决定》中确立的国际公认标准化原则制定的。 ====意义和用途====== 4.1 本标准中概述的测试方法允许（生物）制药过程中SUS的供应商和最终用户检测泄漏和/或确认空、清洁和干燥SUS的阻隔性能。执行完整性测试可以对SUS的整体完整性保证做出重大贡献。 4.2 本标准中概述的两种物理试验方法是: 4.2.1 部分 5. ，基于压力的测试方法。 4.2.2 部分 6. ，基于示踪气体的试验方法。 注3: 目前，其他测试方法正在适用于稳健、可靠和可再现的测试，例如，测试方法中所述的真空衰减测试方法 F2338 . 4.3 与示踪气体测试方法相比，基于压力的测试方法通常灵敏度较低，但复杂度和成本较低。为了帮助选择适合应用的方法，请参阅实践中的表1 E3244 以更详细地比较这两种方法。 4. 4. 这两种测试方法均可用于检测SUS中任何尺寸的泄漏（称为泄漏测试）或确认SUS的阻隔性能（称为完整性测试）。 4.5 为了确保对SUS进行的完整性测试有效且准确，必须考虑SUS的特性（压力能力、体积、材料特性等）。此外，还应对所选试验方法进行验证，如中所述 5.11 和 6.11 . 4.6 实践 E3244 应参考以确定SUS的最大允许泄漏极限，以及适用于每个应用的常规测试要求。 4.7 所述测试方法的目的不是在潜在缺陷出现之前对SUS施加应力。测试参数（主要是测试压力）与用例条件无关。在产品鉴定期间，应证明SUS在用例条件下的稳健性。 4.8 本标准试验方法描述了试验方法原理、仪器设计和方法验证。有关测试设置和测试SUS设计的更详细可视化，请参阅实践 E3244 以及更多说明性技术指南 ( 5. ) .

1.1 The test methods described in this standard are applicable for single-use manufacturing equipment, further called Single-use Systems (SUSs), used for (bio)pharmaceutical products. 1.2 The test methods described in this standard are not intended to be used on single-use technology for primary containers, combination products (products composed of any combination of a drug, device, or biological product), or devices. Appropriate procedures related to these products are discussed in documents covering the integrity assurance for primary containers ( 1 ) 2 or medical products ( 2- 4 ) . 1.3 The test methods and their validation are described to only cover testing of empty and dry SUSs. Residual liquid in the SUS can impact the test reliability and reproducibility. 1.4 The test methods are intended to be used to confirm the barrier properties of the test article, further called integrity testing, or test the SUS for leaks of certain sizes, further called leak testing. Note 1: To verify that an integrity test can confirm the intended barrier properties of the SUS, its detection limit must be equal or better than the respective maximum allowable leakage limit. 1.5 The physical test methods covered by this standard are: 1.5.1 Pressure-based test methods. 1.5.2 Tracer gas-based test methods. 1.6 The physical test methods described are in general non-destructive and allow further use of the SUS. Note 2: Some variations can be used in a destructive way, for example, to perform root cause analysis of the leak. 1.7 The standard describes the test apparatuses, operation procedures, environment requirements, and discusses specific challenges with testing SUSs, as well as how to perform robust validation of the test method. 1.8 This standard does not include methods to determine the maximum allowable leakage limit for maintaining the barrier properties of the SUS. For that, refer to Practice E3244 and Test Method E3251 . 1.9 This standard does not describe how to select the appropriate test method. For that, refer to Practice E3244 . 1.10 Furthermore, it does not discuss whether an integrity test should be conducted, at what frequency and where in the life cycle of a SUS. For that refer to Practice E3244 . 1.11 Filter membrane integrity testing that additionally tests the integrity of the SUS is excluded from the scope. Certain components of the SUS may require additional testing. 1.12 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use. 1.13 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. ====== Significance And Use ====== 4.1 The test methods outlined in this standard allow for suppliers and end users of SUSs in (bio)pharmaceutical manufacturing processes to detect a leak and/or confirm the barrier properties of empty, clean, and dry SUSs. Performing integrity testing can be a significant contribution to the overall integrity assurance of SUSs. 4.2 The two types of physical test methods outlined in this standard are: 4.2.1 Section 5 , Pressure-Based Test Methods. 4.2.2 Section 6 , Tracer Gas-Based Test Methods. Note 3: Other test methods are currently being adapted for robust, reliable, and reproducible testing SUS, for example, Vacuum Decay Test Method as described in Test Method F2338 . 4.3 Pressure-based test methods are generally less sensitive compared to tracer gas-based test methods but have a lower complexity and cost. To assist in selecting a method that will fit an application, refer to Table 1 in Practice E3244 for a more detailed comparison of the two methods. 4.4 Both types of test methods can be used to detect leaks of any sizes in a SUS (referred to as leak testing) or confirm the barrier properties of the SUS (referred to as integrity testing). 4.5 To ensure that integrity testing performed on SUSs is effective and accurate, the properties of the SUS (pressure capabilities, volume, material properties, etc.) must be considered. Also, a validation should be performed on the chosen test method as further described in 5.11 and 6.11 . 4.6 Practice E3244 should be referenced to determine the maximum allowable leakage limit for a SUS, along with the routine testing requirements that are suitable for each application. 4.7 The purpose of the described test methods is not to stress the SUS until a potential defect occurs. The testing parameters, mainly test pressure, are independent from the use-case conditions. The robustness of the SUS under use-case conditions should be proven during product qualification. 4.8 This standard test method describes the test method principles, the apparatus designs, and method validations. For more detailed visualization of test setups and tested SUS designs, refer to Practice E3244 and more illustrative technical guides ( 5 ) .