Pharmaceutical products are produced to meet strict standards for effectiveness and quality. Every aspect of quality is assessed, taking into account the risks associated with the method of delivery (such as injection or ingestion) and the way they are manufactured (whether aseptic, terminally sterilized, or under less controlled conditions).
The document focuses on two aspects of this process: the quality of the manufacturing environment and the standards governing particle concentration limits that define a controlled environment. Cleanroom Panel System
The paper examines standards for physical testing (specifically EN ISO 14644-1:2015)1 and the regulatory guidelines (EU GMP Annex 1).2
ISO 14644-1, which became active in 1999, established the room classification standards within the ISO 14644 suite. It determines how a room should be classified and sets the maximum allowable particle count in a specific volume of air.
It is important to note that while ISO 14644 is widely adopted for cleanroom classification globally, there are variations in routine monitoring, especially when comparing ISO 14644 to EU and WHO GMP standards. The cleanroom's certification status should be determined before testing, and ISO 14644-1 defines three certification states.
The particle concentration limits for the cleanroom, exceeding a specified size, are outlined and provided in Table 1.
Table 1. Airborne particulate cleanliness classes for cleanroom and clean zones (as indicated in ISO 14644). Source: Particle Measuring Systems
These limits have been established in alignment with the standard using the following formula for the intermediate decimal classes:
The connection between the particle size and its prevalence in a population is determined by the function . When plotting particle size against concentration on a logarithmic scale, each class exhibits a slope of 2.08, as indicated in the Table above.
Figure 1. V Graphical representation of iso class concentrations limits for selected classes. Image Credit: Particle Measuring Systems
To certify a cleanroom or clean zone, the designation should include the following components:
For instance, consider unidirectional airflow device X, which is classified as an ISO Class 5 clean zone at 0.5 µm with (3520 n/m3) in the operational state.
To confirm the classification, the ISO 14644-1 standard outlines the necessary steps for compliance verification. Assuming a clean air device intended for use in an aseptic preparation area.
This area must meet the ISO Class 5 standard at 0.5 µm, which is equivalent to 10,000 particles per cubic foot (≡ 10,000 /ft3) in the operational state.
The room is 12 m by 5 m (60 m2) and has a worktable in the center of the room.
Figure 2. Diagram showing the locations for classification within the clean zone. Image Credit: Particle Measuring Systems
Figure 3. Maximum permitted particle concentration calculation. Image Credit: Particle Measuring Systems
Table 2. Number of sample locations required. Source: Particle Measuring Systems
According to ISO 14644-1:2015, the formula calculates a sample volume of 5.68 liters. Using a standard particle counter with a flow rate of 28.3 liters per minute, a 1-minute sample would exceed the minimum sample volume requirement. Therefore, to adhere to the specifications, a 1-minute sample at each of the 12 locations is required.
Table 3. Illustration of locations within the example clean zone and measurement results. Source: Particle Measuring Systems
This area satisfies the requirements for an ISO Class 5 clean zone at 0.5 µm and is now ready for its intended use. The room classification should be periodically reevaluated as determined by ISO 14644-2.3
The European Union GMP guidance for sterile manufacturing underwent a revision in 2003 to align with the shift from various cleanroom standards to a unified cleanroom standard, ISO 14644-1. This alignment is highlighted on the front page.
“Annex 1 of the EC Guide to Good Manufacturing Practice (GMP) provides supplementary guidance on the application of the principles and guidelines of GMP to sterile medicinal products. The guidance includes recommendations on standards of environmental cleanliness for clean rooms. The guidance has been reviewed in the light of the international standard EN/ISO 14644-1 and amended in the interests of harmonization but taking into account specific concerns unique to the production of sterile medicinal products.”
More specifically, the certification process for cleanrooms needed to adhere to the rules and format of ISO 14644-1 guidance. However, there were modifications in the ISO standard related to sterile medicinal products.
In response, a table of cleanroom certification values was established to align somewhat with ISO 14644-1. To ensure clarity, a series of notes accompanied this Table, though the initial Note 'a' caused some confusion.
The confusion was addressed in the 2008 release of EU GMP Annex 1, which clearly outlines three essential phases to be conducted.5
Each cleanroom and clean air device should first undergo classification. Subsequently, it should be regularly monitored to confirm the maintenance of conditions concerning product quality. The data collected from this monitoring should be reviewed in light of the risk to the quality of the finished product.
Table 4. EU GMP Annex 1:2008 room classification table. Source: Particle Measuring Systems
It is important to note that the limits in the EU GMP table slightly differ from those in the ISO 14644 standard.
To complete the necessary certification, it is crucial to understand the principles of ISO 14644-1, the certification of cleanrooms according to that standard, the rules regarding the number of sample points, sample point locations, sample volume at each location, and the statistical analysis of cleanroom data that must be followed.
However, instead of using the classification limits provided in ISO 14644-1, it is recommended to use the Table displayed above, as specified in the revised guidance document.
The GMP also defines other expectations, such as a sample volume of 1 m3 per sample location for Grade A or the use of minimum sample tubing length due to the high precipitation of 5.0 µm particles in transport tubing (ideally, no sample tubing should be used).
Additionally, the recertification of cleanrooms should adhere to the guidelines in ISO 14644-2, with annual recertification for ISO Grade 6 and higher and semi-annual recertification for ISO Grade 5.
Exceptions are made for extending the recertification period for ISO Grade 5 areas if a continuous monitoring system has been implemented. Suitable times for certification include media fills or simulated filling runs.
Produced from materials originally authored by Mark Hallworth from Particle Measuring Systems.
Particle Measuring Systems has 35 years experience designing, manufacturing, and servicing microcontamination monitoring instrumentation and software used for detecting particles in air, liquid, and gas stream as well as molecular contamination monitoring.
Specific applications include cleanroom monitoring, parenteral sampling, filter and in-line testing in deionized water and process chemicals, and point-of-use monitoring of inert gases and in-situ particle monitoring. Specialty monitoring includes parts cleanliness testing with a highly automated solution.
Whether you want to protect product or meet industry requirements, such as ISO 14644, USP 797, or GMP, Particle Measuring Systems has a large variety of particle counters and molecular monitors to meet your needs. With 35 years experience, we have the proven reliability to support your application.
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Last updated: Dec 6, 2023 at 7:20 AM
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