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January 01, 2004
Based on a German initiative, an international standard on quality management systems for the primary packaging materials of medicinal products is discussed in this article. This new directive will help to standardize the production of primary packaging materials by defining global requirements.
December 01, 2003
When implementing computerized systems, it is important that both purchasers and vendors ensure that each stage of the process (from planning through operation to modifying) is properly validated. This article looks at some of the issues that arise when switching from traditional document-based procedures, and at the benefits that computerized systems can bring.
The importance of calibrating instruments used in manufacturing processes is well known, particularly for highly regulated industries such as pharmaceutical production. This article discusses software applications used to support calibration management, and the potential economic gain to be had by replacing a standalone software application with a capable enterprise system.
The Six Sigma approach would appear to be ideally suited to pharmaceutical processes, yet the industry has been very slow to adopt it. This article looks at the possible reasons for this, and suggests an alternative methodology that takes advantage of Six Sigma tools and techniques, backed by good statistical principles.
November 01, 2003
With the advent of regulations such as 21 CFR Part 11 and the introduction of the electronic common technical document, it is becoming increasingly important to be able to enhance and fully utilize data management systems. Document change management is a vital tool in the construction and organization of valuable information, and can play a key role in the all-important process of getting a product to market.
Until specific audit trail requirements are available from the US Food and Drug Administration, manufacturers must define their own parameters for software system compliance and decide for themselves how to meet those requirements.
October 01, 2003
The aim of this study was to validate the automated clean-in-place (CIP) system installed on a capsule filling machine to determine its ability to adequately eliminate contaminants. The results obtained from the proposed cleaning validation trial showed that all the soluble tracer was removed after the washing procedure. At the end of the CIP procedure, the discharged water had the same pH, phosphate content and total organic content as the supplied water. Lack of cross-contamination in the product was also demonstrated and a recovery trial highlighted the complete elimination of the tracer from the machine.
September 01, 2003
More than 6 years have elapsed since the US Food and Drug Administration's (FDA's) 21 CFR Part 11 regulations regarding the use of electronic records and electronic signatures came into effect.1 In February 2003, FDA issued new draft guidance concerning the scope and application of Part 11, which describes how the agency intends to interpret and enforce the requirements during its ongoing re-examination of the regulations.2 Many people in the pharmaceutical industry have welcomed this new guidance and see it as a positive development that will lead to a simplified FDA approach to Part 11 and a significant reduction in the industry's compliance burden.
Paper batch records have been used for decades to record procedures, the type and quantity of each material used, and the status of each step in the manufacturing process for both pharmaceuticals and medical devices. Although paper batch records are less complicated to implement than their electronic counterparts, and the controls required for data recording and archival are well understood, a paper batch record system is laborious to maintain and prone to human error, which increases the compliance risk. Additionally, batch records have become bulky and more time consuming to prepare and review, particularly as manufacturing operations become increasingly complicated. Advances in technology and science have created a more competitive climate in life science industries than ever before, causing the need for manufacturers to reduce costs and time-to-market, and improve their ability to satisfy the compliance requirements of US Food and Drug Administration (FDA) regulations. The use of electronic batch recording systems (EBRS) and electronic batch records (EBR) offers one solution.
Part I of this article was published in the March 2003 issue of 21 CFR Part 11: Compliance and Beyond. In this issue, Part II discusses the potential advances and changes that must be made for computer validation to remain innovative and relevant to the industry.