ISPE Publishes ISPE Good Practice Guide: Good Engineering Practice (Second Edition)

05 November, 2021

ISPE announces the release of its latest Guide in November 2021, ISPE Good Practice Guide: Good Engineering Practice (Second Edition).

The ISPE Good Practice Guide: Good Engineering Practice (Second Edition) defines the practices and processes under Good Engineering Practice (GEP) that support and enable the design, delivery, and operation of engineered systems. The scope of GEP covers the complete lifecycle of engineering projects and engineered systems from conceptual design to retirement. This Guide considers the entire range of pharmaceutical engineering activity and identifies key attributes of GEP within it, including how GEP relates to and interfaces with GxP.

Updates for the second edition include alignment with current industry practice, particularly with respect to the ISPE Baseline® Guide: Commissioning and Qualification (Second Edition) which incorporates ASTM E2500, EU GMP Annex 15, ICH Q8, Q9, and Q10, and applicable regulatory guidance. This Good Practice Guide incorporates the concepts and application of Quality Risk Management (QRM), specifically the application of GEP as an enabler for QRM-based integrated Commissioning and Qualification (C&Q).

Running a business efficiently requires working practices that will deliver optimum value for a given scope of work. The adoption of GEP can lead to a balance of expenditure and activity in relation to benefits. Benefit is most likely gained when finite resources are focused on identified higher risk aspects or when high risk aspects are more intensely controlled to enable reliable delivery and seamless production. Specific potential benefits include facilitation of speed-to-market of regulated products through efficient delivery of manufacturing facilities and systems and an optimized level of quality oversight, commensurate with the maturity of established GEP.

Sr. Director, Manufacturing Technical Solutions
Project Farma
Co-Lead

This Guide considers the entire range of pharmaceutical engineering activity and identifies key attributes of GEP within it, including how GEP relates to and interfaces with GxP.

Co-Lead

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