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Process Validation

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Raw material. Supply variations (air, water, etc. ... Why Create a Validation Plan. Allows quick overview of validation activities ... – PowerPoint PPT presentation

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Title: Process Validation


1
Rocky Mountain RAPS
  • Process Validation
  • Presentation
  • 6/7/06
  • By Clay Anselmo

2
Learning Objectives
  • Understand the purpose of process validation.
  • Understand the key components of a good process
    validation (IQ, OQ, PQ).
  • Understand how these elements and their
    definitions have changed over the years.
  • Be able to categorize processes and determine the
    extent of validation required.
  • Understand documentation requirements for
    validation and the process for storage and
    retrieval of these documents.

3
Concepts and Definitions
  • Lets be perfectly clear!
  • Process Validation (QSR) Establishing by
    objective evidence (documented) that a process
    consistently produces a result or product meeting
    its pre-determined specifications.
  • Design (Product) Validation Establishing by
    objective evidence (documented) that device
    specifications conform with user needs and
    intended use(s).

4
Concepts and Definitions
  • Verification Confirmation by examination and
    provision of objective evidence that specified
    requirements have been fulfilled.
  • Prospective Validation A validation that
    establishes documented evidence that a product or
    process conforms to its specifications prior to
    final release of the product or process.
  • Retrospective Validation A validation that
    establishes evidence that a product or process
    performs to its specifications based on a review
    and analysis of historical performance data.

5
Concepts and Definitions
  • Installation Qualification (IQ)
  • Installation and Installation Conditions
    (electrical, air, water, etc.)
  • Calibration and Preventive Maintenance
  • Safety Features
  • Complete Documentation including equipment and
    software
  • Environmental Conditions
  • Training
  • Does NOT typically require statistically based
    sampling or data analysis

6
Concepts and Definitions
  • Operational Qualification (OQ)
  • Show equipment functionality over the range of
    specifications
  • Show equipment stability and capability in worst
    case conditions (considering all process inputs)
  • Equipment settings
  • Raw material
  • Supply variations (air, water, etc.)
  • Establishment of action and alert limits as
    appropriate
  • Confirmation of failure modes
  • Uses valid statistical methods for analysis of
    data and variation

7
Concepts and Definitions
  • Performance Qualification (PQ)
  • Demonstrate longer-term stability and capability
    of the process under nominal conditions
  • Evaluates acceptability of product against
    specification
  • Utilizes valid sampling and statistical
    techniques
  • Multiple Lots
  • Multiple Operators

8
Concepts and Definitions
  • WHEN IS IT NECESSARY TO PERFORM VALIDATION?
  • 21 CFR 820.75 Where the results of a process
    cannot be fully verified by subsequent inspection
    and test, the process shall be validated with a
    high degree of assurance
  • ISO 134852003 The organization shall validate
    any processes for production and service
    provision where the resulting output cannot be
    verified by subsequent monitoring and
    measurement. This includes any processes where
    deficiencies become apparent only after the
    product is in use or the service has been
    delivered.

9
GHTF Flow Chart
10
Concepts and Definitions
  • What/When Processes Should be Validated?
  • End product tests that verify device conformance
    to specifications and requirements
  • When destructive testing is required to show
    product conformance to specification
  • When even state-of-the-art testing methods cannot
    demonstrate conformance to specification
  • Process capability is unknown or it is suspected
    that the process is barely capable of meeting
    device specifications

11
Validation Overview
  • Define product requirements and specifications
  • Define process inputs/outputs and specifications
  • Plan the validation process
  • Develop Protocols
  • Test Method Verification / Validation
  • Measuring equipment suitability (i.e. gage RR)
  • IQ Installation Qualification
  • OQ Operational Qualification
  • PQ Performance Qualification
  • Execute Protocols
  • Compile and Analyze Data
  • Corrective Action and Re-execution as Necessary
  • Create / Approve Final Report

12
Validation Planning Elements
  • Why Create a Validation Plan
  • Allows quick overview of validation activities
  • Reduced approval cycle iteration
  • Pre-Requisites
  • Clear Requirements/Specifications
  • Basic Test Methods (verified or validated)
  • Test Definition/Description
  • Plan should include a clear description of each
    set of tests to be performed
  • Purpose
  • Plan should contain the purpose of each set of
    tests

13
Validation Planning Elements
  • Requirements
  • Plan should briefly describe the requirements for
    each set of tests and be traceable to product or
    process specifications
  • Acceptance Criteria
  • Plan should contain the general acceptance
    criteria for each set of tests or cross reference
    the location.
  • Analytical Techniques
  • Define the method for analyzing data using
    commonly accepted statistical techniques.

14
Protocol Development
  • All Validations should be executed per a formal,
    pre-approved protocol
  • Pre-approval is not a regulatory requirement,
    just a good practice that prevents delays and
    re-executions.
  • Protocol format is OPTIONAL but must include the
    following key sections
  • Purpose / Background
  • Configuration of product or process
  • Material and Equipment (including Calibration
    data)
  • Sampling, Data Analysis Methods
  • Test Procedure
  • Clear Acceptance Criteria

15
Protocol Development
  • Key Protocol Sections (cont.)
  • Data Sheets
  • Conclusions
  • Deviations
  • Revision History
  • Key Points
  • Provide background and justification for approach
  • Ensure test method is appropriate (verified or
    validated)
  • Protocol Review
  • Protocol Pre-Execution Approval

16
Validation Completion
  • Execution
  • Follow the protocol!
  • Note any deviations
  • Use good documentation practices
  • Sign the data sheets
  • Collect equipment calibration information
  • Make sure training is documented

17
Validation Completion
  • Final Report
  • May be an addition to protocol or a separate
    document
  • Summarize the results specifically related to
    each test or challenge
  • Document and justify your deviations
  • Deviations are not for changes to acceptance
    criteria
  • Document your data analysis
  • Reach formal conclusions regarding the overall
    outcome of the validation
  • Needs approval

18
Special Considerations
  • Deviations
  • Document all deviations from pre-approved
    procedure in the Deviations section of the
    protocol.
  • Changes to acceptance criteria should be
    documented in the protocol and re-approved prior
    to re-executing the testing.

19
Special Considerations
  • Test Method Verification
  • Suitability of Test Instrumentation
  • Gage Accuracy and Sensitivity
  • Operator Variation
  • Characterization of Alpha and Beta Errors
  • Training and Confirmation of Effectiveness
  • Yes, it applies to visual inspection, dimensional
    verification, and automated test methods

20
Software Validation
  • Equipment With Embedded Software
  • Software must be validated
  • Can be done stand-alone (if possible), or as a
    part of verifying equipment function (IQ or OQ)
  • Requires an understanding of the software logic
    and the functions to be utilized
  • Should include nominal/margin testing and error
    handling

21
Special Considerations
  • IQ / OQ / PQ
  • Question Does it really matter what goes where?
  • Answer Sometimes, if one validation activity
    depends on others. (i.e. training)
  • Question I often hear the terms PQ, PPQ, Product
    Performance Qualification, Process Performance
    Qualification. Whats the difference??
  • Answer These are often defined differently
    across organizations. However, typically PQ is
    the overarching term that refers to both process
    and product performance qualifications.

22
Common Mistakes
  • Poor Organization
  • Lack of program structure
  • Lack of templates and rules for ensuring program
    consistency
  • Poor Planning
  • No documentation to tie stand-alone validations
    together (i.e. Master Validation Plan)
  • No method to ensure re-validations occur when
    required (i.e. sterilization)
  • Poor Documentation
  • Little background information
  • Story not told
  • No links to CO/ECO process to ensure changes do
    not invalidate prior validation activities
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