MAVF Session 3 Cleaning Lab Studies PDF
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Summary
This presentation details laboratory cleaning studies and the cleaning validation life cycle, stage 1. It covers topics like worst-case soiling materials, product characterization, active cleaning limits, residue limits, and various cleaning methods. The presentation also touches upon the design of cleaning processes and the factors that affect cleaning efficiency.
Full Transcript
SESSION 3: CLEANING LABORATORY STUDIES STAGE 1 OF THE CLEANING VALIDATION LIFE CYCLE CONTENTS Worst-case soiling material (Experiment Product Characterization) Product Characterization Assessment Active Cleaning Limits Residue Limits TACT Worst-case soiling material (Experiment...
SESSION 3: CLEANING LABORATORY STUDIES STAGE 1 OF THE CLEANING VALIDATION LIFE CYCLE CONTENTS Worst-case soiling material (Experiment Product Characterization) Product Characterization Assessment Active Cleaning Limits Residue Limits TACT Worst-case soiling material (Experiment Product Characterization) LAB SCALE STUDIES AND SCIENTIFIC ANALYSIS Simple and recommended workflow to effectively use DoE (Design of Equipment): 1. Perform an Ishikawa analysis of parameters potentially affecting the cleaning process 2. Perform a definitive screening design of the hardest-to-clean product to identify critical factors from the Ishikawa analysis 3. Use DoE of the critical factors on the hardest-to-clean product to select parameter settings and optimize the cleaning process 4. Determine the cleanability of all products to identify the hardest-to-clean CONTENTS Worst-case soiling material (Experiment Product Characterization) Product Characterization Assessment Active Cleaning Limits Residue Limits TACT Product Characterization Assessment SCIENTIFIC ANALYSIS – PRODUCT AND MATERIAL CHARACTERIZATION Product Characterization Assessment Component Name Chemical Composition Organic / Inorganic Molecular Weight Concentration LD50 Toxicity Carbon content based on actual concentration Viscosity Product Characterization Assessment SCIENTIFIC ANALYSIS – PRODUCT AND MATERIAL CHARACTERIZATION Product Characterization Assessment Degradation Time Frame Solubility Solubility Index Cleanability Added to Process Stage Rationale and Purpose of Usage in the product Reference Material CONTENTS Worst-case soiling material (Experiment Product Characterization) Product Characterization Assessment Active Cleaning Limits Residue Limits TACT TACT TACT CRITICAL PROCESS PARAMETERS FOR CLEANING Time Action Concentration / Chemistry Temperature CONTENTS Worst-case soiling material (Experiment Product Characterization) Product Characterization Assessment Active Cleaning Limits Residue Limits TACT Active Cleaning Limits WORST-CASE DETERMINATION Crucial Step In Defining Contamination Limits Batch Solubility Contact Toxicity Release Cleanability mechanism size Potency Area Activesoiling Worst-case Cleaning material (Experiment Product Limits Characterization) WHAT ARE BEING REMOVED Active Ingredient Decomposition product of active ingredient Microbial contamination Endotoxins Sanitizing agent Lubricant Environmental Dust Residual rinse water Activesoiling Worst-case Cleaning material (Experiment Product Limits KEY ELEMENTS TO CONSIDER IN Characterization) DESIGN Equipment to be cleaned Soils to be removed Cleaning methods Cleaning agents Cleaning mechanism Cleaning parameters Residue limits Activesoiling Worst-case Cleaning material (Experiment Product Limits Characterization) SOIL TYPES Actives, excipients, process materials, bioburden, endotoxin Amount of soils on surfaces Nature of soils on surfaces Freshly deposited Dried on during process Dried on during DHT Baked on during process Compacted Activesoiling Worst-case Cleaning material (Experiment Product Limits Characterization) CLEANING EFFICIENY FACTORS Cleaning Solution Cleaning Agent Temperature Concentration Cleaning efficiency Solution Contact Time External Energy Activesoiling Worst-case Cleaning material (Experiment Product Limits Characterization) METHODS Extent of automation Extent of disassembly Fixed CIP Portable CIP Parts washer Ultrasonic Manual (soak, brush, wipe, spray) CONTENTS Worst-case soiling material (Experiment Product Characterization) Product Characterization Assessment Active Cleaning Limits Residue Limits TACT Residue Limits QUESTIONS ON RESIDUE LIMITS What residues tested? How clean is clean? How low? Analytical methods used for measuring residues can perhaps affect selection of cleaning process, but is not typically a limiting factor Residue Limits ANALYTICAL METHODS FOR CLEANING APPLICATIONS Residue specific assays Assay is unique to analyte Expensive, typically developed as part of the QC product analysis test suite Must be validated for use in cleaning application Residue non-specific assays Not unique to analyte Broad applications Residue Limits ANALYTICAL METHODS FOR CLEANING APPLICATIONS Residue Specific Non-specific Assay Assay Advantages Highly specific Less expensive Highly sensitive Broad applications High precision Disadvantages Poor precision Low specificity Detection of only active molecules Residue Limits RINSE WATER TESTING Relatively easy to perform Conducive to many analytical test methods Product specific (Bioassay, HPLC, LAL) Non-specific (pH, conductivity, TOC) Indirect measure of cleanliness Residue Limits SURFACE TESTING Visual and Swabbing Direct measure of cleanliness More difficult to perform – typically required some breakdown of equipment to access hard to reach areas Swab sampling a defined surface area allows for quantification of assay results Residue Limits SAMPLING AND TESTING METHODS Solvent Rinse Water Visual Surfac Swabbing e Contact plates - microbiological Residue Limits VISUAL DETECTION Can detect many compounds down to levels of