Good Laboratory Practice (GLP) Lecture 12 PDF

Summary

This document provides an overview of Good Laboratory Practice (GLP) and Good Manufacturing Practice (GMP). It covers different aspects of GLP, such as equipment maintenance, procedural standards, and staff training critical for proper analysis in a laboratory setting.

Full Transcript

Good Laboratory Practice
BIOT6002: Lecture 12
Lecturer: Caroline A Browne, Ph.D.
Learning Objectives
Define
GLP
GMP
Describe sources of error in GLP
Good Laboratory Practice (GLP) &
Good Manufacturing Practice (GMP)
Internal quality control (IQC) procedures are designed to detect & distinguish
between systematic and random error
The source of error must be identified to eliminate it.
Good Laboratory Practice (GLP) involves all aspects of the laboratory which is
involved in generating as analytical result.
Good Manufacturing Practice (GMP) ensure that manufactured products
meet quality standards by setting specifications and requirements for the
process by which they are produced and tested.
Gool Laboratory Practice (GLP)
Quality management programs
First adopted in 1972 in Denmark and New Zealand.
US Food and Drug Authority (FDA) released GLP regulations in 1978-79.
EMA regulates GLP for the EEC.
Directive 2004/9/EC and Directive 2004/10/EC.
To ensure testing in a preclinical or product development context is done
using reliable methods and excellent recordkeeping so that companies can
provide regulatory bodies with accurate and auditable data.
Applied to premarket or preclinical research and testing in regulated
industries including pharmaceuticals, animal health products and
medicated feed, food additives, medical devices, and food packaging.
Good Manufacturing Practice (GMP)
In the US, GMPs are Food and Drug Administration (FDA) regulations that
apply to the manufacture of pharmaceuticals, medical devices, some foods,
dietary supplements, and a few other products.
GMP regulations are far-ranging and apply to not only testing but every step
of the manufacturing process. The focus is on promoting consumer safety
by preventing things like cross-contamination, microbial contamination, or
lack of drug efficacy due to problems in the manufacturing process.
In the US, “current GMP” (cGMP) is a synonym for GMP, as cGMPs specify the
FDA’s minimum requirements for manufacturers. The FDA adopted the term
“current GMP” to emphasize that manufacturers need to continually re-
evaluate their manufacturing practices to stay up-to-date as technology
changes in their industry.
EMA regulations for GMP
Regulation No. 1252/2014 applying to active substances for human use;
Directive 2001/83/EC and Directive (EU) 2017/1572, applying to medicines
for human use;
Directive 91/412/EEC and Regulation (EU) 2019/6 applying to medicines for
veterinary use.
Directive 2001/20/EC and Regulation (EU) 536/2014 applying to
Investigational medicinal products.
Five Ps of GMP (US)
People involved in manufacturing must be trained in cGMPs and in their roles
and responsibilities in maintaining quality.
Products must be produced according to the standard operating procedures
(SOPs) and must be appropriately tested before release to consumers.
Processes should be well-designed, well-documented, and understood by
all employees
Procedures must be standardized and maintained throughout the
manufacturing process.
Premises should be designed to reduce the risks of contamination and
accidental mislabelling.
There are requirements for washing facilities, sewage, lighting, and plumbing.
Testing equipment accuracy, sensitivity, specificity, and reproducibility must be
documented and must meet specifications.
GMP requirements in the EU
Quality Management
Personnel
Premises & equipment
Documentation
Production
Quality control
Contract manufacturing & analysis
Complaints & product recall
Self-inspection
GLP v’s GMP
GLPs focus on product development, and GMPs focus on production.
GLPs ensure pre-market data integrity - testing that occurs during product
development.
Roots in pharmaceutical industry, during preclinical drug development and the
generation of data for submission to obtain drug approval.
GLPs also apply to food and colour additives, food packaging, food contamination limits,
and medical devices, since developers of these products need to submit data to gain
regulatory approval as well.
GMP regulations apply when products are being manufactured to be sold to
consumers
Used for lot or batch testing, testing of ingredients from suppliers, and any other testing
that occurs during manufacturing.
GLP – Sources of Error
1. Equipment:
Written instructions should be located with
equipment (SOPs)
Laboratory should have program of regular
inspections, calibration, preventative
maintenance
Good records help locate sources of error
GLP – Sources of Error
Common laboratory equipment faults:
Pipettes, dispensers – contaminated, dirty
or incorrectly calibrated
Centrifuges – dirty, imbalanced
Spectrophotometers – shift in l accuracy,
stray light, changes in temperature
Cuvettes – dirty, scratched, mismatched
pH meters – improper calibration,
temperature effects
GLP – Sources of Error
2. Procedures
All methods must be standardised, fully
documented & appropriate for analysis
Standard Operating Procedures (SOPs)
should be available & contain details of
sample handling, analytical procedures &
QC measures & equipment to use.
Reagents & standards: impurity, instability,
improperly prepared, inadequately
labelled, incorrectly stored, contamination
GLP – Sources of Error
3. Staff
Must be trained with correct
responsibilities, techniques, SOPs, use
of equipment, record keeping.
4. Data:
Calculations: correct dilution factors,
calculation errors, correct units
Reports: transcribing errors of data,
misunderstanding of units, report
legible and correct, easy to interpret.
FDA guidelines on Analytical Method
Validation & Control
Validating the analytical method ensures that the data are
reliable by addressing certain key questions, including:
Does the method measure the intended analyte?
For example, does anything interfere with the measurement, and is the
method specific or selective for the analyte?
What is the variability associated with these measurements?
For example, what are the accuracy and precision of the method?
What is the range in measurements that provide reliable data?
For example, what is the sensitivity of the method (e.g., what is the lower
limit of quantitation (LLOQ) of the method, and what is the upper limit of
quantitation the method (ULOQ)?)
FDA guidelines on Analytical Method
Validation & Control
How do sample collection, handling, and storage affect the reliability of
the data from the bioanalytical method?
For example, what steps need to be followed while collecting samples? Do the
samples need to be frozen during shipping? What temperatures are required to
store the samples, and how long can the samples be stored?
Method development includes the optimization, validation & control of
the following bioanalytical parameters:
Reference standards Critical reagents Calibration curve Quality control
samples (QCs) Selectivity and specificity Sensitivity Accuracy Precision
Recovery Stability of the analyte in the matrix
U.S. Department of Health and Human Services Food and Drug
Administration Center for Drug Evaluation and Research (CDER) May
2018 Biopharmaceutics
Learning Objectives
Define
GLP
GMP
Describe sources of error in GLP