Corporate Banner
Satellite Banner
Technology
Networks
Scientific Communities
 
Become a Member | Sign in
Home>Events>This Event
  Events - June 2013


QbD Lifecycle Management for Analytical Methods

20 Jun 2013 - 21 Jun 2013 - Edinburgh, UK



Bookmark and Share


A QbD and lifecycle management approach to analytical method development and qualification will result in a better understanding and fewer failures of analytical methods due to more robust methods which produce consistent, reliable, quality data throughout the lifecycle. This, in turn, will lead to less method transfer failures, OOS results and method "incidents" when used in the routine environment. As the industry is now applying Quality by Design (QbD) to process development, it is now being recognized that this is also the way forward to improve and standardise our approach to analytical procedures.

This two day training course presents a brief overview of method validation according to ICHQ2 (R1) and discusses the limitations of this approach in terms of its contribution to failure of methods with regards to method transfer and generation of OOS results later in the method lifecycle. It then illustrates that the lifecycle approach is a holistic process which embraces the philosophies of the traditional approach but results in more robust analytical procedures. Finally a comparison of the current approach (ICHQ2) and the QbD approach is presented.


The course focuses on HPLC methods; therefore experience in developing, validating and transferring analytical HPLC methods would be an advantage to participants.


The material is presented by means of slides, handouts and participation of the attendees through discussion, case studies and hands on group exercises.


Overview

This course is designed to provide training in how to apply Quality by Design and lifecycle management to the development and qualification of analytical methods. It aims to highlight the limitations of the current approach to method validation (ICHQ2) and the benefits to using the QbD approach. Although the QbD and Lifecycle management approach is not yet officially recognised for analytical methods, the course is based on the approach used for manufacturing processes and products as described in ICH Q8, Q9 and Q10.


The course emphasises practical issues such as:

  • Comparison of the traditional approach and QbD/lifecycle approach to analytical methods
  • Applying the QbD and lifecycle approach to development and qualification of analytical methods
  • Exploring and controlling variables of analytical methods

This course will deliver the tools to enable you to:

  • Consider a QbD and lifecycle management approach to analytical methods"
  •  Define an Analytical Target Profile
  • Recognise the importance of understanding method variables of individual methods
  • Develop more robust analytical methods

Who Should Attend?

This 2 day course is valuable for Managers, Supervisors, Laboratory Analysts and Associates involved in the development, validation, transfer or review of analytical methods in the Pharmaceutical and related industries with daily responsibilities in the following areas:

  • Quality Assurance
  • Quality Control Laboratory
  • Regulatory Affairs
  • Contract Laboratory
  • Analytical Development Laboratory
  • Training

Course Programme

Questions and answers will be taken throughout the duration of the course.

Day 1

8.45 am Registration and Coffee

9.15am

  • Introduction
  • Traditional approach to validation (ICHQ2)
  • Exercise
  • The limitations of this approach

10.45am Morning refreshments

11.00 am to 12.30pm

  • Discussion of current approach (Groups share experiences of method problems)
  • Definition of QbD
  • Overview of ICH Q8, Q9 and Q10
  • Applying QbD to analytical methods (The three stages)

12.30 pm Lunch

1.30 pm to 3.00 pm

Stage 1

  • Gather Knowledge
  • The Analytical Target Profile
  • Exercise

3.00 pm Afternoon refreshments

3.15 pm to 5.00pm

Method design and Method Understanding

  • Risk assessment (exercise)
  • Understanding and controlling variables (Robustness and Ruggedness)

Day 2

9.00 am to 10.15 am

  • Robustness study
  • Design of experiments

10.15 am Morning refreshments

10.30 am to 12.00 pm

  • Ruggedness study
  • Conclusion of Stage 1

12.00 pm Lunch

1.00 pm - 2.30 pm Stage 2 - Procedure Performance Qualification

2.30 pm Afternoon refreshments

2.45 pm to 4.30 pm

Stage 3 - The lifecycle approach

  • Continued method verification
  • Quality systems - Change control and trending
  • How can the QbD approach to translate to less method transfer failures"
  • Overview Comparison of Traditional and QbD approach
  • Advantages of QbD

4.30 pm End of course



Further information
Scientific News
Platelets are the Pathfinders for Leukocyte Extravasation During Inflammation
Findings from the study could help in the prevention and treatment of inflammatory pathologies.
ASMS 2016: Targeting Mass Spectrometry Tools for the Masses
The expanding application range of MS in life sciences, food, energy, and health sciences research was highlighted at this year's ASMS meeting in San Antonio, Texas.
Benchtop Automation Trends
Gain a better understanding of current interest in and future deployment of benchtop automated systems.
Manufactured Stem Cells to Advance Clinical Research
Clinical-grade cell line will enable development of new therapies and accelerate early-stage clinical research.
Dengue Virus Exposure May Amplify Zika Infection
Researchers at Imperial College London have found that the previous exposure to the dengue virus may increase the potency of Zika infection.
Gender Determination in Forensic Investigations
This study investigated the effectiveness of lip print analysis as a tool in gender determination.
Identifying Novel Types of Forensic Markers in Degraded DNA
Scientists have tried to verify the nucleosome protection hypothesis by discovering STRs within nucleosome core regions, using whole genome sequencing.
Proteins in Blood of Heart Disease Patients May Predict Adverse Events
Nine-protein test shown superior to conventional assessments of risk.
Higher Frequency of Huntington's Disease Mutations Discovered
University of Aberdeen study shows that the gene change that causes Huntington's disease is much more common than previously thought.
Starving Stem Cells May Enable Scientists To Build Better Blood Vessels
Researchers from the University of Illinois at Chicago College of Medicine have uncovered how changes in metabolism of human embryonic stem cells help coax them to mature into specific cell types — and may improve their function in engineered organs or tissues.
Scroll Up
Scroll Down
Skyscraper Banner

Skyscraper Banner
Go to LabTube
Go to eposters
 
Access to the latest scientific news
Exclusive articles
Upload and share your posters on ePosters
Latest presentations and webinars
View a library of 1,800+ scientific and medical posters
3,200+ scientific and medical posters
A library of 2,500+ scientific videos on LabTube
4,600+ scientific videos
Close
Premium CrownJOIN TECHNOLOGY NETWORKS PREMIUM FOR FREE!