FDA Update: Inspections, Observations and Metrics - OMTEC 2017April Bright
This FDA-focused presentation offers a glimpse into trends behind three initiatives that orthopaedic device professionals need to fully understand: inspections, Case for Quality and 483 Observations. First, a high-level view of FDA inspections will discuss methodology and implementation. Second, FDA’s observations of non-compliance will be discussed, pointing out important historical trends. Finally, as the industry matures, professionals should expect changes to the breadth and depth of FDA’s focus. This is where Case for Quality and the Medical Device Metrics Initiative will be covered. FDA has placed an increased emphasis on data and metrics. Gain insight into ways to leverage data to improve, monitor and control processes that drive quality improvement.
This presentation will focus on the common types of deficiencies found by the TGA’s GMP Inspectors as well as some data on the number of inspections performed both locally and overseas and compliance rating outcomes for the inspections performed.
This Annex describes the principles of qualification and validation which are applicable to the facilities, equipment, utilities and processes used for the manufacture of medicinal products and may also be used as supplementary optional guidance for active substances without introduction of additional requirements to EudraLex, Volume 4, Part II. It is a GMP requirement that manufacturers control the critical aspects of their particular operations through qualification and validation over the life cycle of the product and process. Any planned changes to the facilities, equipment, utilities and processes, which may affect the quality of the product, should be formally documented and the impact on the validated status or control strategy assessed. Computerised systems used for the manufacture of medicinal products should also be validated according to the requirements of Annex 11. The relevant concepts and guidance presented in ICH Q8, Q9, Q10 and Q11 should also be taken into account.
Highlights of the guidance are given in following presentation.
FDA Update: Inspections, Observations and Metrics - OMTEC 2017April Bright
This FDA-focused presentation offers a glimpse into trends behind three initiatives that orthopaedic device professionals need to fully understand: inspections, Case for Quality and 483 Observations. First, a high-level view of FDA inspections will discuss methodology and implementation. Second, FDA’s observations of non-compliance will be discussed, pointing out important historical trends. Finally, as the industry matures, professionals should expect changes to the breadth and depth of FDA’s focus. This is where Case for Quality and the Medical Device Metrics Initiative will be covered. FDA has placed an increased emphasis on data and metrics. Gain insight into ways to leverage data to improve, monitor and control processes that drive quality improvement.
This presentation will focus on the common types of deficiencies found by the TGA’s GMP Inspectors as well as some data on the number of inspections performed both locally and overseas and compliance rating outcomes for the inspections performed.
This Annex describes the principles of qualification and validation which are applicable to the facilities, equipment, utilities and processes used for the manufacture of medicinal products and may also be used as supplementary optional guidance for active substances without introduction of additional requirements to EudraLex, Volume 4, Part II. It is a GMP requirement that manufacturers control the critical aspects of their particular operations through qualification and validation over the life cycle of the product and process. Any planned changes to the facilities, equipment, utilities and processes, which may affect the quality of the product, should be formally documented and the impact on the validated status or control strategy assessed. Computerised systems used for the manufacture of medicinal products should also be validated according to the requirements of Annex 11. The relevant concepts and guidance presented in ICH Q8, Q9, Q10 and Q11 should also be taken into account.
Highlights of the guidance are given in following presentation.
Provide recommendations and background information concerning computerised systems
Information will be of assistance to inspectors for training purposes and during the inspection
Where automated systems and electronic records are used in warehouses and similar establishments where GDP requirements are applicable, controls and disciplines outlined in this document, or a best practice alternatives are expected to be in place.
Vertically integrated companies (R&D, manufacturing and distribution) will already apply such controls and compliance measures.
International regulatory agencies have collaborated to produce this guidance.
Intended as a reference for regulated users, including their suppliers, in addition to regulatory inspectors and investigators.
Provides a logical explanation of the basic requirements for the implementation, validation and operation of computerised systems.
May be adapted to identify the criteria for a regulated user, or a regulatory agency, in an inspection of GxP computer systems.
National legislation should to be referred to when determining the extent to which the provisions laid down in this document may be applicable.
This presentation gives a summary of this guidance.
ISO 13485:2016 Transition Are You Prepared - OMTEC 2017April Bright
ISO 13485:2016 will apply across the whole supply chain and will address the entire lifecycle of a medical device. Key changes to the standard include harmonization of regulatory requirements; inclusion of risk management throughout the QMS; additional clarity with regard to validation, verification and design activities; strengthening of supplier control processes; increased focus regarding feedback mechanisms; software for QMS; manufacturing and the medical device. These changes require a well-thought-out plan for implementation by March 2019 and continuation of the standard thereafter.
This presentation will highlight the actions you should take now in order to successfully transition to the updated standard.
GVK Biosciences (GVK BIO) Clinical Research division has an independent Quality Assurance (QA) unit which conducts audits of services of all business lines within the division on a routine basis to ensure delivery of quality services. The Clinical Research QA staff report
to the Director-QA, GVK BIO who in turn reports to the CEO of GVK BIO
A primary mission of the Food and Drug Administration is to conduct comprehensive regulatory coverage of all aspects of production and distribution of drugs and drug products to assure that such products meet the 501(a)(2)(B) requirements of the Act. FDA has developed two basic strategies:
. 1) evaluating through factory inspections, including the collection and analysis of associated samples, the conditions and practices under which drugs and drug products are manufactured, packed, tested and held, and
. 2) monitoring the quality of drugs and drug products through surveillance activities such as sampling and analyzing products in distribution.
FDA compliance program “ Drug Manufacturing Inpsections” (7356.002) is designed to provide guidance for implementing the first strategy. Products from production and distribution facilities covered under this program are consistently of acceptable quality if the firm is operating in a state of control.
The inspectional guidance in this program is structured to provide for efficient use of resources devoted to routine surveillance coverage, recognizing that in-depth coverage of all systems and all processes is not feasible for all firms on a biennial basis. It also provides for follow-up compliance coverage as needed.
“Drug Regulations” has prepared a summary from the compliance programme and is given below in the presentation.
WHO has recently issued draft document titled "Guidelines on Validation". These guidelines (i.e., the main text included in this working document) cover the general principles of validation and qualification.
These guidelines focus mainly on the overall concept of validation and are not intended to be prescriptive in specific validation requirements. This document serves as general guidance only and the principles may be considered useful in its application in the manufacture and control of starting materials and finished pharmaceutical products (FPPs), as well as other areas. Validation of specific processes and systems, for example, in sterile product manufacture, requires much more consideration and a detailed approach that is beyond the scope of this document. The general text in this document may be applicable to validation and qualification of premises, equipment, utilities, systems, processes, and procedures.
The draft on the specific topics, the appendices to this main text, will follow. The following is an overview on the appendices that are intended to complement the text of this working document:
Appendix 1: Validation of heating, ventilation and air-conditioning systems - will be replaced by cross reference to WHO Guidelines on GMP for HVAC systems for considerations in qualification of HVAC systems (update - working document QAS/15.639/Rev. 1)
Appendix 2: Validation of water systems for pharmaceutical use - will be replaced by cross-reference to WHO Guidelines on water for pharmaceutical use for consideration in qualification of water purification systems
Appendix 3: Cleaning validation - consensus to retain
Appendix 4: Analytical method validation - update in process
Appendix 5: Validation of computerized systems - update in process
Appendix 6: Qualification of systems and equipment - update in process
Appendix 7: Non-sterile process validation - update already published as Annex 3, WHO Technical Report Series, No. 992, 2015
Comments on this draft document are due by July 12, 2016.
A presentation on this guidance is given below:
Presentation on New WHO Guidance on Validations
This presentation covers the manufacture and testing of all sterile drug products, including drugs that are sterilized by filtration or other means and aseptically processed, and drug products that are terminally sterilized. The type of products covered include sterile bulk drugs, ophthalmic drugs, otic dosage forms, small volume parenteral (SVS) products for small molecule and licensed biological
therapeutic drug products, large volume parenteral (LVP) products, and any other drug products required to be sterile or labeled as sterile. Center for Biologics Evaluation and Research (CBER) regulated products and veterinary drug products are excluded from coverage under this program.
The guidance information is tailored to sterile manufacturing operations and should be used in conjunction with the Compliance Program for Drug Manufacturing Inspections (CP 7356.002).
This presentation gives a overview of the new FDA draft guidance on Analytical Method Validation and compares it with the older version issued in the year 2000.
This presentation correlates the requirements of Annex 11 guidelines to other official regulations and guidance documents.
The correlation is organized in a tabular format.
In the row lists the contents of Annex 11 together with the paragraph numbers.
Rest of the rows correlate the section numbers of
Annex 11 Versions 1993
US FDA 21 CFR Part 211
US FDA Part 820 and
US FDA 21 CFR Part 11
Provide recommendations and background information concerning computerised systems
Information will be of assistance to inspectors for training purposes and during the inspection
Where automated systems and electronic records are used in warehouses and similar establishments where GDP requirements are applicable, controls and disciplines outlined in this document, or a best practice alternatives are expected to be in place.
Vertically integrated companies (R&D, manufacturing and distribution) will already apply such controls and compliance measures.
International regulatory agencies have collaborated to produce this guidance.
Intended as a reference for regulated users, including their suppliers, in addition to regulatory inspectors and investigators.
Provides a logical explanation of the basic requirements for the implementation, validation and operation of computerised systems.
May be adapted to identify the criteria for a regulated user, or a regulatory agency, in an inspection of GxP computer systems.
National legislation should to be referred to when determining the extent to which the provisions laid down in this document may be applicable.
This presentation gives a summary of this guidance.
ISO 13485:2016 Transition Are You Prepared - OMTEC 2017April Bright
ISO 13485:2016 will apply across the whole supply chain and will address the entire lifecycle of a medical device. Key changes to the standard include harmonization of regulatory requirements; inclusion of risk management throughout the QMS; additional clarity with regard to validation, verification and design activities; strengthening of supplier control processes; increased focus regarding feedback mechanisms; software for QMS; manufacturing and the medical device. These changes require a well-thought-out plan for implementation by March 2019 and continuation of the standard thereafter.
This presentation will highlight the actions you should take now in order to successfully transition to the updated standard.
GVK Biosciences (GVK BIO) Clinical Research division has an independent Quality Assurance (QA) unit which conducts audits of services of all business lines within the division on a routine basis to ensure delivery of quality services. The Clinical Research QA staff report
to the Director-QA, GVK BIO who in turn reports to the CEO of GVK BIO
A primary mission of the Food and Drug Administration is to conduct comprehensive regulatory coverage of all aspects of production and distribution of drugs and drug products to assure that such products meet the 501(a)(2)(B) requirements of the Act. FDA has developed two basic strategies:
. 1) evaluating through factory inspections, including the collection and analysis of associated samples, the conditions and practices under which drugs and drug products are manufactured, packed, tested and held, and
. 2) monitoring the quality of drugs and drug products through surveillance activities such as sampling and analyzing products in distribution.
FDA compliance program “ Drug Manufacturing Inpsections” (7356.002) is designed to provide guidance for implementing the first strategy. Products from production and distribution facilities covered under this program are consistently of acceptable quality if the firm is operating in a state of control.
The inspectional guidance in this program is structured to provide for efficient use of resources devoted to routine surveillance coverage, recognizing that in-depth coverage of all systems and all processes is not feasible for all firms on a biennial basis. It also provides for follow-up compliance coverage as needed.
“Drug Regulations” has prepared a summary from the compliance programme and is given below in the presentation.
WHO has recently issued draft document titled "Guidelines on Validation". These guidelines (i.e., the main text included in this working document) cover the general principles of validation and qualification.
These guidelines focus mainly on the overall concept of validation and are not intended to be prescriptive in specific validation requirements. This document serves as general guidance only and the principles may be considered useful in its application in the manufacture and control of starting materials and finished pharmaceutical products (FPPs), as well as other areas. Validation of specific processes and systems, for example, in sterile product manufacture, requires much more consideration and a detailed approach that is beyond the scope of this document. The general text in this document may be applicable to validation and qualification of premises, equipment, utilities, systems, processes, and procedures.
The draft on the specific topics, the appendices to this main text, will follow. The following is an overview on the appendices that are intended to complement the text of this working document:
Appendix 1: Validation of heating, ventilation and air-conditioning systems - will be replaced by cross reference to WHO Guidelines on GMP for HVAC systems for considerations in qualification of HVAC systems (update - working document QAS/15.639/Rev. 1)
Appendix 2: Validation of water systems for pharmaceutical use - will be replaced by cross-reference to WHO Guidelines on water for pharmaceutical use for consideration in qualification of water purification systems
Appendix 3: Cleaning validation - consensus to retain
Appendix 4: Analytical method validation - update in process
Appendix 5: Validation of computerized systems - update in process
Appendix 6: Qualification of systems and equipment - update in process
Appendix 7: Non-sterile process validation - update already published as Annex 3, WHO Technical Report Series, No. 992, 2015
Comments on this draft document are due by July 12, 2016.
A presentation on this guidance is given below:
Presentation on New WHO Guidance on Validations
This presentation covers the manufacture and testing of all sterile drug products, including drugs that are sterilized by filtration or other means and aseptically processed, and drug products that are terminally sterilized. The type of products covered include sterile bulk drugs, ophthalmic drugs, otic dosage forms, small volume parenteral (SVS) products for small molecule and licensed biological
therapeutic drug products, large volume parenteral (LVP) products, and any other drug products required to be sterile or labeled as sterile. Center for Biologics Evaluation and Research (CBER) regulated products and veterinary drug products are excluded from coverage under this program.
The guidance information is tailored to sterile manufacturing operations and should be used in conjunction with the Compliance Program for Drug Manufacturing Inspections (CP 7356.002).
This presentation gives a overview of the new FDA draft guidance on Analytical Method Validation and compares it with the older version issued in the year 2000.
This presentation correlates the requirements of Annex 11 guidelines to other official regulations and guidance documents.
The correlation is organized in a tabular format.
In the row lists the contents of Annex 11 together with the paragraph numbers.
Rest of the rows correlate the section numbers of
Annex 11 Versions 1993
US FDA 21 CFR Part 211
US FDA Part 820 and
US FDA 21 CFR Part 11
Paperlit - Digital Publishing Software for Magazines and BrandsPaperlit
Paperlit is a digital publishing software making it easy for magazine publishers and brands to create interactive mobile-optimized publications and branded mobile app. Distribute your mobile publications, sell digital editions, grow your mobile audience and monetize your content! See how you can increase circulation & advertising revenues by monetizing your app traffic.
Quality by Design Principles Applied to Sterilizing Filtration by Michael PayneMilliporeSigma
Key regulatory documents and regulatory thinking now includes quality by design (QbD). This webinar focuses on how to integrate practical QbD activities into the process and analytical aspects of sterile medicinal product sterilizing filtration and qualification.
In this webinar, you will learn to:
• Focus on practical QbD terms and approaches
• Highlight critical product quality aspects of sterile medicinal products
• Develop design and control spaces for sterilizing filtration
• Easily integrate QbD into the process and analytical operations in early phase development and into manufacturing phase production
Abstract:
Final sterilizing filtration is the last operation in downstream processing to assure the sterility of medicinal products. Poorly defined product attributes process parameters may attract regulatory scrutiny, affect final product sterility and patient safety. A better understanding of QbD concepts and principles allows for better process and analytical monitoring and control at both early and final phase production. The webinar will show how currently available process cGMP information can be practically incorporated into QbD product quality attributes and process parameters. This is especially vital for the third party conducted laboratory work such as bacterial retention and leachable studies.
Quality by Design Principles Applied to Sterilizing Filtration by Michael PayneMerck Life Sciences
Key regulatory documents and regulatory thinking now includes quality by design (QbD). This webinar focuses on how to integrate practical QbD activities into the process and analytical aspects of sterile medicinal product sterilizing filtration and qualification.
In this webinar, you will learn to:
• Focus on practical QbD terms and approaches
• Highlight critical product quality aspects of sterile medicinal products
• Develop design and control spaces for sterilizing filtration
• Easily integrate QbD into the process and analytical operations in early phase development and into manufacturing phase production
Abstract:
Final sterilizing filtration is the last operation in downstream processing to assure the sterility of medicinal products. Poorly defined product attributes process parameters may attract regulatory scrutiny, affect final product sterility and patient safety. A better understanding of QbD concepts and principles allows for better process and analytical monitoring and control at both early and final phase production. The webinar will show how currently available process cGMP information can be practically incorporated into QbD product quality attributes and process parameters. This is especially vital for the third party conducted laboratory work such as bacterial retention and leachable studies.
Participate in the full, interactive on-demand webinar here: https://bit.ly/ProcessValWebinar
Process validation is a complex step in the transition to commercial scale manufacturing. While Quality By Design (QBD) is the standard option for a risk-mitigating process validation strategy, there are other options for more flexibility and speed. Join our webinar to learn how outsourcing to a CDMO, able to take an adaptive, risk-based validation approach, will accelerate your time to market.
In this webinar, you will discover more about:
• How outsourcing to a CDMO partner in late-stage will increase flexibility and speed
• How a risk-based approach can help you optimize your process validation strategy
• How we have implemented a risk-based approach for our clients via case studies
The successful development of a biosimilar presents unique challenges compared to that of an innovator biologic. In particular, one must prove the biosimilar candidate's structural and functional differences do not have a meaningful impact on the clinical safety and efficacy profile already established for the innovator. Comprehensive and rigorous analytical testing to assess biosimilarity is thus the foundation upon which the successful development of a biosimilar begins.
FDA Process Validation Guidance (Guidance for Industry: Process Validation- General Principles and Practices, Jan. 2011) outlines process validation activities in three stages - Stage 1: Process Design, Stage 2: Process Qualification and Stage 3: Continued Process Verification. Completion of Stage 2 subsequent to Stage 1 is a major milestone in the Process Validation Lifecycle as it confirms the process design and demonstrates the expected consistent performance of the manufacturing process. Knowledge and information gained from the design stage through the process qualification stage is used to complete this assessment. Stage 2 demonstrates suitability for successful commercial distribution where the data indicates that the process meets the conditions established in the protocol. Continued Process Verification is initiated for the subsequent commercial batches. Stage 3 assures that the process remains in a state of control during commercial manufacture.
This presentation gives a practical approach to implement the stage 3 of the FDA Process Validation Guide.
Global Manager Group has published this ppt presentation to give knowledge about what primary BRC documents are required for BRC Food Issue 8 Certification and how BRC documentation kit helps you.
For further information about BRC food issue 8 documentation requirements visit @ https://www.globalmanagergroup.com/
#Stabicon product certification process management strives to improve processes and align the needs of regulatory with client objectives on quality product distribution channel. This gives transparency to the process making it more efficient. It include review and testing process to validate that certified products meet certain standards and comply with a stated designed specification/requirement. Product certification process works towards improving efficiency across the various project stakeholders by helping product evaluation and implement best practices.
This document has been prepared to provide a summary on the changes between ISO 13485:2003 and ISO 13485:2016. The documents contains the following:
a. Benefits of the new version of the standard.
b. Few key definitions
c. Mapping between the versions as per ISO.org.
d. Summary of key changes between the versions of the standard
Concept to commercialization document gives an insight into the basic prerequisites of the technical & commercial process being followed at Stabicon. Its key input includes various segments of unmet needs in the Quality Management and address development, Analytical and services and innovation technology. Also a simplified business model along with our concept to completion laboratory design gives Stabicon additional efficiency & viability to our clients.
Similar to Stored Biospecimen QC/QA Trends 2015 (20)
Toxic effects of heavy metals : Lead and Arsenicsanjana502982
Heavy metals are naturally occuring metallic chemical elements that have relatively high density, and are toxic at even low concentrations. All toxic metals are termed as heavy metals irrespective of their atomic mass and density, eg. arsenic, lead, mercury, cadmium, thallium, chromium, etc.
Deep Behavioral Phenotyping in Systems Neuroscience for Functional Atlasing a...Ana Luísa Pinho
Functional Magnetic Resonance Imaging (fMRI) provides means to characterize brain activations in response to behavior. However, cognitive neuroscience has been limited to group-level effects referring to the performance of specific tasks. To obtain the functional profile of elementary cognitive mechanisms, the combination of brain responses to many tasks is required. Yet, to date, both structural atlases and parcellation-based activations do not fully account for cognitive function and still present several limitations. Further, they do not adapt overall to individual characteristics. In this talk, I will give an account of deep-behavioral phenotyping strategies, namely data-driven methods in large task-fMRI datasets, to optimize functional brain-data collection and improve inference of effects-of-interest related to mental processes. Key to this approach is the employment of fast multi-functional paradigms rich on features that can be well parametrized and, consequently, facilitate the creation of psycho-physiological constructs to be modelled with imaging data. Particular emphasis will be given to music stimuli when studying high-order cognitive mechanisms, due to their ecological nature and quality to enable complex behavior compounded by discrete entities. I will also discuss how deep-behavioral phenotyping and individualized models applied to neuroimaging data can better account for the subject-specific organization of domain-general cognitive systems in the human brain. Finally, the accumulation of functional brain signatures brings the possibility to clarify relationships among tasks and create a univocal link between brain systems and mental functions through: (1) the development of ontologies proposing an organization of cognitive processes; and (2) brain-network taxonomies describing functional specialization. To this end, tools to improve commensurability in cognitive science are necessary, such as public repositories, ontology-based platforms and automated meta-analysis tools. I will thus discuss some brain-atlasing resources currently under development, and their applicability in cognitive as well as clinical neuroscience.
Professional air quality monitoring systems provide immediate, on-site data for analysis, compliance, and decision-making.
Monitor common gases, weather parameters, particulates.
DERIVATION OF MODIFIED BERNOULLI EQUATION WITH VISCOUS EFFECTS AND TERMINAL V...Wasswaderrick3
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2. Stored Biospecimen QC/QA Trends
2015
Executive Summary
This market report summarizes the results of HTStec’s industry-
wide global web-based benchmarking survey on the emerging
requirements for the QC/QA (quality control/quality assurance) of
frozen stored biospecimens carried out in September 2015.
The survey was initiated by HTStec on behalf of a client who is a
technology developer that plans to launch a new assay kit for
biospecimen QC/QA. Their technology allows for an aliquot to be
removed for analysis without compromising the quality of the parent
sample. Biomarkers are then profiled in the aliquot permitting
assessment of pre-analytical events impacting quality and
downstream analytical results.
Purchase this report at
https://www.themarketreports.com/report/buy-
now/2520?license=Corporate_User_Price
www.themarketreports.com
3. Stored Biospecimen QC/QA Trends
2015
The main questionnaire consisted of 30 mainly multi-choice
questions. In addition, there were 7 questions related solely to
administration/survey demographics.
The survey collected 50 validated responses, of these 72% provided
comprehensive input.
Survey responses were geographically split: 42% North America;
42% Europe; 8% Asia (excluding Japan & China); 4% Rest of World;
and 4% China.
Survey respondents were drawn from persons who collect, store and
utilize frozen biospecimens for research purposes or those planning
future investigation.
More information available at
https://www.themarketreports.com/report/stored-biospecimen-qcqa-
trends-2015
www.themarketreports.com
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