This document discusses the requirements and challenges for local language labeling in clinical trials. It covers the different types of documentation used, including single panel labels, booklets, and instructions for use leaflets. Producing documentation in multiple local languages presents challenges around translation, design constraints, managing variable data from different systems, and meeting country-specific regulatory requirements. Effective labeling requires coordination between various stakeholders to design, translate, approve, and print all necessary documentation while ensuring accurate and consistent information across languages and countries.
Counterfeit is a problem of product security.
A counterfeit product is an imitation which infringes upon a production monopoly held by either a state or corporation.
Infringing products are being produced and consumed in virtually all economies.
Counterfeiters and pirates target products where profit margins are high, taking into account the risks of detection, the potential penalties, the size of the markets that could be exploited and the technological and logistical challenges in producing and distributing products.
Pharma duplication remains the biggest area of concern as it is facing the highest level of threat and the consumer of pharmaceuticals products are the worst sufferers.
This document discusses anti-counterfeiting packaging. It begins by defining counterfeit drugs and products and providing statistics on the counterfeit drug industry. It then discusses the health and economic risks of counterfeit drugs. The document outlines various anti-counterfeiting technologies including overt features like holograms, covert features like microprinting, and track and trace technologies like serialization. It provides examples of different anti-counterfeiting packaging technologies and discusses their purpose in verifying authenticity and preventing counterfeiting.
Cenveo is a $2B packaging and labels company headquartered in Connecticut with over 100 facilities across North America, Asia, South America, and Central America. Labels and envelopes make up 58% of its revenue. It provides various packaging solutions like folding cartons, blister cards, shrink sleeves, and labels through sheetfed offset, flexographic, rotogravure, and digital printing. Cenveo has numerous certifications and serves various industries globally through its domestic and international manufacturing operations.
5 Finding the Right Carton Supplier White Paperdiggum3
How do product manufacturers navigate the myriad of choices between packaging suppliers. Begin by identifying the need, carton style, substrate, printing process, qualifications, cost, and capabilities as you narrow the field between integrated and independent carton converters.
This document provides information about global paperboard substrates that can be considered as alternatives to domestic U.S. paperboard for folding carton applications. It discusses various paperboard grades including solid bleached sulfate (SBS), coated recycled board (CRB), folding boxboard (FBB), coated unbleached kraft (CUK), and their international equivalents. It also profiles major paperboard producers around the world and notes some advantages and disadvantages to considering imported paperboard.
Global corrugated board packaging marketBarbarHinkle
The analysts authoring the report deeply studied each and every aspect of the business of key players operating in the Corrugated Board Packaging market.
Companies face four main challenges with label production: 1) new regulations, 2) a global economy, 3) changing requirements, and 4) the complexity of label design and production. A survey of medical device, pharmaceutical, and clinical trials companies found the top five labeling challenges are: 1) language management, 2) changing packaging/label requirements due to expansion, 3) UDI/GS1 requirements, 4) country of origin statements, and 5) standardizing and consolidating operations. The single biggest challenge companies face is language management.
Centralized Translation Processes: Overcoming Global Regulatory and Multiling...Scott Abel
Presented by Inna Kassatkina at Documentation and Training Life Sciences, June 23-26, 2008 in Indianapolis, IN.
Accurate translations of clinical trial documents play an important role in meeting global product demands. If not, mistakes from poorly done translations can result in product delays, cost overruns, or, even worse, contribute to malpractice or product liability lawsuits. Specifically, adhering to a documented process of free and informed consent as well as the proper translation of ICFs are crucial for protecting the subjects’ human rights. Communication problems and issues of true and informed consent may arise when a trial involves non-English speaking subjects. In this session, attendees learn to overcome the challenges of managing global content and to streamline and centralize the translation process.
* Managing Global Content: Specifically, in global clinical trials there is an overwhelming amount of information to manage. From source content creation to content management in multiple language, any life sciences professional involved in the global clinical trial process can benefit from project management approach to content management – from regulatory, financial, and efficiency perspectives.
* Streamlining Processes: Companies that are successful in managing translation of consent forms and other clinical trial materials, follow strict quality assurance procedures, be it with their on-staff translators or through a third-party translation agency. All documents are first translated, then edited, and finally proofread by experienced professional translators with clinical research background. In addition to that, translation memory tools are used, which reduce translation costs, ensure greater consistency of terminology throughout the document lifecycle, and contribute to faster turnarounds.
Counterfeit is a problem of product security.
A counterfeit product is an imitation which infringes upon a production monopoly held by either a state or corporation.
Infringing products are being produced and consumed in virtually all economies.
Counterfeiters and pirates target products where profit margins are high, taking into account the risks of detection, the potential penalties, the size of the markets that could be exploited and the technological and logistical challenges in producing and distributing products.
Pharma duplication remains the biggest area of concern as it is facing the highest level of threat and the consumer of pharmaceuticals products are the worst sufferers.
This document discusses anti-counterfeiting packaging. It begins by defining counterfeit drugs and products and providing statistics on the counterfeit drug industry. It then discusses the health and economic risks of counterfeit drugs. The document outlines various anti-counterfeiting technologies including overt features like holograms, covert features like microprinting, and track and trace technologies like serialization. It provides examples of different anti-counterfeiting packaging technologies and discusses their purpose in verifying authenticity and preventing counterfeiting.
Cenveo is a $2B packaging and labels company headquartered in Connecticut with over 100 facilities across North America, Asia, South America, and Central America. Labels and envelopes make up 58% of its revenue. It provides various packaging solutions like folding cartons, blister cards, shrink sleeves, and labels through sheetfed offset, flexographic, rotogravure, and digital printing. Cenveo has numerous certifications and serves various industries globally through its domestic and international manufacturing operations.
5 Finding the Right Carton Supplier White Paperdiggum3
How do product manufacturers navigate the myriad of choices between packaging suppliers. Begin by identifying the need, carton style, substrate, printing process, qualifications, cost, and capabilities as you narrow the field between integrated and independent carton converters.
This document provides information about global paperboard substrates that can be considered as alternatives to domestic U.S. paperboard for folding carton applications. It discusses various paperboard grades including solid bleached sulfate (SBS), coated recycled board (CRB), folding boxboard (FBB), coated unbleached kraft (CUK), and their international equivalents. It also profiles major paperboard producers around the world and notes some advantages and disadvantages to considering imported paperboard.
Global corrugated board packaging marketBarbarHinkle
The analysts authoring the report deeply studied each and every aspect of the business of key players operating in the Corrugated Board Packaging market.
Companies face four main challenges with label production: 1) new regulations, 2) a global economy, 3) changing requirements, and 4) the complexity of label design and production. A survey of medical device, pharmaceutical, and clinical trials companies found the top five labeling challenges are: 1) language management, 2) changing packaging/label requirements due to expansion, 3) UDI/GS1 requirements, 4) country of origin statements, and 5) standardizing and consolidating operations. The single biggest challenge companies face is language management.
Centralized Translation Processes: Overcoming Global Regulatory and Multiling...Scott Abel
Presented by Inna Kassatkina at Documentation and Training Life Sciences, June 23-26, 2008 in Indianapolis, IN.
Accurate translations of clinical trial documents play an important role in meeting global product demands. If not, mistakes from poorly done translations can result in product delays, cost overruns, or, even worse, contribute to malpractice or product liability lawsuits. Specifically, adhering to a documented process of free and informed consent as well as the proper translation of ICFs are crucial for protecting the subjects’ human rights. Communication problems and issues of true and informed consent may arise when a trial involves non-English speaking subjects. In this session, attendees learn to overcome the challenges of managing global content and to streamline and centralize the translation process.
* Managing Global Content: Specifically, in global clinical trials there is an overwhelming amount of information to manage. From source content creation to content management in multiple language, any life sciences professional involved in the global clinical trial process can benefit from project management approach to content management – from regulatory, financial, and efficiency perspectives.
* Streamlining Processes: Companies that are successful in managing translation of consent forms and other clinical trial materials, follow strict quality assurance procedures, be it with their on-staff translators or through a third-party translation agency. All documents are first translated, then edited, and finally proofread by experienced professional translators with clinical research background. In addition to that, translation memory tools are used, which reduce translation costs, ensure greater consistency of terminology throughout the document lifecycle, and contribute to faster turnarounds.
Orbis Clinical is a consulting firm focused on providing regulatory affairs, quality assurance, drug safety, and risk management expertise to biopharmaceutical clients. It has over 70 employees and has experienced strong revenue growth. Orbis Clinical delivers flexible, client-driven solutions through engaged consultants and a large virtual bench of additional experts.
In MakroCare whitepaper, we have compiled and simplified some of these new policies, revisions, regulatory amendments from registration, labeling, safety reporting, renewal, publishing /eCTD submission of last year and forthcoming years.
SDL How Global Life Sciences Leaders Solve the Customer Experience PuzzleChip Gettinger
Having the right global customer experience strategy that fully integrates global product labeling interactions with real world patient care is critical for beating competitors and earning your customers’ loyalty.’
Final thesis presentation. Presented in May 2007 at Pratt Institute, Design Management Department by Michael Melnick, Nicole Casey and Melanie Cohen
How can Design Management help identify creative assets and strategically allocate them to make improvements for the global leather Industry?
The document outlines the six elements of the quality control process for a Trial Master File: 1) careful planning, 2) desired level of quality, 3) proper equipment, 4) verification, 5) continued inspection, and 6) corrective action. It states that quality control for a TMF is a systematic process that addresses expectations, relies on planning, and requires predetermined benchmarks, verification, evaluation and continued inspection. Performing a quality control review based on expected document types rather than just inventory ensures the TMF is complete, accurate and ready for inspection.
Ann Rockley — Bridging Pharma Content Silos: Managing Content from Clinical t...Ann Rockley
Content is produced for clinical trials, submissions, labeling, and marketing. The content is created, recreated, and recreated throughout its lifecycle. At best case it is copied and pasted into multiple documents. Often times, the original source of the content is lost within the versions. When content changes, it must be found and updated wherever it occurs. This process is time-consuming and error-prone. Content can be interpreted differently at each stage allowing for "drift" in the message and accuracy. This slide deck shows you how you can: Envision your content as a coherent whole rather than disparate documents; develop methods for reusing content; and optimize the content creation, review, and delivery process.
The document discusses a webinar on practical considerations for electronic trial master file (eTMF) planning presented by Paragon Solutions. The webinar covered why organizations are moving to robust eTMF systems, the necessary people, process and technology requirements, and insights into maturity models for eTMF implementation. The presentation addressed factors driving the transition to eTMF, considerations for change management and information architecture, and the need to challenge perceptions of regulatory requirements.
The document outlines regulatory guidelines for validating traditional medicines through preclinical and clinical studies. It discusses the types of information required in investigational new drug applications (INDs) for botanical drug products, including descriptions of the botanical ingredients, manufacturing and quality controls, pharmacology, toxicity studies, and previous human experience. The level of information required increases from initial clinical trials to expanded clinical trials and approaches for new drug applications (NDAs). Preclinical studies help identify compounds likely to be safe and effective in humans, while clinical trials progress from small initial safety studies to larger efficacy trials.
Achieving a 21 CFR Part 11 Compliant eTMFpaulkfenton
The document provides an overview of achieving compliance with 21 CFR Part 11 requirements for an electronic Trial Master File (eTMF). It discusses the history and scope of 21 CFR Part 11, defines electronic records, and outlines the 10 key steps required for an eTMF system to be compliant, including system documentation, ability to generate copies of records, use of electronic signatures, security controls, and training of qualified individuals.
This presentation describes a case study of an eTMF structure, setup, and implementation at a biotechnology company currently conducting a pivotal Phase 3 clinical study in 70 centers worldwide.
Understanding FDA Requirements Medical Devicesmarchell
The medical device market is experiencing explosive growth. Currently valued at $90 billion, market growth will continue to accelerate as demographics and market drivers increase their pressure for new and innovative product offerings.
Moreover, a substantial investment of time and resources is required to properly evaluate a new product idea and estimate its potential for success. So when a company executive declines a seemingly good product idea, what is probably being declined is the expense of properly evaluating the idea, and after having paid these expenses, the prospect of embarking on an expensive commercialization effort that has a 90 percent chance of failing.
Dossier Management and Regulatory Affairs.Naila Kanwal
The document discusses dossier management for regulatory affairs. It defines a dossier as a collection of detailed information about a subject. Effective dossier management involves planning, formatting, compilation, and review. Key aspects include understanding regulatory requirements, compiling information in a clear format, and cross-checking for errors before submission. Proficiency with software like MS Office and Adobe Acrobat is important for dossier management.
Buffalo Filter is developing standardized label designs and procedures to comply with FDA UDI requirements by September 2016. A Gantt chart shows completed and future tasks, with the project estimated to end in August 2016. So far 13% of products are FDA registered and 60% of labels are designed. Buffalo Filter creates standard operating procedures and label templates using human factors design principles and project management methods. The templates include translations, barcodes, logos, and required information in a consistent format.
The document discusses the importance of selecting the right barcode labeling solution for a business. It covers the key components of a labeling system, including printers, labels, ribbons, and software. The different types of thermal printing technologies are described. Choosing the correct printer, labels, and supplies is essential to ensure quality printing, durability of labels, and optimal return on investment from a barcode labeling system. Implementing barcode labeling can improve business processes like inventory management and increase productivity and efficiency.
PRISYM ID provides a label lifecycle management solution called PRISYM 360 that helps medical device companies avoid costly product recalls. PRISYM 360 offers a single integrated platform to manage label data across the entire product lifecycle from design to production. It ensures label integrity and compliance with regulations. The solution drives operational efficiencies, reduces risks, and supports global and third party labeling operations.
This document discusses documentation practices in the pharmaceutical industry. It defines documentation and provides examples of common types of documentation like standard operating procedures, batch records, and specifications. The document outlines good documentation practices like having approval, clarity, and regular review. It discusses the importance of documentation for quality assurance and regulatory compliance. Documentation provides instructions for personnel and information for audits and investigations. The summary is the document discusses documentation practices in the pharmaceutical industry, defines documentation, outlines good practices like approval and review, and explains the importance for quality assurance and regulatory compliance.
Proact’s view on archiving
Here are some guidelines we use in the design:
Reduce Cost & Complexity
As always use common sense, the more complicated a solutions the more likely it is
to have functional problems and high operating cost. We also focus on using industry
standards and standard components where it is possible. Archiving is a complex task and a
solid implementation plan combined by a step by step approach has proven successful.
Join this webinar to learn:
• What SPL is
• How it affects medical devices
• The relationship between SPL and UDI
• What medical device manufacturers can learn from the pharmaceutical industry
• How you can automatically create SPL documents with your standard labeling content
As of June 1, 2015 chemical manufacturers, suppliers, distributors and end-users are required to identify hazardous substances according to strict GHS labelling guidelines. The Globally Harmonized System of Classification and Labelling of Chemicals (GHS) were adopted to improve safety information and support international trade through standardization of information. There are several areas that need to be considered for GHS-compliant printing: software, labels, printers and supplies.
There is no really need to panic about the new guidelines and their urgent implementation. They may be long and exhaustive, but if you have the right software and system then everything can easily fall in place. It would be imprudent to ignore the mandate as the GHS implementation is now a necessity and there is absolutely no way to avoid it. So start working on your strategy now and develop a system that ensures that you implement GHS and incorporate it with your product in the most efficient manner, or give us a call- we LOVE brain storming!
Orbis Clinical is a consulting firm focused on providing regulatory affairs, quality assurance, drug safety, and risk management expertise to biopharmaceutical clients. It has over 70 employees and has experienced strong revenue growth. Orbis Clinical delivers flexible, client-driven solutions through engaged consultants and a large virtual bench of additional experts.
In MakroCare whitepaper, we have compiled and simplified some of these new policies, revisions, regulatory amendments from registration, labeling, safety reporting, renewal, publishing /eCTD submission of last year and forthcoming years.
SDL How Global Life Sciences Leaders Solve the Customer Experience PuzzleChip Gettinger
Having the right global customer experience strategy that fully integrates global product labeling interactions with real world patient care is critical for beating competitors and earning your customers’ loyalty.’
Final thesis presentation. Presented in May 2007 at Pratt Institute, Design Management Department by Michael Melnick, Nicole Casey and Melanie Cohen
How can Design Management help identify creative assets and strategically allocate them to make improvements for the global leather Industry?
The document outlines the six elements of the quality control process for a Trial Master File: 1) careful planning, 2) desired level of quality, 3) proper equipment, 4) verification, 5) continued inspection, and 6) corrective action. It states that quality control for a TMF is a systematic process that addresses expectations, relies on planning, and requires predetermined benchmarks, verification, evaluation and continued inspection. Performing a quality control review based on expected document types rather than just inventory ensures the TMF is complete, accurate and ready for inspection.
Ann Rockley — Bridging Pharma Content Silos: Managing Content from Clinical t...Ann Rockley
Content is produced for clinical trials, submissions, labeling, and marketing. The content is created, recreated, and recreated throughout its lifecycle. At best case it is copied and pasted into multiple documents. Often times, the original source of the content is lost within the versions. When content changes, it must be found and updated wherever it occurs. This process is time-consuming and error-prone. Content can be interpreted differently at each stage allowing for "drift" in the message and accuracy. This slide deck shows you how you can: Envision your content as a coherent whole rather than disparate documents; develop methods for reusing content; and optimize the content creation, review, and delivery process.
The document discusses a webinar on practical considerations for electronic trial master file (eTMF) planning presented by Paragon Solutions. The webinar covered why organizations are moving to robust eTMF systems, the necessary people, process and technology requirements, and insights into maturity models for eTMF implementation. The presentation addressed factors driving the transition to eTMF, considerations for change management and information architecture, and the need to challenge perceptions of regulatory requirements.
The document outlines regulatory guidelines for validating traditional medicines through preclinical and clinical studies. It discusses the types of information required in investigational new drug applications (INDs) for botanical drug products, including descriptions of the botanical ingredients, manufacturing and quality controls, pharmacology, toxicity studies, and previous human experience. The level of information required increases from initial clinical trials to expanded clinical trials and approaches for new drug applications (NDAs). Preclinical studies help identify compounds likely to be safe and effective in humans, while clinical trials progress from small initial safety studies to larger efficacy trials.
Achieving a 21 CFR Part 11 Compliant eTMFpaulkfenton
The document provides an overview of achieving compliance with 21 CFR Part 11 requirements for an electronic Trial Master File (eTMF). It discusses the history and scope of 21 CFR Part 11, defines electronic records, and outlines the 10 key steps required for an eTMF system to be compliant, including system documentation, ability to generate copies of records, use of electronic signatures, security controls, and training of qualified individuals.
This presentation describes a case study of an eTMF structure, setup, and implementation at a biotechnology company currently conducting a pivotal Phase 3 clinical study in 70 centers worldwide.
Understanding FDA Requirements Medical Devicesmarchell
The medical device market is experiencing explosive growth. Currently valued at $90 billion, market growth will continue to accelerate as demographics and market drivers increase their pressure for new and innovative product offerings.
Moreover, a substantial investment of time and resources is required to properly evaluate a new product idea and estimate its potential for success. So when a company executive declines a seemingly good product idea, what is probably being declined is the expense of properly evaluating the idea, and after having paid these expenses, the prospect of embarking on an expensive commercialization effort that has a 90 percent chance of failing.
Dossier Management and Regulatory Affairs.Naila Kanwal
The document discusses dossier management for regulatory affairs. It defines a dossier as a collection of detailed information about a subject. Effective dossier management involves planning, formatting, compilation, and review. Key aspects include understanding regulatory requirements, compiling information in a clear format, and cross-checking for errors before submission. Proficiency with software like MS Office and Adobe Acrobat is important for dossier management.
Buffalo Filter is developing standardized label designs and procedures to comply with FDA UDI requirements by September 2016. A Gantt chart shows completed and future tasks, with the project estimated to end in August 2016. So far 13% of products are FDA registered and 60% of labels are designed. Buffalo Filter creates standard operating procedures and label templates using human factors design principles and project management methods. The templates include translations, barcodes, logos, and required information in a consistent format.
The document discusses the importance of selecting the right barcode labeling solution for a business. It covers the key components of a labeling system, including printers, labels, ribbons, and software. The different types of thermal printing technologies are described. Choosing the correct printer, labels, and supplies is essential to ensure quality printing, durability of labels, and optimal return on investment from a barcode labeling system. Implementing barcode labeling can improve business processes like inventory management and increase productivity and efficiency.
PRISYM ID provides a label lifecycle management solution called PRISYM 360 that helps medical device companies avoid costly product recalls. PRISYM 360 offers a single integrated platform to manage label data across the entire product lifecycle from design to production. It ensures label integrity and compliance with regulations. The solution drives operational efficiencies, reduces risks, and supports global and third party labeling operations.
This document discusses documentation practices in the pharmaceutical industry. It defines documentation and provides examples of common types of documentation like standard operating procedures, batch records, and specifications. The document outlines good documentation practices like having approval, clarity, and regular review. It discusses the importance of documentation for quality assurance and regulatory compliance. Documentation provides instructions for personnel and information for audits and investigations. The summary is the document discusses documentation practices in the pharmaceutical industry, defines documentation, outlines good practices like approval and review, and explains the importance for quality assurance and regulatory compliance.
Proact’s view on archiving
Here are some guidelines we use in the design:
Reduce Cost & Complexity
As always use common sense, the more complicated a solutions the more likely it is
to have functional problems and high operating cost. We also focus on using industry
standards and standard components where it is possible. Archiving is a complex task and a
solid implementation plan combined by a step by step approach has proven successful.
Join this webinar to learn:
• What SPL is
• How it affects medical devices
• The relationship between SPL and UDI
• What medical device manufacturers can learn from the pharmaceutical industry
• How you can automatically create SPL documents with your standard labeling content
As of June 1, 2015 chemical manufacturers, suppliers, distributors and end-users are required to identify hazardous substances according to strict GHS labelling guidelines. The Globally Harmonized System of Classification and Labelling of Chemicals (GHS) were adopted to improve safety information and support international trade through standardization of information. There are several areas that need to be considered for GHS-compliant printing: software, labels, printers and supplies.
There is no really need to panic about the new guidelines and their urgent implementation. They may be long and exhaustive, but if you have the right software and system then everything can easily fall in place. It would be imprudent to ignore the mandate as the GHS implementation is now a necessity and there is absolutely no way to avoid it. So start working on your strategy now and develop a system that ensures that you implement GHS and incorporate it with your product in the most efficient manner, or give us a call- we LOVE brain storming!
Cosa hanno in comune un mattoncino Lego e la backdoor XZ?Speck&Tech
ABSTRACT: A prima vista, un mattoncino Lego e la backdoor XZ potrebbero avere in comune il fatto di essere entrambi blocchi di costruzione, o dipendenze di progetti creativi e software. La realtà è che un mattoncino Lego e il caso della backdoor XZ hanno molto di più di tutto ciò in comune.
Partecipate alla presentazione per immergervi in una storia di interoperabilità, standard e formati aperti, per poi discutere del ruolo importante che i contributori hanno in una comunità open source sostenibile.
BIO: Sostenitrice del software libero e dei formati standard e aperti. È stata un membro attivo dei progetti Fedora e openSUSE e ha co-fondato l'Associazione LibreItalia dove è stata coinvolta in diversi eventi, migrazioni e formazione relativi a LibreOffice. In precedenza ha lavorato a migrazioni e corsi di formazione su LibreOffice per diverse amministrazioni pubbliche e privati. Da gennaio 2020 lavora in SUSE come Software Release Engineer per Uyuni e SUSE Manager e quando non segue la sua passione per i computer e per Geeko coltiva la sua curiosità per l'astronomia (da cui deriva il suo nickname deneb_alpha).
The document discusses specifications, which are explicit sets of requirements for materials, products, or services. It describes different types of specifications like formal, program, functional, and document specifications. It also outlines how specifications are developed by various organizations, their common uses in engineering and business, guidance for writing good specifications, and considerations for process capabilities during production.
T Jull - Planning your aftersales strategyThomas Jull
1. The document discusses the importance of planning an aftersales strategy for medical devices before launching a product to market. It outlines key considerations like defining maintenance requirements during design, planning resource needs, and ensuring spare parts availability.
2. Some of the earliest considerations for aftersales strategy include designing for maintainability and modularity, including diagnostic features, and planning for spare parts lead times. As development progresses, understanding customer locations, confirming logistics and regulations, and setting up communications are also important.
3. The document emphasizes starting aftersales preparation early in the design process according to ISO standards. Ensuring spare parts, understanding distribution, logistics planning, good communications, and a tracking system are all vital to support customers
The document is an introduction to a series on document understanding presented by Mukesh Kala. It discusses what documents are, different types of documents including structured, semi-structured, and unstructured documents. It then covers topics like rule-based and model-based data extraction, optical character recognition, challenges in document understanding, and the document understanding framework which involves taxonomy, digitization, classification, extraction, validation, and training steps.
The document summarizes an automated medical records disc publishing solution called DISCO. It automates the process of fulfilling medical record requests and audit requests by loading, burning, encrypting, and tracking patient records onto permanently labeled discs. Key benefits include dramatically streamlining the workflow, eliminating manual processes and human errors, providing centralized tracking for HIPAA compliance, and realizing significant cost savings through reduced supplies and staff time.
Packaging, Labeling and Artwork ManagementVedant Borse
This document discusses integrating packaging, labeling, and artwork management processes with supply chain management. It outlines the business drivers of reducing time to market and ensuring regulatory compliance. It describes challenges like lack of coordination between teams and legacy systems. The document proposes building standardized processes, flexible packaging configurations, and using ERP systems' existing capabilities for artwork management instead of separate applications. Integrating these areas into a single solution can improve visibility, automation, and change management across the product development lifecycle.
The document discusses WS Packaging Group's printing and label converting operations, including the types of labels and printing they offer. It highlights some of their patented label products like EasyTab and FlexVision labels, providing details on materials, regulations, and case studies. The document serves as a capabilities brochure, showing the range of labels, languages, sizes, and industries they can serve.
Developing And Executing A Program For Labeling ComplianceChris Miller
The document discusses developing a program for labeling compliance. It notes that labeling has become complex due to increasing regulations from various government bodies. An ideal solution would be one that adapts to regulatory changes and lowers risks of non-compliance. Key aspects of implementing a solution include user training, validation, label design, documentation, and supplier management. The document provides an overview of developing a holistic labeling compliance program.
Asd Auto Apply Label Presentation 1 19 09ajamie_balent
WS Packaging Group is a leading provider of labeling solutions, with 18 facilities across the US and Mexico. They discuss common labeling problems customers face like incorrectly labeled products and high labor costs. Their solutions include automatic label applicators that accurately place labels to increase efficiency and reduce costs compared to manual labeling. Benefits of automation include increased production speeds and accuracy, reduced labor costs, and improved inventory management.
Designing and building a forensic laboratory is a complicated undertaking. Design issues include those considerations present when designing any building, with enhanced concern and special requirements involving environmental health and safety, hazardous materials, management, operational efficiency, adaptability, security of evidence, preservation of evidence in an uncontaminated state, as well as budgetary concerns.
The document discusses using DITA (Darwin Information Typing Architecture) for technical documentation. It describes how DITA allows structuring content into modular topics and maps to generate information. DITA supports features like content reuse through conditions, and multi-lingual content through language tags. Content management systems like SDL LiveContent can store and publish DITA content, including maintaining common information through globally unique IDs for topics in different languages. This allows technical documentation to be delivered to customers in multiple languages.
Similar to PrisymID Clinical Trials Whitepaper (20)
2. MIND YOUR LANGUAGE! • Page 2 of 12 MIND YOUR LANGUAGE! • Page 3 of 12
BOOKLETS
Booklets are multi-page, complex documents with a lead-
time to their production, requiring an inventory to support
a trial.
• A booklet is generally made up of:
• A back page that carries the glue for adhering
to a surface
• A front cover that is often overprinted with patient specific
and product data at time of dispatch/pack
• A spine which is sometimes the area where overprinting is
placed
• An index to identify the country specific pages - usually
the first page in the booklet
• Country specific pages in local language and design
specific requirements
Booklets require highly specialist printing and production
technology to be produced. Therefore this dictates that their
production is almost exclusively outsourced to specialist
booklet manufacturers.
Consideration must be given to how a booklet is designed and
what the actual output from the system or process is that will
be supplied to the manufacturing company.
An area that brings together booklets and label printing is
what is termed as ‘overprinting’. The technology of choice
used to overprint booklets tends to be dictated by the size, or
thickness of the booklet.
For smaller booklets thermal transfer printers can be used
and for larger booklets the technology employed tends to
be inkjet.
INSTRUCTIONS FOR USE (IFU)
An IFU is the instruction leaflet within a container that
provides instructions to the patient. IFU leaflets are not used
much in clinical trials due to the use of booklets, although it is
worth inclusion as a laser printed documentation that can be
printed on-demand or JIT.
The fact that IFUs can include variable data is a capability that
should not be overlooked and with the use of readily available
and affordable technology IFUs can be easily printed in-house.
CRITICAL ELEMENTS
There are many different elements that need to be considered
when designing a label whether it’s for a single panel label,
booklet or IFU. These include a combination of text, phrases,
variables, barcodes and graphics.
Some of the regulatory requirements that need to be printed
include:
• Name of the sponsor, clinical research organization
or investigator
• Trial reference code to allow identification of clinical trial
• Trial subject identification number/treatment number
• “For clinical trial use only” or similar wording
• Quantity of dosage units
• Route of administration
• In case of open trials the name/identifier and
strength/potency
• Batch or code number to identify the contents
and packaging operation
• Storage conditions
• Period of use to allow return of IMP after expiry
• “Keep out of the reach and sight of children”
THE LABELING LANDSCAPE
Global clinical trials labeling is a complex subject and an integral
part of clinical trials supplies management. The landscape is
varied in terms of the systems and processes employed in
designing, populating and printing labels (including booklets
and IFUs). To control clinical trials labeling on a global scale a
number of key functions need to be managed.
The three main functions are:
• Complexities around local language labeling
• Managing source data for labels, booklets and IFUs
• Customizing labels for country specific requirements
There are a number of stakeholders using a range of solutions
and standard operating procedures to produce clinical
supplies, including those responsible for the regulatory
submissions, defining the protocols and the various approvals
that take place throughout the complete lifecycle; typically
involving qualified persons, regulatory affairs and other
specialists.
All parties come with their own unique set of skills and
objectives, but have one overall goal for the creation of
the required labels and booklets and need to work closely
together in sharing the information, designs and data in order
to provide a sound and secure process.
The three main parties involved in clinical trials labeling
include:
• Pharmaceutical R&D (discovery company)
• Clinical supplies organizations
• Booklet and label printing companies
The discovery companies that wish to trial the drugs adopt a
range of approaches to the packaging and labeling of supplies,
ranging from in-house management of the whole process to
an outsourced model where clinical supplies companies take
on the complete job, to an approach where only part of the
task is subcontracted.
Also, the production of the booklets is a very specialized area
so there are also companies employed that focus solely on the
aspects of booklet production, overprinting and labeling.
THE FUNDAMENTALS
The definition for the label, the booklet and the IFU might
seem very basic, but the creation of these various assets is
subtly different. Whereas a label can be printed ‘on-demand’
or truly ‘Just in Time’ (JIT), as can an IFU, the booklet is a little
more complicated.
LABELS
A
‘single panel label’ is essentially a single panel adhesive
backed paper or synthetic label that contains information
relating to the product. When designing a label there are
specific elements that need to be addressed, including
UNICODE text (with sophisticated copy fit and formatting
functionality), images (products and logos), line art and
barcodes (plus new developments in 2D codes and RFID).
It is not just single language labels that are printed on single
panel labels. If there is enough room on the label, multiple
languages can be printed.
A single panel label is usually printed on a thermal transfer
printer such as Zebra, SATO or Intermec, where labels are on
rolls and printed in either ‘on-demand’ or in a ‘batch process’
mode. In addition, desktop laser printers will also suffice
where sheets of paper rather than rolls are used; however
this tends to be more of a batch process due to the number of
labels per page being printed.
Single panel labels are the approach to printing on-demand
with the possibility to join-up all systems to provide a highly
efficient JIT approach.
MIND YOUR LANGUAGE!
Requirements for Local Language Labeling in Clinical Trials
3. MIND YOUR LANGUAGE! • Page 4 of 12 MIND YOUR LANGUAGE! • Page 5 of 12
Generally, the industry requires text formatting to use
Windows fonts with the ability to resize individual blocks
or individual characters (i.e. using bold, italics, underlining and
UNICODE).
A number of languages may be needed per label. Due to this
dependency, it makes the decision on whether the data fits on
a single panel being produced rather than a booklet. The ability
to toggle from any foreign language to English is a common
requirement so that the English equivalent can be viewed.
Variables on a format allow values to be added to a label when
it is designed and then added to the label at time of print. In
essence, a value may or may not be known when the format
is being designed and instead can be decided when the label is
physically printed.
All linear and 2D barcodes must be available as part of the
design tool; 2D symbologies are becoming more commonly
used as the use of e-labeling increases.
Additionally, in the same way that phrases are approved,
icons, logos and pictures need to have an approval process
before being added to a label.
CHALLENGES FACING
CLINICAL SUPPLIES LABELING
As clinical trials are run in many countries, there is an
obvious need for translated instructions; within a particular
language spoken in different countries there can also be small
differences that need to be catered for at a very local level.
At the time of print, data can come from a range of systems
- trial data, randomization data and production data. This
requires solid and secure management to bring version
controlled information from all systems together to print
at the point of dispatch.
Also to be considered are ‘country specific regulatory issues’
which means the design of a label is different dependent
upon the destination country.
This can be relatively straightforward to address for
single panel labels and an ‘on-demand’ printing approach
but more of a challenge for booklet design where a large
amount of information needs to be managed plus multiple
page formats.
In essence, once a stock of booklets has been printed there
is little chance to make changes to the booklet itself.
Some of the problems faced by global clinical trials label
printers include:
Language problems -
• There is a need to know early on which countries the
trial will run - especially for booklets
• Phrases need to be translated quickly and efficiently –
using in-house resources or a third party
• All phrases need to be approved and ready in good time
• Plurals need to be managed with confidence
• It is necessary to determine whether or not text will
fit in an area when printed in different languages
• Local language differences need to be managed
Data problems -
• Data needs to be brought into one place to be managed
(including external supplier data)
• The same data needs to be used to populate all assets
(labels, booklets, IFUs)
• Data needs to be maintained and managed independent
of asset design
• Correct version of the data needs to be available at time
of print
Design problems -
• A knowledge of how the drug will be packaged
• An understanding of the country specific requirements
• Whether the labels will be produced in-house or
outsourced
• Which label material will be used - stock labels or
custom designed consumables
• Available room on the label for all information
• Ideally all systems used in the process will be joined-up
as re-entry of data or ‘cut-and-paste’ is not desirable
The more automated and robust the systems the better,
and if run efficiently they can provide the company with
a competitive advantage.
THE PERCEIVED
COMPLEXITIES OF
LANGUAGE LABELING
The approach to language labeling across the clinical supplies
industry varies from centrally administered phrase libraries
that cover many languages and are common to all trials that
are labeled, through to organizations that prefer to administer
a set of phrases specific to each trial and limited to only the
languages required.
Local language labeling is concerned with how to manage
phrases in different languages and to drill down to a highly
local language level to ensure the instructions and information
provided are understood precisely. For example, in South
America several versions of Spanish may be required. The
need for a local person to understand these subtleties is
important and the use of technology to assist in this process
is essential, yet difficult to achieve.
‘The complexities of local language labeling’ can include:
• Management and control independent of the language
• Translation of individual phrases
• Bulk translations import
• Specific local language differences
• Country specific requirements
• Trial specific language management
• Centralized language management plus mandatory phrases
• Use of internal translation people and/or third party
translation companies
• Secure access to the system by all stakeholders
• Management of plurals
• Printing labels ‘on-demand’
• Multiple page booklets and the associated ‘lead times’
Regardless of the differences in the approach to the
management of phrases and local language labeling there are
a number of key aspects that need to be addressed.
PHRASE CREATION, APPROVAL
AND VERSION CONTROL
The key objective is to ensure that the phrases used on a
particular piece of design work are correct and remain correct
throughout the trial. Once the phrases have been created
and approved, it is a requirement that the content be used
across a variety of final patient facing assets (labels, booklets
and IFUs). Also, language experts must be able to efficiently
manage all the phrases in their language and must be able to
monitor the impact of any changes proposed or implemented
to a phrase library. Therefore, ‘Approved Phrases’ and ‘Sets
of Phrases’ need to be managed outside of a specific trial and
held independent of the trial.
One of the goals of a phrase library is to allow native speakers
to contribute. This is where the access to a system must be
managed by rigorous security features and user rights. A
contributor may have the rights to view but not physically
change anything.
Creating sets of phrases and grouped phrases is a logical
approach (such as ‘dosage phrases’). Phrases need to be
version controlled and managed and mass imported to a
phrase database. The ability for the user to designate the
source language that is used as the original basis for a
translation must be accommodated.
It is useful to be able to Import and export source phrases. The
ability to be able to bulk input all phrases that have already
been translated in a controlled and auditable manner are
especially useful when a system or trial is being set up.
The import of phrases into a management tool might include
the common import cases:
• The phrase in the import file has no existing record
• The phrase in the import file can map to an existing record
that is able to be modified
• The phrase in the import file can map to an existing record
that is locked or not able to be modified
The handling of plural cases as a process requires specific
consideration. While in ‘UK English’ there is a well understood
convention of singular and plural, this is not the case in other
written languages, where there are multiple different plurals
that need to be managed for the same singular form.
4. MIND YOUR LANGUAGE! • Page 6 of 12 MIND YOUR LANGUAGE! • Page 7 of 12
LANGUAGE DATA CONFIGURATION
Language data configuration can be structured and managed
in a number of ways. A system that is flexible and configurable
should provide the capabilities for:
• Central administration
• A set of phrases specific to a trial
• Limited to only the languages required
for a particular trial
• Grouped phrases
There are phrases that are common to all companies and
trials, phrases that could be translated once and used many
times by all companies in the industry. It is worth considering
a set or pack of phrases that the industry adopts. The same
could be said for images as there are some common type
images but these are not extensively used.
The set of phrases shared by many is an interesting concept
and an approach that has been adopted in other industries
such as the transport of hazardous material across Europe,
commonly known as the Global Harmonization Standard
(GHS). In this instance, the risk and safety phrases and
pictograms are standard and common and various companies
maintain a commercial set of the phrases that they sell,
support and maintain.
PHRASE MANAGEMENT USING THE DICTIONARY
CONCEPT
The ‘dictionary’ concept is one that isolates a particular
phrase from its translations. This approach is used to utilize
the security, version control and audit trail to control and
manage the dictionary itself.
The concept of a version controlled dictionary is a robust
approach and means the dictionary can be managed
independently to the translations.
For instance, the ‘Dictionary’ may well be defined in English
but the translation of the dictionary into English means that
a totally independent translated database will exist in all
required languages.
In essence, you can have someone that manages the
dictionary and a different person that creates the actual
translations.
Another approach can be organized as a set of ‘regulatory
terms’ and then divided into the terms used in a specific trial.
The same is true for packaging specific terms again divided
and used in a specific trial.
The terms and phrases to populate a label design, booklet or
IFU could be easily sourced from any of these repositories.
In summary, although the management of language data can
be complex, by using the right principles and approach for
configuration the task can be controlled and well managed by
various stakeholders in different locations.
CUSTOMIZING LABELS FOR
COUNTRY SPECIFIC REQUIREMENTS
There are country specific regulatory requirements that need
to be adhered to. A mechanism to advise, remind or guide
content authors of the specific requirements that individual
countries have in place for artwork design is required.
From the perspective of certain phrases that must be used on
labels for specific countries, this is a relatively trivial problem
to overcome.
The more complex scenario is that of conditional
requirements. These requirements are of the ‘this must be
used’ but also cover conditional situations where one asset
is required based upon the presence or absence of another
asset on the artwork.
MANAGING SOURCE DATA
FOR LABELS, BOOKLETS
AND IFU’S
Language information and its management should be totally
integrated with an ‘on-demand’ label printing approach.
However, when booklets are considered there is a need for
them to be designed and printed early and in good time
to be used within the actual trial. Therefore, In the case of
booklets, when the bringing together of information and data
is considered the approach is to ‘overprint’ an already printed
booklet available from stock, an area we considered in some
detail earlier.
When printing labels ‘on-demand’ there is a need to bring all
information and data together into one place this includes the
language specific information plus:
• The trial data
• Randomization data
• Production data
All this information needs to be brought together to populate
all label formats on-demand at point of dispatch.
There are in essence two main scenarios when considering
the management of source data. Interestingly, the scenario
adopted is not so much to do with the data itself but the way
in which the data is to be handled because of the organization
that will undertake the actual printing and packaging.
The two areas to consider are data management in-house
by the pharmaceutical companies and clinical supplies
organization that undertake the printing for a range of clients.
It is probably fair to say that because the pharmaceutical
company owns the data then the use of this data and
integration into internal systems is more straightforward.
Whereas, a third party clinical supplies company needs to
accept data in various formats from its clients and there is
no single format or approach, therefore the solutions and
processes they need to employ must be flexible and robust.
The data that a clinical supplies organization receives
can be provided in various formats including PDF, CSV
files or as a direct link.
The clinical supplies companies need to ensure that the data
received has not and cannot be changed. This means that the
data needs to be locked and robust operating procedures are
in place so that the data is in a secure location; locking the file
and restricting access.
Solutions do exist for clinical trials labeling data management
that provide specific features for the generation and
management of trial data. The systems securely and
accurately manage clinical trials data for supplies and
complete patient kit/patient pack labeling.
There are a number of pieces of information that need to be
managed, stored and easily updated, these include:
• Patient stratifications
• Multiple center management
• Visit and treatment logging management
• Complete randomization based on treatments and
stratification
In the case of the pharmaceutical companies the data
management issues are the same. However, there is much
more opportunity for a tight integration into existing and
future systems, including Enterprise Resource Planning
(ERP), inventory management systems, and manufacturing
execution and packaging systems.
RANDOMIZATION
The generation of randomized data can either be an in-house
exercise or one where the data is received externally for use
in a particular trial. Typically, a large pharmaceutical company
will generate their own randomized data and either use this
themselves for printing the labels or overprinting or send it
to the company that they have outsourced the clinical trials
supply job to.
If however you are the clinical trials supply organization,
you may do jobs for a vast range of companies and some
smaller pharmaceutical companies do not have their own
randomization tools. In this instance, the clinical trials supply
organization will need to use a solution that manages the
randomization as part of the trial.
The creation of randomized data needs to follow the same
processes as all other parts of the trial in terms of approval
and version control.
5. MIND YOUR LANGUAGE! • Page 8 of 12 MIND YOUR LANGUAGE! • Page 9 of 12
ROBUST END-TO-END
PROCESS
The clinical trials supplies process requires that the design
of labels, booklets and IFUs be populated by information
and data from a range of data repositories or systems,
including trial data and production data. There are a number
of fundamental capabilities that should be regarded as the
building blocks for an approach and/or solution for efficient
clinical trials label printing. If these building blocks are not
in place, the stack of cards will be fragile to say the least.
Therefore, it is vital they are in place to provide a robust
validated approach.
A simple process map illustrates the areas of data creation
and management plus design of booklets and labels:
There are a number of base capabilities that are common
throughout any fully compliant system that meets current
Good Manufacturing Processes (GMP) and clearly one that
meets country specific requirements such as the FDA in
the US.
It makes sense to consider these elements briefly and
to understand in principle what they offer, as disparate
systems that use different approaches will not only cause
complications but can increase the operational overhead and
risk.
In essence the processes need to be proven, reliable
and robust and if the pieces of technology that provide
this functionality are able to be reused and are common
throughout the system, the user’s experience will be
enhanced by a standard approach throughout all the
processes that take place in the field of data and language
management plus label and booklet design.
Common belief is that a robust system with a solid foundation
will have a common and reusable approach to:
• Security
• Version and revision control
• Searching plus
• Audit and reporting
When some of the diverse users requiring access to a system
are considered, including multiple departments, regulatory
specialists, label designers and third party organizations, it
is clear that all parties needing access to the system must be
able to do so unhindered and in a controlled and well managed
way. The level of security, flexibility and ease of administering
such a capability is fundamental. Specific tasks must be
controlled by ‘user permissions’ – in essence, if a user does
not have the rights to undertake a certain function they will
be restricted from using that function.
The granular approach to user permissions for setting
up a ‘label designer’ includes:
• Create change request
• Create image
• Create label format
If third party access to a system is considered, the solution
will need to provide a range of user rights to be able to
record and report all actions. For instance, when language
management and translation is looked at there may be a
need to set up third party access for an external translator
to be able to submit translations. A highly secure audit trail
is required to be maintained, as would be expected from a
solution meeting the requirements of the FDA.
All stakeholders will want a common approach to:
• Secure historical transaction logging
• Maintaining a complete history of all actions
• Recording the format design, source phrases, trial phrases
and all variable data
• Actions logged against user, workstation and date
and time
• Exportable information, searchable (e.g. by time
period, user or data specific) and printable
• Accessing a source for historic information
and reprint of data
ENTERPRISE RESOURCE PLANNING PRODUCTION
DATA AND INTERFACING
ERP systems are required to conduct and manage the
business processes. In essence, to ensure the product is
available for dispatch at the right place and at the right
time and that the complete inventory and supply chain is
automated and controlled.
The clinical trials world is varied in its use of ERP, MRP,
inventory management, packaging management and logistics
systems because of the nature of the business. Consequently,
there is the need for ‘best of breed’ point solutions for
labeling, printing and packaging to interface seamlessly to a
range of systems. Whatever system has been adopted there
will be the need for global trials labeling to link to the data
within an organization.
The type of data required from say an ERP system may
include use by date or batch codes and other manufacture
specific information.
This product batch information needs to be accessed and
recorded for traceability purposes.
Particularly in the case of pharmaceutical discovery companies,
there is the need for integration with various internal systems.
The way this can be integrated includes:
• Database – staging and production tables
• API’s – commercial and custom
• File import
Data for the creation of labels and overprinting of booklets can
come from a range of systems. It is a preferred process that the
data be managed centrally for a particular trial.
There tends to be three main types of data:
• Randomization data
• Trial Data - subjects, stratifications, treatments,
study center, visits
• Production data from ERP systems
The creation and management of this data needs to be based on
all the key principles as mentioned previously and the solution
needs to be flexible in the input and export of data
in readily available and readable formats.
6. MIND YOUR LANGUAGE! • Page 10 of 12
There are three main elements to reporting:
• Reporting on the audit log (i.e. by time period, transaction
type, user, machine and data)
• Access to and reporting on the data held within
the system (i.e. product data, translation and
trial information)
• Version and revision control should be common
throughout a system
The process will need to follow something like the ‘three
stage approvals’ process which is a common approach that
should be used wherever possible to provide a standard
reusable approach. Assets that need to be version controlled
will include dictionaries and phrases, template designs,
with country specific content, and data. The approach to
approvals is important as it can be based on either ‘single
item’ approvals or ‘job based approvals,’ but the principles are
the same.
The approvals of assets can and should be an automated
process where assets are routed to specialists for approval
or rejection. A standard approach to automated, rules based
routing of assets is fundamental to a rounded solution. In
addition, the ability to add additional supporting information,
such as documents, and the ability to provide approval and
rejection comments during the process can be very useful.
In more advanced systems several things are starting to
appear proactively managed approvals and e-mails being sent
to required approvers and more sophisticated management of
rejected approvals.
Plus advanced rules that can be configured and enforced may
include “group approvals” type rule and/or “must be approved
by” type rules.
A BRIEF SUMMARY
A solution and process is required that manages users throughout every step of data creation, design, management and
printing with the underlying system based on GMP compliance and in terms of technology a web-based solution makes
sense.
The solution should use a standard approval and version control process throughout maintaining separate versions of each
asset with an approval management system that allows the users to highlight and comment on any areas for corrections
that are relevant to the assets being reviewed.
The process used must provide a coherent identification approach to maintain the integrity of each version of each asset
and incorporate collaborative approval management. An approvals management system that allows multiple items to be
grouped together into logical containers and when multiple items are grouped into a single review process, the system
should allow users to make decisions on individual items without having to compromise the decision on the entire job.
The overall goal should be a complete end-to-end controlled and approvals based process - from label and booklet design,
data integration to print and finally label inspection - eliminating any possible room for error.
7. MIND YOUR LANGUAGE! • Page 11 of 12
PRISYM ID
World Class Label Management Software
PRISYM ID designs and delivers label lifecycle management solutions for organizations that need complete product auto-
identification and lifecycle traceability. With the continual tightening of labeling regulations and audits, PRISYM ID empowers
its clients to safeguard their reputation by ensuring compliance, and significantly reduce costs by eliminating recalls through
labeling errors. PRISYM ID is the market leader in world-class label lifecycle management, and is trusted for delivering
personalized service excellence to clients in varied sectors including medical device, life sciences, healthcare, automotive,
chemical and manufacturing.
For further information, please go to:
+44 (0) 1189364400 | +1 508-948-6100
www.prisymid.com | info@prisymid.com | @prisymid
8. Speak to our Team of Experts
UK TEL +44 (0) 118 936 4400 | US TEL +1 508-948-6100
www.prisymid.com | info@prisymid.com