ISO 13485:2016 specifies requirements for a quality management system where an organization needs to demonstrate its ability to provide medical devices and related services that consistently meet customer and applicable regulatory requirements. Such organizations can be involved in one or more stages of the life-cycle, including design and development, production, storage and distribution, installation, or servicing of a medical device and design and development or provision of associated activities (e.g. technical support). ISO 13485:2016 can also be used by suppliers or external parties that provide product, including quality management system-related services to such organizations.
The processes required by ISO 13485:2016 that are applicable to the organization, but are not performed by the organization, are the responsibility of the organization and are accounted for in the organization's quality management system by monitoring, maintaining, and controlling the processes.
quality management system pdf free 12
If applicable regulatory requirements permit exclusions of design and development controls, this can be used as a justification for their exclusion from the quality management system. These regulatory requirements can provide alternative approaches that are to be addressed in the quality management system. It is the responsibility of the organization to ensure that claims of conformity to ISO 13485:2016 reflect any exclusion of design and development controls.
If any requirement in Clauses 6, 7 or 8 of ISO 13485:2016 is not applicable due to the activities undertaken by the organization or the nature of the medical device for which the quality management system is applied, the organization does not need to include such a requirement in its quality management system. For any clause that is determined to be not applicable, the organization records the justification as described in 4.2.2.
For example, customers might care more about quality than cost. However, if you are developing a product and trying to keep the cost down and skimping on the quality, you are creating a product that might not meet the needs of the customer.
Successful quality initiatives require ongoing Senior Leadership sponsorship and support through structure, process, and staff transitions. Designated resources are also critical in supporting these endeavors.
With a firm understanding of the 12 essentials of quality management in laboratory environments, you'll be able to confidently lead your medical services team to new levels of excellence and avoid potentially life-threatening mistakes.
The laboratory needs to be organized around a formal quality management system that supports consistent procedures. The management team and quality unit play an integral role in a quality-driven culture, along with structures for monitoring ongoing quality.
Capable, qualified staff members are the single most important asset to a laboratory. Training, motivation, and engagement are key parts of the quality management system. You also need to document all of your training processes within your quality management system.
Every piece of equipment used in the laboratory must be maintained to operate safely. Also, laboratories need to monitor how equipment is installed, which suppliers provide the equipment, any calibration processes, and when the equipment needs to be replaced to maintain the highest possible quality.
Properly managing the supply chain is critical to ensure that raw inputs and other supplies are consistently high-quality. Inventory activities should verify that materials and supplies are stored in a way that protects integrity. Make sure you purchase inventory from suppliers who also follow a quality management system. hbspt.cta._relativeUrls=true;hbspt.cta.load(2277836, '08f45679-bc51-4759-ada9-ab88087d5b38', "useNewLoader":"true","region":"na1");
If you're struggling with process control, design control software can dramatically improve internal efficiencies. Within the software, you can document all processes related to each step of quality control, such as the testing required for verification and validation or internal audits.
Assessment involves comparing laboratory performance to internal standards for quality or external data sets, such as industry benchmarks. Assessments include the activities of lab or QC managers, internal auditors, or external inspectors.
A quality management system should support the continuous improvement of laboratory processes. Components of the QMS which support improvement can include quality assurance, quality control, and CAPA (occurrence management). We recommend investing in training management software to build and activate major improvements to internal processes.
Qualio is the first cloud-based QMS for life sciences laboratories, built specifically in accordance with ISO and FDA best practices. It includes all the essentials to help fast-growing lab startups and scale-ups create a solid quality baseline. Learn more about our solution here. hbspt.cta._relativeUrls=true;hbspt.cta.load(2277836, '5a2b403d-cdfa-44b8-b3ba-1cfdb22d48e1', "useNewLoader":"true","region":"na1");
Robert is the founder and chief executive officer of Qualio. Prior to founding Qualio in 2012, Robert studied pharmacy for 5 years at University College Cork, practiced as a community pharmacist, and spent time in quality and R&D roles at global pharmaceutical companies such as Pfizer and Leo Pharma. Robert also founded EasySOP, a market-leading company that solves compliance problems for businesses in healthcare. Robert made the move to San Francisco in 2016 after bootstrapping the company part-time in his home country of Ireland, where the beginnings of the office-agnostic talent philosophy of Qualio took root. In his spare time, Robert loves Crossfit, books, and playing his guitars and ukelele.
While the current QS regulation provides sufficient and effective requirements for the establishment and maintenance of a quality management system, regulatory expectations for a quality management system have evolved since the regulation was implemented over 20 years ago. The FDA seeks to harmonize its requirements for a Quality Management System (QMS) with internationally recognized regulatory requirements for Quality Management System (QMS) for devices, ISO 13485, which is used by many other regulatory authorities.
Manufacturers should use good judgment when developing their quality system and apply those sections of the QS regulation that are applicable to their specific products and operations, 21 CFR 820.5 of the QS regulation. Operating within this flexibility, it is the responsibility of each manufacturer to establish requirements for each type or family of devices that will result in devices that are safe and effective, and to establish methods and procedures to design, produce, distribute, etc. devices that meet the quality system requirements. The responsibility for meeting these requirements and for having objective evidence of meeting these requirements may not be delegated even though the actual work may be delegated.
FDA has identified in the QS regulation the essential elements that a quality system shall embody, without prescribing specific ways to establish these elements. Because the QS regulation covers a broad spectrum of devices, production processes, etc., it allows some leeway in the details of quality system elements. It is left to manufacturers to determine the necessity for, or extent of, some quality elements and to develop and implement specific procedures tailored to their particular processes and devices.
This Laboratory quality management system handbook is intended to provide a comprehensive reference on Laboratory quality management system for all stakeholders in health laboratory processes, from management, to administration, to bench-work laboratorians. This handbook covers topics that are essential for quality management of a public health or clinical laboratory. They are based on both ISO 15189 and CLSI GP26-A3 documents. The handbook is linked to the training toolkit on laboratory quality management system.
With members and customers in over 130 countries, ASQ brings together the people, ideas and tools that make our world work better.ASQ celebrates the unique perspectives of our community of members, staff and those served by our society. Collectively, we are the voice of quality, and we increase the use and impact of quality in response to the diverse needs in the world.
You are about to start planning for a large and complex project. Due to the size of the project along with the regulatory and environmental considerations, the development of a detailed project management plan will be critical.
A team member submits a draft of the requirements management plan to the project manager for a review. The project manager notices that one of the components included in the plan does not belong there.
An organization has a project management office (PMO) that ensures all relevant project documents are created, and all project management processes are followed according to established best practices.
A project manager is performing quality assurance for a project whose quality standards are very stringent. In order to meet and exceed the quality requirements, the project manager uses a set of technical guidelines, which were applied during the design phase of the project to optimize quality.
For an upcoming project, a needs assessment and business case have been completed, and the project management office (PMO) is reviewing a draft of the benefits management plan. The PMO highlights an element of the benefits management plan and requests that the element be removed before the document is finalized.
A project is underway to construct a wind farm in an area with no communication infrastructure. The plan is to monitor progress and coordinate the scheduling of the project activities using project management software and provide daily status updates to the project sponsor at the home office. Two project teams will work and reside onsite in rotating seven-day tours. 2ff7e9595c
Comentários