Difference between revisions of "Quality management system"

From LIMSWiki
Jump to navigationJump to search
(Saving and adding more.)
(Saving and adding more.)
Line 9: Line 9:


==History==
==History==
The concept of a "quality" as we think of it now first emerged from the [[Industrial Revolution]]. Previously goods had been made from start to finish by the same person or team of people, with handcrafting and tweaking the product to meet 'quality criteria'. Mass production brought huge teams of people together to work on specific stages of production where one person would not necessarily complete a product from start to finish. In the late 19th century pioneers such as [[Frederick Winslow Taylor]] and [[Henry Ford]] recognized the limitations of the methods being used in mass production at the time and the subsequent varying quality of output. Birland established Quality Departments to oversee the quality of production and rectifying of errors, and Ford emphasized standardization of design and component standards to ensure a standard product was produced. Management of quality was the responsibility of the Quality department and was implemented by Inspection of product output to 'catch' defects.
The concept of a "quality" as we think of it today first emerged from the Industrial Revolution. Previously, goods had been made from start to finish by the same person or team of people, with handcrafting and tweaking the product to meet quality criteria. Mass production brought huge teams of people together to work on specific stages of production where one person would not necessarily complete a product from start to finish. This mass production inevitably led to a decline in quality with its emphasis on driving down prices rather than quality. This led to "a neeed for a more regulated system both in ensuring that machines used by manufacturers were not the real problem for substandard goods as well as checking items as they came off the production line."<ref name="HendricksonTheEncyclopedia14">{{cite book |url=https://books.google.com/books?id=EdwsCgAAQBAJ&pg=PA758 |title=Quality Assurance and Control |work=The Encyclopedia of the Industrial Revolution in World History |publisher=Rowman & Littlefield |volume=3 |year=2014 |isbn=9780810888883}}</ref>
 
In the late 19th century pioneers such as [[Frederick Winslow Taylor]] and [[Henry Ford]] recognized the limitations of the methods being used in mass production at the time and the subsequent varying quality of output. Birland established Quality Departments to oversee the quality of production and rectifying of errors, and Ford emphasized standardization of design and component standards to ensure a standard product was produced. Management of quality was the responsibility of the Quality department and was implemented by Inspection of product output to 'catch' defects.


Post World War II saw statistician and mathematician William Edwards Deming (after whom the Deming Prize for quality is named), the father of the quality management movement, develop a theory of quality management that focused on the "joy in work," while placing emphasis on quality at each step of a process, not simply on the final inspection.<ref name="GitlowQuality00">{{cite book |url=https://books.google.com/books?id=O5aq0HMyXOcC&pg=PA1 |title=Quality Management Systems: A Practical Guide |author=Gitlow, H.S. |publisher=CRC Press |pages=296 |year=2000 |isbn=9781574442618}}</ref> This led to several Japanese scientists and engineers inviting Deming to Japan in 1950 to share his ideas on statistical methods towards improved quality, with several companies seeing productivity and profit gains after adoption.<ref name="GitlowQuality00" /> In 1951, engineer and management consultant Joseph M. Juran published the first edition of ''Juran's Quality Handbook'', an influential guide to quality management that focused on "fitness for use by the customer" as a goal of quality. Juran's work, focusing on management's influence on quality, had a similar impact on the Japanese. The combination of Deming's and Juran's influence ultimately led to the Japanese developing their own take on quality management: Japanese Total Quality Control.<ref name="GitlowQuality00" />
Post World War II saw statistician and mathematician William Edwards Deming (after whom the Deming Prize for quality is named), the father of the quality management movement, develop a theory of quality management that focused on the "joy in work," while placing emphasis on quality at each step of a process, not simply on the final inspection.<ref name="GitlowQuality00">{{cite book |url=https://books.google.com/books?id=O5aq0HMyXOcC&pg=PA1 |title=Quality Management Systems: A Practical Guide |author=Gitlow, H.S. |publisher=CRC Press |pages=296 |year=2000 |isbn=9781574442618}}</ref> This led to several Japanese scientists and engineers inviting Deming to Japan in 1950 to share his ideas on statistical methods towards improved quality, with several companies seeing productivity and profit gains after adoption.<ref name="GitlowQuality00" /> In 1951, engineer and management consultant Joseph M. Juran published the first edition of ''Juran's Quality Handbook'', an influential guide to quality management that focused on "fitness for use by the customer" as a goal of quality. Juran's work, focusing on management's influence on quality, had a similar impact on the Japanese. The combination of Deming's and Juran's influence ultimately led to the Japanese developing their own take on quality management: Japanese Total Quality Control.<ref name="GitlowQuality00" />

Revision as of 22:19, 27 October 2017

A quality management system (QMS) represents the collection of documented processes, management models, business strategies, human capital, and information technology that are used to plan, develop, deploy, and evaluate a set of models, methods, and tools across an organization for the purpose of improving quality, particularly in-line with the organization's strategic goals. The successful development and deployment of a QMS requires the assessment of organizational resources, customer needs, industry product cycles, and more.[1] A QMS will attempt to establish organizational policy and objectives for resource management, assign responsibility and authority to personnel, and put into place an organizational structure among personnel.[2] The QMS will also be designed to focus on the core elements of quality management: planning, control, assurance, and improvement.[3]

A successful quality management system may drive competitiveness in the organization, but competitiveness is not the core goal of a QMS; rather, customer satisfaction and, to a lesser degree, financial performance are tied to a successful QMS implementation.[1]

History

The concept of a "quality" as we think of it today first emerged from the Industrial Revolution. Previously, goods had been made from start to finish by the same person or team of people, with handcrafting and tweaking the product to meet quality criteria. Mass production brought huge teams of people together to work on specific stages of production where one person would not necessarily complete a product from start to finish. This mass production inevitably led to a decline in quality with its emphasis on driving down prices rather than quality. This led to "a neeed for a more regulated system both in ensuring that machines used by manufacturers were not the real problem for substandard goods as well as checking items as they came off the production line."[4]

In the late 19th century pioneers such as Frederick Winslow Taylor and Henry Ford recognized the limitations of the methods being used in mass production at the time and the subsequent varying quality of output. Birland established Quality Departments to oversee the quality of production and rectifying of errors, and Ford emphasized standardization of design and component standards to ensure a standard product was produced. Management of quality was the responsibility of the Quality department and was implemented by Inspection of product output to 'catch' defects.

Post World War II saw statistician and mathematician William Edwards Deming (after whom the Deming Prize for quality is named), the father of the quality management movement, develop a theory of quality management that focused on the "joy in work," while placing emphasis on quality at each step of a process, not simply on the final inspection.[5] This led to several Japanese scientists and engineers inviting Deming to Japan in 1950 to share his ideas on statistical methods towards improved quality, with several companies seeing productivity and profit gains after adoption.[5] In 1951, engineer and management consultant Joseph M. Juran published the first edition of Juran's Quality Handbook, an influential guide to quality management that focused on "fitness for use by the customer" as a goal of quality. Juran's work, focusing on management's influence on quality, had a similar impact on the Japanese. The combination of Deming's and Juran's influence ultimately led to the Japanese developing their own take on quality management: Japanese Total Quality Control.[5]

In the mid-twentieth century, the focus on quality as a profession and a managerial process saw the quality profession grow from simple engineering controls to systems engineering that took quality into account at its various steps. This was most noticeable in the Japanese strategy to industry, though the U.S. didn't clearly recognize it until the early 1980s. With the decline in price competition and increase in quality competition in the 1970's putting American manufacturing in a difficult position, the early to mid-1980s saw the U.S.' industrial and government leaders recognize Japan's quality strategy[6], committing to a renewed emphasis on quality in order to stay relevant in an expanding and competitive world market. The Malcolm Baldrige National Quality Improvement Act of 1987 spawned the associated National Quality Program, commonly referred to as the Baldridge model[1], and an award program that acted as a standard of excellence to further drive quality innovation in the marketplace. The trend continued into Europe with the introduction of the European Foundation for Quality Management in 1991.[1]

At least 150 countries adopted the ISO 9000 standard by the end of 1999, with the associated third-party registration industry having a total economic impact of $4 billion. That number had climbed to 161 countries by the summer of 2002.[7]

Elements

  1. Quality policy
  2. Quality objectives
  3. Quality manual
  4. Organizational structure and responsibilities
  5. Data management
  6. Processes – including purchasing
  7. Product quality leading to customer satisfaction
  8. Continuous improvement including corrective and preventive action
  9. Quality instruments
  10. Document control


Process

A QMS process is an element of an organizational QMS. The ISO9001:2000 standard requires organizations seeking compliance or certification to define the processes which form the QMS and the sequence and interaction of these processes. Butterworth-Heinemann and other publishers have offered several books which provide step-by-step guides to those seeking the quality certifications of their products.

Examples of such processes include:

ISO9001 requires that the performance of these processes be measured, analyzed and continually improved, and the results of this form an input into the management review process.

Medical devices

The two primary, state of the art, guidelines for medical device manufacturer QMS and related services today are the ISO 13485 standards and the US FDA 21 CFR 820 regulations. The two have a great deal of similarity, and many manufacturers adopt QMS that is compliant with both guidelines.

ISO 13485 are harmonized with the European Union medical devices directive (93/42/EEC) as well as the IVD and AIMD directives. The ISO standard is also incorporated in regulations for other jurisdictions such as Japan (JPAL) and Canada (CMDCAS).

Quality System requirements for medical devices have been internationally recognized as a way to assure product safety and efficacy and customer satisfaction since at least 1983 and were instituted as requirements in a final rule published on October 7, 1996. The U.S. Food and Drug Administration (FDA) had documented design defects in medical devices that contributed to recalls from 1983 to 1989 that would have been prevented if Quality Systems had been in place. The rule is promulgated at 21 CFR 820.

According to current Good Manufacturing Practice (GMP), medical device manufacturers have the responsibility to use good judgment when developing their quality system and apply those sections of the FDA Quality System (QS) Regulation that are applicable to their specific products and operations, in Part 820 of the QS regulation. As with GMP, 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, and distribute devices that meet the quality system requirements.

The FDA has identified in the QS regulation the 7 essential subsystems of a quality system. These subsystems include:

Quality system
  • Management controls;
  • Design controls;
  • Production and process controls
  • Corrective and preventative actions
  • Material controls
  • Records, documents, and change controls
  • Facilities and equipment controls

all overseen by management and quality audits.

Because the QS regulation covers a broad spectrum of devices and production processes, 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 procedures tailored to their particular processes and devices. For example, if it is impossible to mix up labels at a manufacturer because there is only one label to each product, then there is no necessity for the manufacturer to comply with all of the GMP requirements under device labeling.

Drug manufactures are regulated under a different section of the Code of Federal Regulations:

Organizations and awards

The International Organization for Standardization's ISO 9001:2015 series describes standards for a QMS addressing the principles and processes surrounding the design, development, and delivery of a general product or service. Organizations can participate in a continuing certification process to ISO 9001:2008 to demonstrate their compliance with the standard, which includes a requirement for continual (i.e. planned) improvement of the QMS, as well as more foundational QMS components such as failure mode and effects analysis (FMEA).[8]

(ISO 9000:2005 provides information on the fundamentals and vocabulary used in quality management systems. ISO 9004:2009 provides guidance on quality management approach for the sustained success of an organization. Neither of these standards can be used for certification purposes as they provide guidance, not requirements).

The Baldrige Performance Excellence Program educates organizations in improving their performance and administers the Malcolm Baldrige National Quality Award. The Baldrige Award recognizes U.S. organizations for performance excellence based on the Baldrige Criteria for Performance Excellence. The Criteria address critical aspects of management that contribute to performance excellence: leadership; strategy; customers; measurement, analysis, and knowledge management; workforce; operations; and results.

The European Foundation for Quality Management's EFQM Excellence Model supports an award scheme similar to the Baldrige Award for European companies.

In Canada, the National Quality Institute presents the 'Canada Awards for Excellence' on an annual basis to organizations that have displayed outstanding performance in the areas of Quality and Workplace Wellness, and have met the Institute's criteria with documented overall achievements and results.

The European Quality in Social Service (EQUASS) is a sector-specific quality system designed for the social services sector and addresses quality principles that are specific to service delivery to vulnerable groups, such as empowerment, rights, and person-centredness. [1]

The Alliance for Performance Excellence is a network of state and local organizations that use the Baldrige Criteria for Performance Excellence at the grassroots level to improve the performance of local organizations and economies. browsers can find Alliance members in their state and get the latest news and events from the Baldrige community.

Notes

This article reuses a few elements from the Wikipedia article.

References

  1. 1.0 1.1 1.2 1.3 Rocha-Lona, L.; Garza-Reyes, J.A.; Kumar, V. (2013). Building Quality Management Systems: Selecting the Right Methods and Tools. CRC Press. pp. 202. ISBN 9781466564992. https://books.google.com/books?id=i0sriCb7tLYC&pg=PA1. 
  2. Schlickman, J.J. (2003). ISO 9001:2000 Quality Management System Design. Artech House. p. 14. ISBN 9781580535960. https://books.google.com/books?id=FkQB4GRB7uwC. 
  3. Nanda, V. (2016). Quality Management System Handbook for Product Development Companies. CRC Press. pp. 352. ISBN 9781420025309. https://books.google.com/books?id=guizsuAAyR4C&pg=PA1. 
  4. Quality Assurance and Control. 3. Rowman & Littlefield. 2014. ISBN 9780810888883. https://books.google.com/books?id=EdwsCgAAQBAJ&pg=PA758. 
  5. 5.0 5.1 5.2 Gitlow, H.S. (2000). Quality Management Systems: A Practical Guide. CRC Press. pp. 296. ISBN 9781574442618. https://books.google.com/books?id=O5aq0HMyXOcC&pg=PA1. 
  6. "Total Quality". Learn About Quality. American Society for Quality. http://asq.org/learn-about-quality/history-of-quality/overview/total-quality.html. Retrieved 27 October 2017. 
  7. Schlickman, J.J. (2003). ISO 9001:2000 Quality Management System Design. Artech House. p. xxii. ISBN 9781580535960. https://books.google.com/books?id=FkQB4GRB7uwC. 
  8. Poksinska, Bozena; Dahlgaard, Jens Jörn; Antoni, Marc (2002). "The state of ISO 9000 certification: A study of Swedish organizations". The TQM Magazine 14 (5): 297. doi:10.1108/09544780210439734.