Handbook Of Polymer Applications In Medicine And Medical Devices PDF Download

Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Handbook Of Polymer Applications In Medicine And Medical Devices PDF full book. Access full book title Handbook Of Polymer Applications In Medicine And Medical Devices.

Handbook of Polymer Applications in Medicine and Medical Devices

Handbook of Polymer Applications in Medicine and Medical Devices
Author: Zheng Zhang
Publisher: Elsevier Inc. Chapters
Total Pages: 72
Release: 2013-12-05
Genre: Technology & Engineering
ISBN: 0128076755
GET BOOK

Download Handbook of Polymer Applications in Medicine and Medical Devices Book in PDF, ePub and Kindle

The design and development of tissue-engineered products has benefited from many years of clinical utilization of a wide range of biodegradable polymers. Newly developed biodegradable polymers and modifications of previously developed biodegradable polymers have enhanced the tools available for creating clinically important tissue-engineering applications. Insights gained from studies of cell-matrix interactions, cell-cell signaling, and organization of cellular components, are placing increased demands on medical implants to interact with the patient’s tissue in a more biologically appropriate fashion. Whereas in the twentieth century biocompatibility was largely equated with eliciting no harmful response, the biomaterials of the twenty first century will have to elicit tissue responses that support healing or regeneration of the patient’s own tissue. This chapter surveys the universe of those biodegradable polymers that may be useful in the development of medical implants and tissue-engineered products. Here, we distinguish between biologically derived polymers and synthetic polymers. The materials are described in terms of their chemical composition, breakdown products, mechanism of breakdown, mechanical properties, and clinical limitations. Also discussed are product design considerations in processing of biomaterials into a final form (e.g., gel, membrane, matrix) that will effect the desired tissue response.

Handbook of Polymer Applications in Medicine and Medical Devices

Handbook of Polymer Applications in Medicine and Medical Devices
Author: Kayvon Modjarrad
Publisher: Elsevier
Total Pages: 365
Release: 2013-12-05
Genre: Medical
ISBN: 0323221696
GET BOOK

Download Handbook of Polymer Applications in Medicine and Medical Devices Book in PDF, ePub and Kindle

While the prevalence of plastics and elastomers in medical devices is now quite well known, there is less information available covering the use of medical devices and the applications of polymers beyond medical devices, such as in hydrogels, biopolymers and silicones beyond enhancement applications, and few books in which these are combined into a single reference. This book is a comprehensive reference source, bringing together a number of key medical polymer topics in one place for a broad audience of engineers and scientists, especially those currently developing new medical devices or seeking more information about current and future applications. In addition to a broad range of applications, the book also covers clinical outcomes and complications arising from the use of the polymers in the body, giving engineers a vital insight into the real world implications of the devices they’re creating. Regulatory issues are also covered in detail. The book also presents the latest developments on the use of polymers in medicine and development of nano-scale devices. Gathers discussions of a large number of applications of polymers in medicine in one place Provides an insight into both the legal and clinical implications of device design Relevant to industry, academic and medical professionals Presents the latest developments in the field, including medical devices on a nano-scale

Handbook of Polymer Applications in Medicine and Medical Devices

Handbook of Polymer Applications in Medicine and Medical Devices
Author: Len Czuba
Publisher: Elsevier Inc. Chapters
Total Pages: 27
Release: 2013-12-05
Genre: Technology & Engineering
ISBN: 012807664X
GET BOOK

Download Handbook of Polymer Applications in Medicine and Medical Devices Book in PDF, ePub and Kindle

This chapter will present a look at the medical device market with a particular focus on the materials of construction of devices and what we can expect in new products looking ahead. A deeper look at some other trends that have an effect on the direction of the medical device industry will be done. Finally, consideration will be given to a number of global factors that can have dramatic effects on our industry.

Handbook of Polymer Applications in Medicine and Medical Devices

Handbook of Polymer Applications in Medicine and Medical Devices
Author: André Colas
Publisher: Elsevier Inc. Chapters
Total Pages: 35
Release: 2013-12-05
Genre: Technology & Engineering
ISBN: 0128076690
GET BOOK

Download Handbook of Polymer Applications in Medicine and Medical Devices Book in PDF, ePub and Kindle

Silicone materials have been widely used in medicine for over 60 years. Available in a variety of material types, they have unique chemical and physical properties that manifest in excellent biocompatibility and biodurability for many applications. Silicone elastomers have remarkably low glass-transition temperatures and maintain their flexibility over a wide temperature range, enabling them to withstand conditions from cold storage to steam autoclaving. They have high permeability to gases and many drugs, advantageous respectively in wound care or in transdermal drug delivery. They have low surface tension and remarkable chemical stability, enabling biocompatibility and biodurability in many long-term implant applications.

Handbook of Polymer Applications in Medicine and Medical Devices

Handbook of Polymer Applications in Medicine and Medical Devices
Author: Vinny R. Sastri
Publisher: Elsevier Inc. Chapters
Total Pages: 27
Release: 2013-12-05
Genre: Technology & Engineering
ISBN: 0128076763
GET BOOK

Download Handbook of Polymer Applications in Medicine and Medical Devices Book in PDF, ePub and Kindle

Over the past 2000 years, many devices have been developed and used in the mitigation and diagnosis of diseases. The materials used in these devices have ranged from stone, wood, metal, ceramics, and most recently plastics. Medical devices have also evolved in sophistication and complexity over time. With the formalization of the scientific method in the seventeenth century such devices became more prevalent [1]. Many medical devices were manufactured by doctors or small companies and sold directly to the public with no government standards or oversight. With the explosion of medical technology in the early twentieth century, several intermediaries had evolved between the medical device industry and the public. In 1879, Dr E.R. Squibb, in an address to the Medical Society of the State of New York, proposed the enactment of a national statute to regulate food and drugs [2]. It was not until 27 years later that the Food and Drug Act of 1906 was introduced into the Congress and signed into law by President Theodore Roosevelt [3]. At that time, devices that were harmful to human safety and health proliferated the market but regulation of medical devices by the Bureau of Chemistry (the precursor to the Food and Drug Administration—FDA) was limited to challenging commercial products only after they had been released into the market. Devices in the marketplace that were defective, adulterated, or misbranded were seized and the device manufacturers were prosecuted in a court of law, but only after the products were sold in the market and caused harm to the end users. Thus, there was a strong need for regulating the devices before they entered the marketplace. An FDA report [4], issued in September 1970, detailed as many as 10,000 injuries and 731 deaths from ineffective medical devices. The report recommended the formation of a regulatory system and body that would enforce the production and sale of safe and effective devices to the public. All medical devices already on the market would be inventoried and classified into a three-tiered system based on their criticality of end use. It also detailed requirements for records and reports, registration and inspection of establishments, and uniform quality assurance programs called good manufacturing practices (GMP). After much lobbying by the FDA, Senate bill SR 510, “The Medical Device Amendments of 1973” was introduced by Senator Edward M. Kennedy and was passed by the Senate in 1975. House bill HR 11124, introduced by Representative Paul Rogers, was passed by the House in 1976. These bills eventually became the Medical Device Amendments of 1976, and were signed into law by President Nixon. The Medical Device Amendments of 1976 became the basis for the medical device regulation in the United States to control and regulate the production of finished devices and thus the device manufacturers themselves.

Handbook of Polymer Applications in Medicine and Medical Devices

Handbook of Polymer Applications in Medicine and Medical Devices
Author: Wei He
Publisher: Elsevier Inc. Chapters
Total Pages: 48
Release: 2013-12-05
Genre: Technology & Engineering
ISBN: 0128076666
GET BOOK

Download Handbook of Polymer Applications in Medicine and Medical Devices Book in PDF, ePub and Kindle

Biomaterials are an indispensable element in improving human health and quality of life. Applications of biomaterials include diagnostics (gene arrays and biosensors), medical supplies (blood bags and surgical tools), therapeutic treatments (medical implants and devices), and emerging regenerative medicine (tissue-engineered skin and cartilage). Polymers, being organic, offer a versatility that is unmatched by metals and ceramics. The wide spectrum of physical, mechanical, and chemical properties provided by polymers has fueled the extensive research, development, and applications of polymeric biomaterials. The significance of polymers as biomaterials is reflected in the market size of medical polymers, estimated to be approximately $1 billion. Many of these polymers were initially developed as plastics, elastomers, and fibers for nonmedical industrial applications, but were later developed as biomedical-specific materials. With rapid growth in modern biology and interdisciplinary collaborative efforts, polymeric biomaterials are being fashioned into bioactive and biomimetic materials, with excellent biocompatibility.

Handbook of Polymer Applications in Medicine and Medical Devices

Handbook of Polymer Applications in Medicine and Medical Devices
Author: Laurence W. McKeen
Publisher: Elsevier Inc. Chapters
Total Pages: 72
Release: 2013-12-05
Genre: Technology & Engineering
ISBN: 0128076658
GET BOOK

Download Handbook of Polymer Applications in Medicine and Medical Devices Book in PDF, ePub and Kindle

Medical devices range from simple devices, to test equipment, to implants. Plastics are used more and more in these devices, for weight, cost, and performance purposes. Examples of medical devices include surgical instruments, catheters, coronary stents, pacemakers, magnetic resonance imaging (MRI) machines, X-ray machines, prosthetic limbs, artificial hips/knees, surgical gloves, and bandages.

Handbook of Polymer Applications in Medicine and Medical Devices

Handbook of Polymer Applications in Medicine and Medical Devices
Author: Kayvon Modjarrad
Publisher: Elsevier Inc. Chapters
Total Pages: 22
Release: 2013-12-05
Genre: Technology & Engineering
ISBN: 0128076631
GET BOOK

Download Handbook of Polymer Applications in Medicine and Medical Devices Book in PDF, ePub and Kindle

The history of plastics and medical devices traces a complex course of slowly evolving ideas punctuated by moments of intellectual revolution. When viewed from the vantage of retrospect, it becomes apparent that milestones in the progress of biomaterial science represent culminations of gradual shifts in theory and iterative experimentation. This has been as true for methodological developments in polymer chemistry as it has for technological breakthroughs in medical equipment design. The two disciplines, though now inextricable from one another, initially advanced along largely separate and occasionally redundant paths. Until the latter decades of the twentieth century, physicians and surgeons modified existing materials to create and refine devices according to their clinical needs while chemists and engineers synthesized materials de novo without specific attention to their potential medical applications. In the modern era, however, the lines between the chemical and biological sciences have blurred, paving way for an interdisciplinary approach toward the design and application of medical plastics.

Handbook of Polymer Applications in Medicine and Medical Devices

Handbook of Polymer Applications in Medicine and Medical Devices
Author: Justin M. Saul
Publisher: Elsevier Inc. Chapters
Total Pages: 55
Release: 2013-12-05
Genre: Technology & Engineering
ISBN: 0128076747
GET BOOK

Download Handbook of Polymer Applications in Medicine and Medical Devices Book in PDF, ePub and Kindle

Hydrogels are crosslinked polymeric networks containing hydrophilic groups that promote swelling due to interaction with water [1]. While hydrogels are heavily used in the field of regenerative medicine, their application to biomedical systems is not new. In fact, it has been suggested that they were truly the first polymer materials to be developed for use in man [2]. They have been in use for clinical applications since the 1960s, initially for use in ocular applications including contact lenses and intraocular lenses due to their favorable oxygen permeability and lack of irritation leading to inflammation and foreign body response, which was observed with other plastics [3]. Before the concept of tissue engineering and regenerative medicine had gained traction, hydrogels were used for cell encapsulation [4]. They have also been utilized extensively in the clinic for wound healing applications due to their oxygen permeability, high water content, and ability to shield wounds from external agents. Perhaps the largest research focus and utility of hydrogels has been found in their use as controlled release systems. This combination of controlled release and cell encapsulation has led to increasing uses of hydrogels in regenerative medicine applications.