With an ever-expanding array of biomaterials and implant devices appearing in the field, Spinal Reconstruction: Clinical Examples of Applied Basic Science, Biomechanics and Engineering helps surgeons assess and utilize the latest technologies to improve the reconstruction of the spine and enhance the reconstitution of diseased spinal segments. With illustrative descriptions of specific clinical scenarios, this guide helps surgeons select the best devices and materials for reconstructive procedures and considers issues in biocompatibility, biostability, and structure-function relationships for enhanced patient outcomes and mobility. With more than 350 figures and photographs, this book: Details current strategies in minimally invasive spine surgery as currently applied to the lumbar spine Covers the myriad of patient factors, orthobiologic grafting alternatives, and technique-driven mechanical options encountered in spinal care and reconstruction Identifies new surgical techniques for spinal fusion, vertebral compression fractures, and arthroplasty Discusses the basic mechanisms and clinical application of currently available operative treatments Supplies the most up-to-date information on the evaluation, diagnosis, and operative treatment of spinal pain, deformity, and disease

With an ever-expanding array of biomaterials and implant devices appearing in the field, Spinal Reconstruction: Clinical Examples of Applied Basic Science, Biomechanics and Engineering helps surgeons assess and utilize the latest technologies to improve the reconstruction of the spine and enhance the reconstitution of diseased spinal segments. With illustrative descriptions of specific clinical scenarios, this guide helps surgeons select the best devices and materials for reconstructive procedures and considers issues in biocompatibility, biostability, and structure-function relationships for enhanced patient outcomes and mobility. With more than 350 figures and photographs, this book: Details current strategies in minimally invasive spine surgery as currently applied to the lumbar spine Covers the myriad of patient factors, orthobiologic grafting alternatives, and technique-driven mechanical options encountered in spinal care and reconstruction Identifies new surgical techniques for spinal fusion, vertebral compression fractures, and arthroplasty Discusses the basic mechanisms and clinical application of currently available operative treatments Supplies the most up-to-date information on the evaluation, diagnosis, and operative treatment of spinal pain, deformity, and disease

The medical device and drug industries standards in analytical methodology and are consistently among the strongest techno- quality control. logical performers. Materials are a key The users of Biomaterials Engineering ingredient in their dynamic growth. Devel- and Devices: Human Applications will r- opment of these materials is in a constant resent a broad base of backgrounds ranging state of activity, with the challenge of re- from the basic sciences (e. g. , polymer placing old materials that cannot withstand chemistry and biochemistry) to more the tests of time, and the new materials' applied disciplines (e. g. , mechanical/ needs coming to the forefront in modern chemical engineering, orthopedics, and applications. This new reference text, pharmaceutics). To meet varied needs, each Biomaterials Engineering and Devices: chapter provides clear ancd fully detailed Human Applications, focuses on materials discussions. This in-depth, but practical, used in or on the human body-materials coverage should also assist recent indu- that define the world of "biomaterials. " ees to the biomaterials circle. The editors Biomaterials Engineering and Devices: trust that this reference textbook conveys Human Applications focuses on mate- the intensity of this fast moving field in an rials development and characterization. enthusastic presentation. Chapters deal with issues in the selection of Donald L. Wise, PHD proper biomaterials from biocompatibility Debra J. Trantolo, PHD to biostability to structure/function relation- Kai-Uwe Lewandrowski, MD ships. Chapters also focus on the use of Joseph D. Gresser, PHD specific biomaterials based on their physio- Mario V.

Nineteen cutting-edge articles by leading practitioners review critical issues concerning biocompatible materials-polymers, metals, and other materials-used in or on the human body. Topics range from biopolymers used in controlled release drug delivery systems and synthetic burn-wound dressings to specific orthopedic devices. Each application-oriented article integrates basic science, engineering and medical experience with discussions of quality control. The contributors offer a wealth of valuable data and experience to materials scientists, research engineers, and academic physicians and surgeons. Their many examples provide rich insights into our experience today with a broad spectrum of modern biomaterials applications.

Authoritative international experts comprehensively review many current state-of-the-art uses of polymers, metals, and ceramics in the human body. A veritable encyclopedia of valuable data and experience, this volume not only fully addresses the major issues of compatibility and functionality, but also provides a technical treatise on the design and evaluation of biomaterials for vascular application and on biomaterials as carriers for bioactive agents. A second volume, Biomaterials Engineering and Devices: Human Applications, Volume 2 is devoted to biomaterials for dental applications, bony biomaterials for grafting applications, and orthopedic fixtures and cements. Extensively illustrated and referenced, Biomaterials Engineering and Devices: Human Applications, Volume 1: Fundamentals and Vascular and Carrier Applications integrates for today's bioengineering professionals the basic science, engineering, and practical medical experience needed to meet the ever-growing demand for new and better biomaterials.

The medical device and drug industries standards in analytical methodology and are consistently among the strongest techno- quality control. logical performers. Materials are a key The users of Biomaterials Engineering ingredient in their dynamic growth. Devel- and Devices: Human Applications will r- opment of these materials is in a constant resent a broad base of backgrounds ranging state of activity, with the challenge of re- from the basic sciences (e. g. , polymer placing old materials that cannot withstand chemistry and biochemistry) to more the tests of time, and the new materials' applied disciplines (e. g. , mechanical/ needs coming to the forefront in modern chemical engineering, orthopedics, and applications. This new reference text, pharmaceutics). To meet varied needs, each Biomaterials Engineering and Devices: chapter provides clear ancd fully detailed Human Applications, focuses on materials discussions. This in-depth, but practical, used in or on the human body-materials coverage should also assist recent indu- that define the world of "biomaterials. " ees to the biomaterials circle. The editors Biomaterials Engineering and Devices: trust that this reference textbook conveys Human Applications focuses on mate- the intensity of this fast moving field in an rials development and characterization. enthusastic presentation. Chapters deal with issues in the selection of Donald L. Wise, PHD proper biomaterials from biocompatibility Debra J. Trantolo, PHD to biostability to structure/function relation- Kai-Uwe Lewandrowski, MD ships. Chapters also focus on the use of Joseph D. Gresser, PHD specific biomaterials based on their physio- Mario V.

Nineteen cutting-edge articles by leading practitioners review critical issues concerning biocompatible materials-polymers, metals, and other materials-used in or on the human body. Topics range from biopolymers used in controlled release drug delivery systems and synthetic burn-wound dressings to specific orthopedic devices. Each application-oriented article integrates basic science, engineering and medical experience with discussions of quality control. The contributors offer a wealth of valuable data and experience to materials scientists, research engineers, and academic physicians and surgeons. Their many examples provide rich insights into our experience today with a broad spectrum of modern biomaterials applications.

Authoritative international experts comprehensively review many current state-of-the-art uses of polymers, metals, and ceramics in the human body. A veritable encyclopedia of valuable data and experience, this volume not only fully addresses the major issues of compatibility and functionality, but also provides a technical treatise on the design and evaluation of biomaterials for vascular application and on biomaterials as carriers for bioactive agents. A second volume, Biomaterials Engineering and Devices: Human Applications, Volume 2 is devoted to biomaterials for dental applications, bony biomaterials for grafting applications, and orthopedic fixtures and cements. Extensively illustrated and referenced, Biomaterials Engineering and Devices: Human Applications, Volume 1: Fundamentals and Vascular and Carrier Applications integrates for today's bioengineering professionals the basic science, engineering, and practical medical experience needed to meet the ever-growing demand for new and better biomaterials.

Essential to anyone working in the field, this reference focuses on rencent advancements in tissue construction, repair and regeneration examining developments in gene and drug therapy, the evolution of tissue-engineered products, and new technologies for the design of functional tissues and organ systems.

"Furnishes the necessary background information, methods of characterization, and applications of optic and photonic systems based on polymers. Provides detailed tutorial chapters that offer in-depth explanations of optic and photonic fundamentals and synthesis techniques."