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Biocompatible Material Selection
2019Material selection under the guidance of the general principles must be considered from the material’s own properties and the available manufacturing processes. Manufacturing designers should consider a broad range of factors affecting the requirements and feasible options for the optimal functions, biocompatibility, and manufacturing outcomes of the ...
Raymond H. W. Lam, Weiqiang Chen
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Biocompatible Synthetic Polymers for Tissue Engineering Purposes.
Biomacromolecules, 2022Synthetic polymers have been an integral part of modern society since the early 1960s. Besides their most well-known applications to the public, such as packaging, construction, textiles and electronics, synthetic polymers have also revolutionized the ...
Z. Terzopoulou +5 more
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Biocompatibility of intraocular lens materials
Current Opinion in Ophthalmology, 2008To provide an update on currently available materials used in the manufacture of intraocular lenses, as well as new materials under development, especially with regard to their uveal and capsular biocompatibility.The biocompatibility of intraocular lens materials should be assessed in terms of uveal biocompatibility, related to the inflammatory foreign-
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Biocompatibility of Packaging Materials
2012Electronic devices or final products that are used in human medicine as extracorporeal or even electrically powered implantable medical devices are subject of a number of legal and uniform regulations. Such regulations are for example the classification of devices into one of the hazard classes I to III according to Annex IX of the Medical Device ...
Jürgen Uhlemann +2 more
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ACS Applied Materials and Interfaces, 2020
Nowadays, great effort has been devoted to establishing wearable electronics with excellent stretchability, high sensitivity, good mechanical strength and multifunctional characteristics.
Faliang He +8 more
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Nowadays, great effort has been devoted to establishing wearable electronics with excellent stretchability, high sensitivity, good mechanical strength and multifunctional characteristics.
Faliang He +8 more
semanticscholar +1 more source
2004
Advances in biomaterials have been tremendous in both surgical and medical technologies over the past 30 years. Man-made materials and devices have been developed to replace parts of living systems in the human body, providing the patient the benefits of increased longevity and improved quality of life (Wise etal., 1995; Silver, 1994).
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Advances in biomaterials have been tremendous in both surgical and medical technologies over the past 30 years. Man-made materials and devices have been developed to replace parts of living systems in the human body, providing the patient the benefits of increased longevity and improved quality of life (Wise etal., 1995; Silver, 1994).
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Biocompatible implant material
1985Since the beginning of reconstructive middle ear surgery there has always been an interest in implant materials. The use of alloplastic implant materials in the middle ear was disappointing because of extrusion.1,2However, it is worthwhile to realize that the most successful middle ear reconstruction, in otosclerosis patients, is performed with ...
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Graphene-based materials biocompatibility: A review
Colloids and Surfaces B: Biointerfaces, 2013Graphene-based materials (GBMs) have broad potential applications in biomedical engineering and biotechnology. However, existing studies regarding biological effects of GBMs often present contradictory or inconclusive results. This work presents a review of published data in order to provide a critical overview of the state of the art.
Artur Pinto +2 more
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Bioinspired Materials and Biocompatibility
2016Material science and engineering are the sources of divergent emerging technologies, since all the modifications and developments are being made to reach a novel biomaterial to fulfill the requirements of biomedical applications, the first important feature is the biocompatibility of the new advanced material.
Anil, Muge +4 more
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In vivo biocompatibility of catheter materials
Biomaterials, 1988The inflammatory response to four different catheter materials was quantitatively characterized using an in vivo cage implant system over a 21 d implantation period. The greatest differences between materials were observed at day 4, where the total leucocyte concentration in the exudate decreased in the following order: AE-PVC greater than A-PU greater
K L, Spilezewski +3 more
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