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Biocompatibility of Materials for Biomedical Engineering
2020In the tissue engineering research field, nanobiomaterials highlight the impact of novel bioactive materials in both current applications and their potentials in future progress for tissue engineering and regenerative medicine. Tissue engineering is a well-investigated and challenging biomedical field, with promising perspectives to improve and support
Yu-Chang, Tyan +3 more
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Biocompatibility of Fixation Materials in the Brain
Plastic & Reconstructive Surgery, 1997Recent clinical reports documenting passive intracranial translocation of microplates and microscrews have prompted concerns regarding brain biocompatibility and neurotoxicity of fixation hardware used in craniofacial surgery. Although the effects of commercially pure titanium. Vitallium (cobalt-chromium-molybdenum), stainless steel, and various alloys
M M, Mofid +4 more
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There is no such thing as a biocompatible material
Biomaterials, 2014This Leading Opinion Paper discusses a very important matter concerning the use of a single word in biomaterials science. This might be considered as being solely concerned with semantics, but it has implications for the scientific rationale for biomaterials selection and the understanding of their performance. That word is the adjective 'biocompatible'
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Biocompatibility of Dental Materials
Dental Clinics of North America, 2007With the long history of use of many materials in dental surgery, biocompatibility concerns are not as great a concern as other issues, such as long-term degradation, mechanical strength problems, and prevention of secondary caries. It is important, however, not to forget that the potential exists for adverse tissue responses to synthetic materials ...
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Biocompatibility of polymeric materials
Pharmaceutical Chemistry Journal, 1989High molecular weight compounds find wide application at the present time in modern medicine as raw materials for the preparation of instruments, sanitation articles, materials for stomatology, medicaments, blood substitutes, and for producing artificial organs [4, 9].
L. T. Moskvitina +7 more
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Nanostructured Biocompatible Materials
2022Engineerable materials are the backbone for nanotechnology in developing fascinating nanostructured systems. The ability to manipulate nanostructured systems to a specific application without losing their biocompatibility remains a key challenge. Nanoarchitectonics paves way for researchers to tailor supramolecular structures specific to biomedical ...
V. Karthick, Katsuhiko Ariga
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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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Biocompatible Material Development
1993A number of methods are being developed to provide improved means to inhibit host activation by the foreign materials of circulatory assist devices. Surface treatments by heparinization, polymer bulk, and surface modification to inhibit or enhance protein film formation have all shown promise in this regard.
Robert C. Eberhart +2 more
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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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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).
openaire +1 more source