Development and production of sterile medical devices demand for guaranteeing the absence of viable microorganisms in the finished product, preserving the required properties and performances of materials. This paper aims to review available sterilization methods, and to discuss how traditional and innovative sterilization processes can affect biomedical materials and medical devices
Tissue engineering is a multidisciplinary field that develops biological substitutes to restore, mai...
Ethylene oxide is a dominant agent in the sterilization of medical devices due to its effectiveness...
This article the necessary research and work that preceded the introduction of radiation sterilizati...
Biopolymers have been found useful in biomedical applications because of their biocompatibility and ...
How sterilization techniques accurately affect the properties of biopolymers continues to be an issu...
How sterilization techniques accurately affect the properties of biopolymers continues to be an issu...
Sterilization problems of various biopolymers used as biomaterials are still continuing today. Since...
How sterilization techniques accurately affect the properties of biopolymers continues to be an issu...
Biodegradable scaffolds have been extensively studied due to their wide applications in biomaterials...
It is an exciting time in surgical procedure development and instrument design. In parallel with the...
We have analyzed the state-of-the-art methods for sterilization of bone implants. The problem of fin...
The increasing complexity in morphology and composition of modern biomedical materials (e.g., soft a...
The medical device industry is currently under pressure to improve the sustainability of the product...
© 2017 Bentham Science Publishers. Background: Many researches involving the development of new tech...
Elimination of potentially harmful microorganisms presented on surfaces of wide variety of devices, ...
Tissue engineering is a multidisciplinary field that develops biological substitutes to restore, mai...
Ethylene oxide is a dominant agent in the sterilization of medical devices due to its effectiveness...
This article the necessary research and work that preceded the introduction of radiation sterilizati...
Biopolymers have been found useful in biomedical applications because of their biocompatibility and ...
How sterilization techniques accurately affect the properties of biopolymers continues to be an issu...
How sterilization techniques accurately affect the properties of biopolymers continues to be an issu...
Sterilization problems of various biopolymers used as biomaterials are still continuing today. Since...
How sterilization techniques accurately affect the properties of biopolymers continues to be an issu...
Biodegradable scaffolds have been extensively studied due to their wide applications in biomaterials...
It is an exciting time in surgical procedure development and instrument design. In parallel with the...
We have analyzed the state-of-the-art methods for sterilization of bone implants. The problem of fin...
The increasing complexity in morphology and composition of modern biomedical materials (e.g., soft a...
The medical device industry is currently under pressure to improve the sustainability of the product...
© 2017 Bentham Science Publishers. Background: Many researches involving the development of new tech...
Elimination of potentially harmful microorganisms presented on surfaces of wide variety of devices, ...
Tissue engineering is a multidisciplinary field that develops biological substitutes to restore, mai...
Ethylene oxide is a dominant agent in the sterilization of medical devices due to its effectiveness...
This article the necessary research and work that preceded the introduction of radiation sterilizati...
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