The Micro-Electro-Mechanical Systems (MEMS) have found wide application in medicine these days. Lots of them are used in form of implanted devices which usually demand complicated design and fabrication requirements. One of the most important issues for implantable MEMS is to be biocompatible. An implant usually needs a coating which can withstand the aggressive body fluid as well as being biocompatible. The coating must protect the sensor in the environment of the body. Meanwhile, it should not disturb the implant performance or damage the host tissue. This work aims to evaluate different biocompatible coatings on an implantable MEMS pressure sensor. The Effects of coatings on the sensors' sensitivity and thermal characteristics has been s...
Medical implants play a central role in modern medicine and both, naturally derived and synthetic ma...
Biomicroelectromechanical systems (bio-MEMS) are MEMS which are designed for medical or biological a...
The paper shows the potential of micro machined sensors for implantation and monitoring of patients....
Biological Micro-Electro-Mechanical Systems (BioMEMS) is one of the forefronts of research for adapt...
Within this paper we will describe the investigations of biocompatibility testing of certain materia...
Abstract The biocompatibility and biofouling of the microfabrication materials for a MEMS drug deliv...
Our understanding and use of biomaterials evolves according to our understanding of the phenomenon o...
The encapsulation of electronic systems to be implanted in the human body has to ensure a hermetic s...
Coatings on implants are aimed to achieve some or all of the improvements in abrasion, corrosion res...
El éxito de un material biocompatible está intrínsecamente ligado con el mejoramiento de sus propied...
This review describes different aspects to consider when developing implantable pressure sensor syst...
7/8/2016Implantable medical devices hold great promise to treat and prevent chronic conditions, but ...
MEMS devices are manufactured using similar microfabrica-tion techniques as those used to create int...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
In recent years, the innovative use of microelectromechanical systems (MEMSs) and nanoelectromechani...
Medical implants play a central role in modern medicine and both, naturally derived and synthetic ma...
Biomicroelectromechanical systems (bio-MEMS) are MEMS which are designed for medical or biological a...
The paper shows the potential of micro machined sensors for implantation and monitoring of patients....
Biological Micro-Electro-Mechanical Systems (BioMEMS) is one of the forefronts of research for adapt...
Within this paper we will describe the investigations of biocompatibility testing of certain materia...
Abstract The biocompatibility and biofouling of the microfabrication materials for a MEMS drug deliv...
Our understanding and use of biomaterials evolves according to our understanding of the phenomenon o...
The encapsulation of electronic systems to be implanted in the human body has to ensure a hermetic s...
Coatings on implants are aimed to achieve some or all of the improvements in abrasion, corrosion res...
El éxito de un material biocompatible está intrínsecamente ligado con el mejoramiento de sus propied...
This review describes different aspects to consider when developing implantable pressure sensor syst...
7/8/2016Implantable medical devices hold great promise to treat and prevent chronic conditions, but ...
MEMS devices are manufactured using similar microfabrica-tion techniques as those used to create int...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
In recent years, the innovative use of microelectromechanical systems (MEMSs) and nanoelectromechani...
Medical implants play a central role in modern medicine and both, naturally derived and synthetic ma...
Biomicroelectromechanical systems (bio-MEMS) are MEMS which are designed for medical or biological a...
The paper shows the potential of micro machined sensors for implantation and monitoring of patients....