Development of Clinically Relevant Implantable Pressure Sensors: Perspectives and Challenges

This review describes different aspects to consider when developing implantable pressure sensor systems. Measurement of pressure is in general highly important in clinical practice and medical research. Due to the small size, light weight and low energy consumption Micro Electro Mechanical Systems (...

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Main Authors: Ingelin Clausen, Thomas Glott
Format: Article
Language:English
Published: MDPI AG 2014-09-01
Series:Sensors
Subjects:
Online Access:http://www.mdpi.com/1424-8220/14/9/17686
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spelling doaj-60cd2d10d6f34a69920e9a0d136652fd2020-11-24T23:56:10ZengMDPI AGSensors1424-82202014-09-01149176861770210.3390/s140917686s140917686Development of Clinically Relevant Implantable Pressure Sensors: Perspectives and ChallengesIngelin Clausen0Thomas Glott1SINTEF ICT, Department of Microsystems and Nanotechnology, NO-0314 Oslo, NorwaySunnaas Rehabilitation Hospital HF, NO-1450 Nesoddtangen, NorwayThis review describes different aspects to consider when developing implantable pressure sensor systems. Measurement of pressure is in general highly important in clinical practice and medical research. Due to the small size, light weight and low energy consumption Micro Electro Mechanical Systems (MEMS) technology represents new possibilities for monitoring of physiological parameters inside the human body. Development of clinical relevant sensors requires close collaboration between technological experts and medical clinicians.  Site of operation, size restrictions, patient safety, and required measurement range and resolution, are only some conditions that must be taken into account. An implantable device has to operate under very hostile conditions. Long-term in vivo pressure measurements are particularly demanding because the pressure sensitive part of the sensor must be in direct or indirect physical contact with the medium for which we want to detect the pressure. New sensor packaging concepts are demanded and must be developed through combined effort between scientists in MEMS technology, material science, and biology. Before launching a new medical device on the market, clinical studies must be performed. Regulatory documents and international standards set the premises for how such studies shall be conducted and reported.http://www.mdpi.com/1424-8220/14/9/17686implantable MEMSpressuresensor designprotective coatingsclinical relevanceclinical study
collection DOAJ
language English
format Article
sources DOAJ
author Ingelin Clausen
Thomas Glott
spellingShingle Ingelin Clausen
Thomas Glott
Development of Clinically Relevant Implantable Pressure Sensors: Perspectives and Challenges
Sensors
implantable MEMS
pressure
sensor design
protective coatings
clinical relevance
clinical study
author_facet Ingelin Clausen
Thomas Glott
author_sort Ingelin Clausen
title Development of Clinically Relevant Implantable Pressure Sensors: Perspectives and Challenges
title_short Development of Clinically Relevant Implantable Pressure Sensors: Perspectives and Challenges
title_full Development of Clinically Relevant Implantable Pressure Sensors: Perspectives and Challenges
title_fullStr Development of Clinically Relevant Implantable Pressure Sensors: Perspectives and Challenges
title_full_unstemmed Development of Clinically Relevant Implantable Pressure Sensors: Perspectives and Challenges
title_sort development of clinically relevant implantable pressure sensors: perspectives and challenges
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2014-09-01
description This review describes different aspects to consider when developing implantable pressure sensor systems. Measurement of pressure is in general highly important in clinical practice and medical research. Due to the small size, light weight and low energy consumption Micro Electro Mechanical Systems (MEMS) technology represents new possibilities for monitoring of physiological parameters inside the human body. Development of clinical relevant sensors requires close collaboration between technological experts and medical clinicians.  Site of operation, size restrictions, patient safety, and required measurement range and resolution, are only some conditions that must be taken into account. An implantable device has to operate under very hostile conditions. Long-term in vivo pressure measurements are particularly demanding because the pressure sensitive part of the sensor must be in direct or indirect physical contact with the medium for which we want to detect the pressure. New sensor packaging concepts are demanded and must be developed through combined effort between scientists in MEMS technology, material science, and biology. Before launching a new medical device on the market, clinical studies must be performed. Regulatory documents and international standards set the premises for how such studies shall be conducted and reported.
topic implantable MEMS
pressure
sensor design
protective coatings
clinical relevance
clinical study
url http://www.mdpi.com/1424-8220/14/9/17686
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