Add to ORKGAbstract- Enzyme based biosensors suffer from loss of activity and sensitivity through a variety of processes. One major reason for the loss is through large molecular weight proteins settling onto the sensor and affecting sensor signal stability and disrupting enzyme function. One way to minimize loss of sensor activity is to filter out large molecular weight compounds before sensing small biochemicals such as glucose. A novel microdialysis microneedle is introduced that is capable of excluding large MW compounds based on size. Preliminary experimental evidence of membrane permeability is shown, as well as diffusion and permeability modeling. Solutions should be able to equilibrate across the microdialysis membrane in a few seconds, as opp...
A continuous blood glucose monitoring system (CGMS) which include a microneedle-array blood glucose ...
Lab-Under-The-Skin based on a microneedle platform opens a new realm of possibilities that can shape...
In this work we demonstrate a novel microfluidic based platform to investigate the performance of 3D...
Abstract – Enzyme based biosensors suffer from loss of activity and sensitivity through a variety o...
Abstract. Enzyme based biosensors suffer from loss of activity and sensitivity through a variety of ...
Microneedle enzyme sensors by virtue of their minimally invasive and hence pain-free penetration of ...
This paper presents a disposable minimally invasive self-calibrating continuous glucose monitor cons...
Interdisciplinary research between medicine and microsystem engineering creates new possibilities to...
The first invention of glucose biosensor was made by Leland Clark in the mid of 20th century. He wa...
The next generation of devices for personal healthcare monitoring will comprise molecular sensors to...
New approaches to enable more effective management of diabetes mellitus, such as continuous glucose ...
Abstract Microneedles (MNs) have been established as promising medical devices as they are minimally...
Microdialysis coupled to a glucose biosensor led to a continuous monitor system in vivo for glucose....
Background: Tight regulation of blood glucose levels from patients suffering from diabetes mellitus ...
AbstractThe next generation of devices for personal healthcare monitoring will comprise molecular se...
A continuous blood glucose monitoring system (CGMS) which include a microneedle-array blood glucose ...
Lab-Under-The-Skin based on a microneedle platform opens a new realm of possibilities that can shape...
In this work we demonstrate a novel microfluidic based platform to investigate the performance of 3D...
Abstract – Enzyme based biosensors suffer from loss of activity and sensitivity through a variety o...
Abstract. Enzyme based biosensors suffer from loss of activity and sensitivity through a variety of ...
Microneedle enzyme sensors by virtue of their minimally invasive and hence pain-free penetration of ...
This paper presents a disposable minimally invasive self-calibrating continuous glucose monitor cons...
Interdisciplinary research between medicine and microsystem engineering creates new possibilities to...
The first invention of glucose biosensor was made by Leland Clark in the mid of 20th century. He wa...
The next generation of devices for personal healthcare monitoring will comprise molecular sensors to...
New approaches to enable more effective management of diabetes mellitus, such as continuous glucose ...
Abstract Microneedles (MNs) have been established as promising medical devices as they are minimally...
Microdialysis coupled to a glucose biosensor led to a continuous monitor system in vivo for glucose....
Background: Tight regulation of blood glucose levels from patients suffering from diabetes mellitus ...
AbstractThe next generation of devices for personal healthcare monitoring will comprise molecular se...
A continuous blood glucose monitoring system (CGMS) which include a microneedle-array blood glucose ...
Lab-Under-The-Skin based on a microneedle platform opens a new realm of possibilities that can shape...
In this work we demonstrate a novel microfluidic based platform to investigate the performance of 3D...