Add to ORKGThis report describes a method for integration of a gel–liquid interface in hollow microneedles compatible with minimally invasive, electrochemical detection of drugs in vivo. The electrochemical sensor was characterised using cyclic voltammetry with tetraethyl ammonium. The experimental work demonstrated the detection of propranolol as a representative drug in physiological buffer with the microneedle system. A calibration curve for propranolol was built from measurements with differential pulse stripping voltammetry, indicating a sensitivity of 43nAμM−1, a limit of detection of 50nM and a linear range between 50 and 200nM
Therapeutic drug monitoring is essential for dosing pharmaceuticals with narrow therapeutic windows....
The development of a minimally invasive multiplexed monitoring system for rapid analysis of biologic...
In this work, the ion-transfer voltammetric detection of the protonated β-blocker propranolol was ex...
International audienceThis report describes a method for integration of a gel-liquid interface in ho...
This report describes a method for integration of a gel–liquid interface in hollow microneedles comp...
In this work, the ion-transfer voltammetric detection ofthe protonated -blocker propranolol in artif...
Abstract: Wearable devices based on microneedle (MN) technology have recently emerged as tools for i...
As a significant part of drug therapy, the mode of drug transport has attracted worldwide attention....
In this work, the effect of the serum protein, bovine serum albumin (BSA), on the detection of propr...
Microneedle enzyme sensors by virtue of their minimally invasive and hence pain-free penetration of ...
Levodopa is the most effective medication for treating Parkinson's disease (PD). However, because do...
Lab-Under-The-Skin based on a microneedle platform opens a new realm of possibilities that can shape...
Antimicrobial resistance is a leading patient safety issue. There is a need to develop novel mechani...
New approaches to enable more effective management of diabetes mellitus, such as continuous glucose ...
In this work, the ion-transfer voltammetric detection of the protonated -blocker propranolol was exp...
Therapeutic drug monitoring is essential for dosing pharmaceuticals with narrow therapeutic windows....
The development of a minimally invasive multiplexed monitoring system for rapid analysis of biologic...
In this work, the ion-transfer voltammetric detection of the protonated β-blocker propranolol was ex...
International audienceThis report describes a method for integration of a gel-liquid interface in ho...
This report describes a method for integration of a gel–liquid interface in hollow microneedles comp...
In this work, the ion-transfer voltammetric detection ofthe protonated -blocker propranolol in artif...
Abstract: Wearable devices based on microneedle (MN) technology have recently emerged as tools for i...
As a significant part of drug therapy, the mode of drug transport has attracted worldwide attention....
In this work, the effect of the serum protein, bovine serum albumin (BSA), on the detection of propr...
Microneedle enzyme sensors by virtue of their minimally invasive and hence pain-free penetration of ...
Levodopa is the most effective medication for treating Parkinson's disease (PD). However, because do...
Lab-Under-The-Skin based on a microneedle platform opens a new realm of possibilities that can shape...
Antimicrobial resistance is a leading patient safety issue. There is a need to develop novel mechani...
New approaches to enable more effective management of diabetes mellitus, such as continuous glucose ...
In this work, the ion-transfer voltammetric detection of the protonated -blocker propranolol was exp...
Therapeutic drug monitoring is essential for dosing pharmaceuticals with narrow therapeutic windows....
The development of a minimally invasive multiplexed monitoring system for rapid analysis of biologic...
In this work, the ion-transfer voltammetric detection of the protonated β-blocker propranolol was ex...