Add to ORKGABSTRACT: Microfluidic glucose biosensors and potassium ion selective electrodes were used in an in vivo study to measure the neurochemical effects of spreading depolarizations (SD), which have been shown to be detrimental to the injured human brain. A microdialysis probe implanted in the cortex of rats was connected to a microfluidic PDMS chip containing the sensors. The dialysate was also analyzed using our gold standard, rapid sampling microdialysis (rsMD). The glucose biosensor performance was validated against rsMD with excellent results. The glucose biosensors successfully monitored concentration changes, in response to SD wave induction, in the range of 10−400 μM with a second time-resolution. The data show that during a SD wave, the...
Spreading depolarizations (SD) occur in high frequency in patients with malignant hemispheric stroke...
AbstractContemporary biomarker collection techniques in blood and cerebrospinal fluid have to date o...
A method to monitor extracellular glucose in freely moving rats, based on intracerebral microdialysi...
The primary focus of this thesis is the development of a digital microfluidic based system with int...
Spreading depolarization (SD) is a slow propagating wave of strong depolarization of neural cells, i...
Microdialysis is well established in chemical neuroscience as a mainstay technology for real time in...
This paper presents the design, optimisation and fabrication of a mechanically robust 3D printed mic...
This thesis focuses on the development and use of analysis tools to monitor brain injury patients. F...
International audienceMonitoring the chemical composition of the brain interstitial fluid is an impo...
Monitoring the concentration dynamics of neurochemicals in the brain is a key tool in the effort to ...
Traumatic brain injury (TBI) is a major cause of death and disability worldwide. The focus of my res...
Continuous glucose monitoring (CGM) is an important aid for diabetic patients to optimize glycemic c...
Microdialysis coupled to a glucose biosensor led to a continuous monitor system in vivo for glucose....
The redox-active nature of certain neurotransmitters released from cells, such as catecholamines, al...
There is considerable need in neuroscience research to reliably measure concentrations of extracellu...
Spreading depolarizations (SD) occur in high frequency in patients with malignant hemispheric stroke...
AbstractContemporary biomarker collection techniques in blood and cerebrospinal fluid have to date o...
A method to monitor extracellular glucose in freely moving rats, based on intracerebral microdialysi...
The primary focus of this thesis is the development of a digital microfluidic based system with int...
Spreading depolarization (SD) is a slow propagating wave of strong depolarization of neural cells, i...
Microdialysis is well established in chemical neuroscience as a mainstay technology for real time in...
This paper presents the design, optimisation and fabrication of a mechanically robust 3D printed mic...
This thesis focuses on the development and use of analysis tools to monitor brain injury patients. F...
International audienceMonitoring the chemical composition of the brain interstitial fluid is an impo...
Monitoring the concentration dynamics of neurochemicals in the brain is a key tool in the effort to ...
Traumatic brain injury (TBI) is a major cause of death and disability worldwide. The focus of my res...
Continuous glucose monitoring (CGM) is an important aid for diabetic patients to optimize glycemic c...
Microdialysis coupled to a glucose biosensor led to a continuous monitor system in vivo for glucose....
The redox-active nature of certain neurotransmitters released from cells, such as catecholamines, al...
There is considerable need in neuroscience research to reliably measure concentrations of extracellu...
Spreading depolarizations (SD) occur in high frequency in patients with malignant hemispheric stroke...
AbstractContemporary biomarker collection techniques in blood and cerebrospinal fluid have to date o...
A method to monitor extracellular glucose in freely moving rats, based on intracerebral microdialysi...