Add to ORKGMillisecond changes in the optical properties of the human brain during stimulation were detected in five volunteers using noninvasive frequency-domain near-infrared spectroscopy. During a motor stimulation task we found highly significant signals, which were directly related to neuronal activity and exhibited much more localized patterns than the slow hemodynamic signals that are also detected by the near-infrared method. We considerably reduced the noise in the instrumental system and improved data analysis algorithms. With the achieved signal-to-noise ratio, single subject measurements were feasible without the requirement of particularly strong stimuli and within a reasonable period of measurement of 5 min at a mean signal-to-noise rati...
International audienceWe have developed a broadband time-resolved multi-channel near-infrared spectr...
We report on motor cortex hemodynamic responses to different motor tasks on humans in ecological env...
We have non-invasively studied the motor cortex hemodynamics in human subjects under rest and motor ...
Millisecond changes in the optical properties of the human brain during stimulation were detected in...
Fast changes, in the range of milliseconds, in the optical properties of cerebral tissue are associa...
Brain activity is associated with physiological changes, which alter the optical properties of the t...
The aim of our study was to explore the possibility of detecting hemodynamic changes in the brain us...
Using near-infrared-spectroscopy a slow signal due to hemodynamic changes following brain activity i...
We have noninvasively studied the motor cortex hemodynamics in human subjects under rest and motor s...
We review our most recent results on near-IR studies of human brain activity, which have been evolvi...
Near infrared spectroscopy (NIRS) is now an established non-invasively clinical technique to detect ...
Studies of neurovascular coupling (hemodynamic changes and neuronal activation) in the visual cortex...
The human brain is one of the most complex systems that mankind has ever known. Neuronal disorders i...
Functional near-infrared spectroscopy (fNIRS) is an emerging technique in studying cerebral hemodyna...
The aim of this study was to compare functional cerebral hemodynamic signals obtained simultaneously...
International audienceWe have developed a broadband time-resolved multi-channel near-infrared spectr...
We report on motor cortex hemodynamic responses to different motor tasks on humans in ecological env...
We have non-invasively studied the motor cortex hemodynamics in human subjects under rest and motor ...
Millisecond changes in the optical properties of the human brain during stimulation were detected in...
Fast changes, in the range of milliseconds, in the optical properties of cerebral tissue are associa...
Brain activity is associated with physiological changes, which alter the optical properties of the t...
The aim of our study was to explore the possibility of detecting hemodynamic changes in the brain us...
Using near-infrared-spectroscopy a slow signal due to hemodynamic changes following brain activity i...
We have noninvasively studied the motor cortex hemodynamics in human subjects under rest and motor s...
We review our most recent results on near-IR studies of human brain activity, which have been evolvi...
Near infrared spectroscopy (NIRS) is now an established non-invasively clinical technique to detect ...
Studies of neurovascular coupling (hemodynamic changes and neuronal activation) in the visual cortex...
The human brain is one of the most complex systems that mankind has ever known. Neuronal disorders i...
Functional near-infrared spectroscopy (fNIRS) is an emerging technique in studying cerebral hemodyna...
The aim of this study was to compare functional cerebral hemodynamic signals obtained simultaneously...
International audienceWe have developed a broadband time-resolved multi-channel near-infrared spectr...
We report on motor cortex hemodynamic responses to different motor tasks on humans in ecological env...
We have non-invasively studied the motor cortex hemodynamics in human subjects under rest and motor ...