Add to ORKGCerebral blood flow (CBF) is essential for brain function, and CBF-related signals can inform us about brain activity. Yet currently, high-end medical instrumentation is needed to perform a CBF measurement in adult humans. Here, we describe functional interferometric diffusing wave spectroscopy (fiDWS), which introduces and collects near-infrared light via the scalp, using inexpensive detector arrays to rapidly monitor coherent light fluctuations that encode brain blood flow index (BFI), a surrogate for CBF. Compared to other functional optical approaches, fiDWS measures BFI faster and deeper while also providing continuous wave absorption signals. Achieving clear pulsatile BFI waveforms at source-collector separations of 3.5 cm, we confirm...
Near-infrared spectroscopy (NIRS), a non-invasive technique, uses near-infrared light to measure hem...
Survivors of severe brain injury may require care in a neurointensive care unit (neuro-ICU), where t...
We review our most recent results on near-IR studies of human brain activity, which have been evolvi...
We present multi-exposure interferometric diffusing wave spectroscopy (MiDWS), which measures brain ...
Light-scattering methods are widely used in soft matter physics and biomedical optics to probe dynam...
Continuous, accurate monitoring of cerebral perfusion may reduce morbidity and mortality in patients...
Diffuse optics (DO) is a light-based technique used to study the human brain, but it suffers from lo...
Functional optical imaging techniques, such as diffuse optical imaging and spectroscopy and laser sp...
Since a functional near-infrared spectroscopy monitor is a small and flexible tool, it can well be i...
Since the initial demonstration of near-infrared spectroscopy (NIRS) for noninvasive measurements of...
In the last two decades, functional near-infrared spectroscopy (fNIRS) is getting more and more popu...
Information about cerebral blood flow (CBF) is valuable for clinical management of patients after se...
The field of diffuse optics has provided a rich set of neurophotonic tools to measure the human brai...
Functional Near InfraRed Spectroscopy (fNIRS) is an imaging technique mainly devoted to human brain ...
Light can be used to measure the activity of the human brain non-invasively. This is realized by shi...
Near-infrared spectroscopy (NIRS), a non-invasive technique, uses near-infrared light to measure hem...
Survivors of severe brain injury may require care in a neurointensive care unit (neuro-ICU), where t...
We review our most recent results on near-IR studies of human brain activity, which have been evolvi...
We present multi-exposure interferometric diffusing wave spectroscopy (MiDWS), which measures brain ...
Light-scattering methods are widely used in soft matter physics and biomedical optics to probe dynam...
Continuous, accurate monitoring of cerebral perfusion may reduce morbidity and mortality in patients...
Diffuse optics (DO) is a light-based technique used to study the human brain, but it suffers from lo...
Functional optical imaging techniques, such as diffuse optical imaging and spectroscopy and laser sp...
Since a functional near-infrared spectroscopy monitor is a small and flexible tool, it can well be i...
Since the initial demonstration of near-infrared spectroscopy (NIRS) for noninvasive measurements of...
In the last two decades, functional near-infrared spectroscopy (fNIRS) is getting more and more popu...
Information about cerebral blood flow (CBF) is valuable for clinical management of patients after se...
The field of diffuse optics has provided a rich set of neurophotonic tools to measure the human brai...
Functional Near InfraRed Spectroscopy (fNIRS) is an imaging technique mainly devoted to human brain ...
Light can be used to measure the activity of the human brain non-invasively. This is realized by shi...
Near-infrared spectroscopy (NIRS), a non-invasive technique, uses near-infrared light to measure hem...
Survivors of severe brain injury may require care in a neurointensive care unit (neuro-ICU), where t...
We review our most recent results on near-IR studies of human brain activity, which have been evolvi...