Microvascular Blood Flow Changes in Human Breast During Simulated Mammography

“…The advantage lies in the possibility of simultaneously providing cerebral blood volume and blood flow as well as blood tissue oxygen saturation, and allowing non-invasive estimation of the cerebral metabolic rate of oxygen (Boas et al, 2003). In a few cases, integration of DCS and fNIRS has already been explored at the research level (Roche-Labarbe et al, 2014;Busch et al, 2012;Diop et al, 2011) while a European project (BabyLux, http://www.babylux-project.eu) was recently started to provide the first integrated instrument combining DCS and TD fNIRS for monitoring cerebral oxygen metabolism and blood flow in preterm neonates. Integration of DCS or fNIRS with FOS is fascinating since it would, through an all-optical methodology, provide information on both the fast neuronal changes (usually captured by EEG) and the slow hemodynamic changes (usually measured by PET or fMRI).…”

Neurophotonics: non-invasive optical techniques for monitoring brain functions

“…The advantage lies in the possibility of simultaneously providing cerebral blood volume and blood flow as well as blood tissue oxygen saturation, and allowing non-invasive estimation of the cerebral metabolic rate of oxygen (Boas et al, 2003). In a few cases, integration of DCS and fNIRS has already been explored at the research level (Roche-Labarbe et al, 2014;Busch et al, 2012;Diop et al, 2011) while a European project (BabyLux, http://www.babylux-project.eu) was recently started to provide the first integrated instrument combining DCS and TD fNIRS for monitoring cerebral oxygen metabolism and blood flow in preterm neonates. Integration of DCS or fNIRS with FOS is fascinating since it would, through an all-optical methodology, provide information on both the fast neuronal changes (usually captured by EEG) and the slow hemodynamic changes (usually measured by PET or fMRI).…”

Neurophotonics: non-invasive optical techniques for monitoring brain functions