TY - JOUR
T1 - Neurovascular coupling
T2 - In vivo optical techniques for functional brain imaging
AU - Liao, Lun De
AU - Tsytsarev, Vassiliy
AU - Delgado-Martínez, Ignacio
AU - Li, Meng Lin
AU - Erzurumlu, Reha
AU - Vipin, Ashwati
AU - Orellana, Josue
AU - Lin, Yan Ren
AU - Lai, Hsin Yi
AU - Chen, You Yin
AU - Thakor, Nitish V.
N1 - Funding Information:
The authors thank the National University of Singapore for supporting the In-Vivo Optical Neuroimaging Group at the Singapore Institute for Neurotechnology (SINAPSE) under grant number R-711-000-026-133. The authors also thank those who kindly provided permission for the reproduction of the figures found within this review paper.
PY - 2013/4/30
Y1 - 2013/4/30
N2 - Optical imaging techniques reflect different biochemical processes in the brain, which is closely related with neural activity. Scientists and clinicians employ a variety of optical imaging technologies to visualize and study the relationship between neurons, glial cells and blood vessels. In this paper, we present an overview of the current optical approaches used for the in vivo imaging of neurovascular coupling events in small animal models. These techniques include 2-photon microscopy, laser speckle contrast imaging (LSCI), voltage-sensitive dye imaging (VSDi), functional photoacoustic microscopy (fPAM), functional near-infrared spectroscopy imaging (fNIRS) and multimodal imaging techniques. The basic principles of each technique are described in detail, followed by examples of current applications from cutting-edge studies of cerebral neurovascular coupling functions and metabolic. Moreover, we provide a glimpse of the possible ways in which these techniques might be translated to human studies for clinical investigations of pathophysiology and disease. In vivo optical imaging techniques continue to expand and evolve, allowing us to discover fundamental basis of neurovascular coupling roles in cerebral physiology and pathophysiology.
AB - Optical imaging techniques reflect different biochemical processes in the brain, which is closely related with neural activity. Scientists and clinicians employ a variety of optical imaging technologies to visualize and study the relationship between neurons, glial cells and blood vessels. In this paper, we present an overview of the current optical approaches used for the in vivo imaging of neurovascular coupling events in small animal models. These techniques include 2-photon microscopy, laser speckle contrast imaging (LSCI), voltage-sensitive dye imaging (VSDi), functional photoacoustic microscopy (fPAM), functional near-infrared spectroscopy imaging (fNIRS) and multimodal imaging techniques. The basic principles of each technique are described in detail, followed by examples of current applications from cutting-edge studies of cerebral neurovascular coupling functions and metabolic. Moreover, we provide a glimpse of the possible ways in which these techniques might be translated to human studies for clinical investigations of pathophysiology and disease. In vivo optical imaging techniques continue to expand and evolve, allowing us to discover fundamental basis of neurovascular coupling roles in cerebral physiology and pathophysiology.
KW - 2-photon microscopy
KW - Cerebral neuroimaging
KW - Functional near-infrared spectroscopy
KW - Functional photoacoustic microscopy
KW - Laser speckle contrast imaging
KW - Neurovascular coupling
KW - Voltage sensitive dye imaging
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U2 - 10.1186/1475-925X-12-38
DO - 10.1186/1475-925X-12-38
M3 - Review article
C2 - 23631798
AN - SCOPUS:84876811672
SN - 1475-925X
VL - 12
JO - BioMedical Engineering Online
JF - BioMedical Engineering Online
IS - 1
M1 - 38
ER -