Claudine Gauthier scite author profile

Highlights: 21• A CBV-sensitive fMRI method is developed for high resolution fMRI in humans. 22• Lamina-dependent CBV fMRI responses are shown in humans. 23• VASO cortical profiles are validated with Fe-contrast agent fMRI in animals. 24• Sensitivity to large veins can be minimized using VASO-CBV instead of BOLD fMRI. 25• Ipsilateral fMRI responses to finger-tapping are positive in M1 and negative in S1. 26 27 Abstract 28Cortical layer-dependent high (sub-millimeter) resolution functional magnetic resonance imaging 29 (fMRI) in human or animal brain can be used to address questions regarding the functioning of 30 cortical circuits, such as the effect of different afferent and efferent connectivity on activity in 31 specific cortical layers. The sensitivity of gradient echo (GE) blood oxygenation level dependent 32 (BOLD) responses to large draining veins reduces its local specificity and can render the 33 interpretation of the underlying laminar neural activity impossible. Application of the more spatially 34 specific cerebral blood volume (CBV) based fMRI in humans has been hindered by the low sensitivity 35 of the non-invasive modalities available. Here, a Vascular Space Occupancy (VASO) variant, adapted 36 for use at high field, is further optimized to capture layer-dependent activity changes in human 37 motor cortex at sub-millimeter resolution. Acquired activation maps and cortical profiles show that 38 the VASO signal peaks in grey matter at 0.8 -1.6 mm depth, and deeper compared to the superficial 39 and vein-dominated GE-BOLD responses. Validation of the VASO signal change versus well-40 established iron-oxide contrast agent based fMRI methods in animals showed the same cortical 41 profiles of CBV change, after normalization for lamina-dependent baseline CBV. In order to evaluate 42 its potential of revealing small lamina-dependent signal differences due to modulations of the input-43 output characteristics, layer-dependent VASO responses were investigated in the ipsilateral 44 hemisphere during unilateral finger tapping. Positive activation in ipsilateral primary motor cortex 45 *7. Manuscript Click here to view linked References 2 and negative activation in ipsilateral primary sensory cortex were observed. This feature is only 1 visible in high-resolution fMRI where opposing sides of a sulcus can be investigated independently 2 because of a lack of partial volume effects. Based on the results presented here we conclude that 3 VASO offers good reproducibility, high sensitivity, and lower sensitivity than GE-BOLD to changes in 4 larger vessels, making it a valuable tool for layer-dependent fMRI studies in humans. 5Abbreviations: BOLD = blood oxygenation level dependent; CBV = cerebral blood volume; CNR = 6 contrast-to-noise ratio; CSF = cerebrospinal fluid; ΔCBV = change in CBV; EPI = echo planar imaging; 7 Fe = iron; fMRI = functional magnetic resonance imaging; GE = gradient echo; GM = grey matter; ROI 8 = region of interest; SNR = signal-to-noise ratio; SS-SI-VASO = slice-selective slab-inversion VASO...

show abstract

Magnetic resonance imaging of resting OEF and CMRO2 using a generalized calibration model for hypercapnia and hyperoxia

Gauthier

2012

View full text Add to dashboard Cite

Higher levels of cardiovascular fitness are associated with better executive function and prefrontal oxygenation in younger and older women

Dupuy

Gauthier

Fraser

et al. 2015

Front. Hum. Neurosci.

160

166

View full text Add to dashboard Cite

Aim: Many studies have suggested that physical exercise training improves cognition and more selectively executive functions. There is a growing interest to clarify the neurophysiological mechanisms that underlie this effect. The aim of the current study was to evaluate the neurophysiological changes in cerebral oxygenation associated with physical fitness level and executive functions.Method: In this study, 22 younger and 36 older women underwent a maximal graded continuous test (i.e., trueV˙O2max) in order to classify them into a fitness group (higher vs. lower fit). All participants completed neuropsychological paper and pencil testing and a computerized Stroop task (which contained executive and non-executive conditions) in which the change in prefrontal cortex oxygenation was evaluated with near infrared spectroscopy (NIRS).Results: Our findings revealed a Fitness × Condition interaction (p < 0.05) such that higher fit women scored better on measures of executive functions than lower fit women. In comparison to lower fit women, higher fit women had faster reaction times in the Executive condition of the computerized Stroop task. No significant effect was observed in the non-executive condition of the test and no interactions were found with age. In measures of cerebral oxygenation (ΔHbT and ΔHbO2), we found a main effect of fitness on cerebral oxygenation during the Stroop task such that only high fit women demonstrated a significant increase in the right inferior frontal gyrus.Discussion/Conclusion: Higher fit individuals who demonstrate better cardiorespiratory functions (as measured by trueV˙O2max) show faster reaction times and greater cerebral oxygenation in the right inferior frontal gyrus than women with lower fitness levels. The lack of interaction with age, suggests that good cardiorespiratory functions can have a positive impact on cognition, regardless of age.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.