Motor cortex hemodynamic response to goal-oriented and non-goal-oriented tasks in healthy subjects

Lacerenza, Michele; Frabasile, Lorenzo; Buttafava, Mauro; Spinelli, Lorenzo; Bassani, Emerson; F, Micheloni; Amendola, Caterina; Torricelli, Alessandro; Contini, Davide

doi:10.3389/fnins.2023.1202705

Cited by 2 publications

(2 citation statements)

References 36 publications

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“… 50 , 58 , 71 , 72 However, TD techniques are gaining even more interest in the fNIRS community due to the possibility of measuring much more useful information. 26 , 28 , 73 , 74 This implies that, eventually, analytical TD-MPPLs might be developed to assist TD-based devices in real time and to understand how the time-of-flight of photons can shed light on brain hemodynamics.…”

Section: Discussionmentioning

confidence: 99%

Retrieval of chromophore concentration changes in a digital human head model using analytical mean partial pathlengths of photons

Vera,

García,

Carbone

et al. 2024

J. Biomed. Opt.

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. Significance Continuous-wave functional near-infrared spectroscopy has proved to be a valuable tool for assessing hemodynamic activity in the human brain in a non-invasively and inexpensive way. However, most of the current processing/analysis methods assume the head is a homogeneous medium, and hence do not appropriately correct for the signal coming from the scalp. This effect can be reduced by considering light propagation in a layered model of the human head, being the Monte Carlo (MC) simulations the gold standard to this end. However, this implies large computation times and demanding hardware capabilities. Aim In this work, we study the feasibility of replacing the homogeneous model and the MC simulations by means of analytical multilayered models, combining in this way, the speed and simplicity of implementation of the former with the robustness and accuracy of the latter. Approach Oxy- and deoxyhemoglobin (HbO and HbR, respectively) concentration changes were proposed in two different layers of a magnetic resonance imaging (MRI)-based meshed model of the human head, and then these changes were retrieved by means of (i) a typical homogeneous reconstruction and (ii) a theoretical layered reconstruction. Results Results suggest that the use of analytical models of light propagation in layered models outperforms the results obtained using traditional homogeneous reconstruction algorithms, providing much more accurate results for both, the extra- and the cerebral tissues. We also compare the analytical layered reconstruction with MC-based reconstructions, achieving similar degrees of accuracy, especially in the gray matter layer, but much faster (between 4 and 5 orders of magnitude). Conclusions We have successfully developed, implemented, and validated a method for retrieving chromophore concentration changes in the human brain, combining the simplicity and speed of the traditional homogeneous reconstruction algorithms with robustness and accuracy much more similar to those provided by MC simulations.

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Section: Discussionmentioning

confidence: 99%

Retrieval of chromophore concentration changes in a digital human head model using analytical mean partial pathlengths of photons

Vera,

García,

Carbone

et al. 2024

J. Biomed. Opt.

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“…The increase in local CO 2 reduces local arteriolar/capillary resistance which doubles local perfusion rate accompanied by doubling the oxygen extraction fraction to supply the required increase in power demand. The resultant oxygen saturation decrease is most easily measured with transcranial functional near-infrared spectroscopy (fNIRS, pulse-oximetry of the brain) ( 14 ) or fMRI blood oxygenation level dependent (BOLD) methods ( 15 ). To deliver the required increase in power density demand, the arteries supplying each cerebrosome must be adequate caliber and be unobstructed including the aorta, carotids and cerebral arteries.…”

Section: Discussionmentioning

confidence: 99%

Ophthalmic artery reversal predicts contralateral body weakness symptoms better than carotid Doppler velocity—preliminary results

Moore,

Sekhar,

Beach

2023

Ann Transl Med

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Background The measurement of blood velocity in the carotid artery has been the most popular noninvasive method of identifying and classifying carotid stenosis for half a century. Carotid stenosis is an indicator of elevated risk of stroke; anatomic revascularization reduces the chance of stroke by more than half. Controversy persists on how patients with severe carotid stenosis should be selected for anatomic revascularization. Patients with a connected circle of Willis (coW) might not benefit from anatomic revascularization; patients with two segments missing in the coW are most likely to benefit from revascularization. Methods Based on this analysis of data from carotid duplex examinations and transcranial Doppler examinations including ophthalmic artery (OA) direction in 28 patients, a refined carotid examination protocol is proposed. This refinement includes Doppler measurement of OA flow direction and documentation of internal carotid artery (ICA) bruit in addition to the adoption of an ICA peak systolic velocity (PSV) criterion exceeding 350 cm/s for identification of the patient most likely to benefit from carotid stenosis treatment. Results Sensitivity and specificity of OA direction or carotid bruit are 84.6%±5.4%, 71.4%±2.1% and for PSV >350 cm/s are 84.6%±5.4%, 59.5%±2.3% for predicting contralateral body weakness. Conclusions The proposed examination can be performed with the same duplex scanner and scan head currently used for carotid examinations with little additional time.

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Motor cortex hemodynamic response to goal-oriented and non-goal-oriented tasks in healthy subjects

Cited by 2 publications

References 36 publications

Retrieval of chromophore concentration changes in a digital human head model using analytical mean partial pathlengths of photons

Retrieval of chromophore concentration changes in a digital human head model using analytical mean partial pathlengths of photons

Ophthalmic artery reversal predicts contralateral body weakness symptoms better than carotid Doppler velocity—preliminary results

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