Evaluating a new generation of wearable high-density diffuse optical tomography technology via retinotopic mapping of the adult visual cortex
Evaluating a new generation of wearable high-density diffuse optical tomography technology via retinotopic mapping of the adult visual cortex
Significance: high-density diffuse optical tomography (HD-DOT) has been shown to approach the resolution and localization accuracy of blood oxygen level dependent-functional magnetic resonance imaging in the adult brain by exploiting densely spaced, overlapping samples of the probed tissue volume, but the technique has to date required large and cumbersome optical fiber arrays.
Aim: to evaluate a wearable HD-DOT system that provides a comparable sampling density to large, fiber-based HD-DOT systems, but with vastly improved ergonomics.
Approach: we investigated the performance of this system by replicating a series of classic visual stimulation paradigms, carried out in one highly sampled participant during 15 sessions to assess imaging performance and repeatability.
Results: hemodynamic response functions and cortical activation maps replicate the results obtained with larger fiber-based systems. Our results demonstrate focal activations in both oxyhemoglobin and deoxyhemoglobin with a high degree of repeatability observed across all sessions. A comparison with a simulated low-density array explicitly demonstrates the improvements in spatial localization, resolution, repeatability, and image contrast that can be obtained with this high-density technology.
Conclusions: the system offers the possibility for minimally constrained, spatially resolved functional imaging of the human brain in almost any environment and holds particular promise in enabling neuroscience applications outside of the laboratory setting. It also opens up new opportunities to investigate populations unsuited to traditional imaging technologies.
functional near-infrared spectroscopy, high-density diffuse optical tomography, short-separation regression, visual stimuli, wearable
Vidal-Rosas, Ernesto E.
1da82633-b581-468e-b41a-117b6893a84d
Zhao, Hubin
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Nixon-Hill, Reuben W.
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Smith, Greg
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Dunne, Luke
bc6ea6ee-dc5a-4221-97d1-5a64155ea499
Powell, Samuel
d4182509-cd75-4937-95ca-c3c053e85283
Cooper, Robert J.
e44d8765-b9b9-402c-b6fe-6bc9288051f7
Everdell, Nicholas L.
92f46b74-880a-476e-9f26-7ec15113dc72
9 April 2021
Vidal-Rosas, Ernesto E.
1da82633-b581-468e-b41a-117b6893a84d
Zhao, Hubin
d8bfce35-71a9-4421-b628-5712e9f6e4c7
Nixon-Hill, Reuben W.
9d7e0c2b-51fb-4cbf-8f85-2ab5cceee986
Smith, Greg
c197a9e5-e888-49fc-a344-f83ee7f82b61
Dunne, Luke
bc6ea6ee-dc5a-4221-97d1-5a64155ea499
Powell, Samuel
d4182509-cd75-4937-95ca-c3c053e85283
Cooper, Robert J.
e44d8765-b9b9-402c-b6fe-6bc9288051f7
Everdell, Nicholas L.
92f46b74-880a-476e-9f26-7ec15113dc72
Vidal-Rosas, Ernesto E., Zhao, Hubin, Nixon-Hill, Reuben W., Smith, Greg, Dunne, Luke, Powell, Samuel, Cooper, Robert J. and Everdell, Nicholas L.
(2021)
Evaluating a new generation of wearable high-density diffuse optical tomography technology via retinotopic mapping of the adult visual cortex.
Neurophotonics, 8 (2), [025002].
(doi:10.1117/1.NPh.8.2.025002).
Abstract
Significance: high-density diffuse optical tomography (HD-DOT) has been shown to approach the resolution and localization accuracy of blood oxygen level dependent-functional magnetic resonance imaging in the adult brain by exploiting densely spaced, overlapping samples of the probed tissue volume, but the technique has to date required large and cumbersome optical fiber arrays.
Aim: to evaluate a wearable HD-DOT system that provides a comparable sampling density to large, fiber-based HD-DOT systems, but with vastly improved ergonomics.
Approach: we investigated the performance of this system by replicating a series of classic visual stimulation paradigms, carried out in one highly sampled participant during 15 sessions to assess imaging performance and repeatability.
Results: hemodynamic response functions and cortical activation maps replicate the results obtained with larger fiber-based systems. Our results demonstrate focal activations in both oxyhemoglobin and deoxyhemoglobin with a high degree of repeatability observed across all sessions. A comparison with a simulated low-density array explicitly demonstrates the improvements in spatial localization, resolution, repeatability, and image contrast that can be obtained with this high-density technology.
Conclusions: the system offers the possibility for minimally constrained, spatially resolved functional imaging of the human brain in almost any environment and holds particular promise in enabling neuroscience applications outside of the laboratory setting. It also opens up new opportunities to investigate populations unsuited to traditional imaging technologies.
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Accepted/In Press date: 9 April 2021
Published date: 9 April 2021
Keywords:
functional near-infrared spectroscopy, high-density diffuse optical tomography, short-separation regression, visual stimuli, wearable
Identifiers
Local EPrints ID: 489088
URI: http://eprints.soton.ac.uk/id/eprint/489088
ISSN: 2329-423X
PURE UUID: 94683982-28e6-489c-8b9b-4e3b16470901
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Date deposited: 15 Apr 2024 16:30
Last modified: 16 Apr 2024 02:07
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Contributors
Author:
Ernesto E. Vidal-Rosas
Author:
Hubin Zhao
Author:
Reuben W. Nixon-Hill
Author:
Greg Smith
Author:
Luke Dunne
Author:
Samuel Powell
Author:
Robert J. Cooper
Author:
Nicholas L. Everdell
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