Theoretical and experimental investigation of near-infrared light propagation in a model of the adult head

Okada, Eiji; Firbank, Michael; Schweiger, Martin; Arridge, Simon; Cope, M; Delpy, David T.

doi:10.1364/ao.36.000021

Cited by 426 publications

(295 citation statements)

References 33 publications

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“…This effect has been explained as a partial volume error arising from source-detector positions relative to activation site, depth of activation, scalp and skull thickness, and baseline optical properties that can all potentially cause discrepancy in the NIRS estimate of hemoglobin concentration changes among subjects. A partial volume error in a NIRS measurement can result in an underestimate of the amplitude of the hemodynamic response (Okada et al, 1997, Boas et al, 2001. Further, spectral differences in the partial volume effect can cause cross-talk in the estimated hemoglobin changes (Boas et al, 2001, Uludag et al, 2002 …”

Section: Partial Volume Effectmentioning

confidence: 99%

Task complexity relates to activation of cortical motor areas during uni- and bimanual performance: A functional NIRS study

Holper

Biallas²,

Wolf³

2009

NeuroImage

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Task complexity relates to activation of cortical motor areas during uni-and bimanual performance: a functional NIRS study Holper, L; Biallas, M; Wolf, M Holper, L; Biallas, M; Wolf, M (2009 AbstractHand motor tasks are frequently used to assess impaired motor function in neurology and neurorehabilitation. Assessments can be varied by means of hand laterality, i.e. unimanual or bimanual performance, as well as by means of task complexity, i.e. different degrees ranging from simple to complex sequence tasks. The resulting functional activation in human primary motor cortex (M1) has been studied intensively by traditional neuroimaging methods.Previous studies using functional near-infrared spectroscopy (fNIRS) investigated simple hand motor tasks. However, it is unknown whether fNIRS can also detect changes in response to increasing task complexity. Our hypothesis was to show that fNIRS could detect activation changes in relation to task complexity in uni-and bimanual tasks.Sixteen healthy right-handed subjects performed five finger-tapping tasks: unimanual left and right, simple and complex tasks as well as bimanual complex tasks. We found significant We report for the first time that fNIRS detects oxygenation changes in relation to task complexity during finger-tapping. The study aims to contribute to the establishment of fNIRS as a neuroimaging method to assess hand motor function in clinical settings where traditional neuroimaging methods cannot be applied.

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Section: Partial Volume Effectmentioning

confidence: 99%

Task complexity relates to activation of cortical motor areas during uni- and bimanual performance: A functional NIRS study

Holper

Biallas²,

Wolf³

2009

NeuroImage

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“…The camera images a comparatively poorly illuminated area of tissue adjacent to the brightly illuminated area. NIR light from a point source will scatter throughout the surrounding tissue; however, it has been shown theoretically and experimentally 21 that backscattered light detected on the tissue surface is most likely to have traveled along a curved "banana-shaped" path through the tissue, the depth of the curve being proportional to the separation between the source and detector. In addition to light incident from the array and light reflected from the surface, the camera captures some light that has passed through the tissue.…”

Section: A Instrumentationmentioning

confidence: 99%

Noncontact simultaneous dual wavelength photoplethysmography: A further step toward noncontact pulse oximetry

Humphreys

Ward

Markham

2007

Review of Scientific Instruments

182

112

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We present a camera-based device capable of capturing two photoplethysmographic ͑PPG͒ signals at two different wavelengths simultaneously, in a remote noncontact manner. The system comprises a complementary metal-oxide semiconductor camera and dual wavelength array of light emitting diodes ͑760 and 880 nm͒. By alternately illuminating a region of tissue with each wavelength of light, and detecting the backscattered photons with the camera at a rate of 16 frames/ wavelength s, two multiplexed PPG wave forms are simultaneously captured. This process is the basis of pulse oximetry, and we describe how, with the inclusion of a calibration procedure, this system could be used as a noncontact pulse oximeter to measure arterial oxygen saturation ͑S p O 2 ͒ remotely. Results from an experiment on ten subjects, exhibiting normal S p O 2 readings, that demonstrate the instrument's ability to capture signals from a range of subjects under realistic lighting and environmental conditions are presented. We compare the signals captured by the noncontact system to a conventional PPG signal captured concurrently from a finger, and show by means of a J. Bland and D. Altman ͓Lancet 327, 307 ͑1986͒; Statistician 32, 307 ͑1983͔͒ test, the noncontact device to be comparable to a contact device as a monitor of heart rate. We highlight some considerations that should be made when using camera-based "integrative" sampling methods and demonstrate through simulation, the suitability of the captured PPG signals for application of existing pulse oximetry calibration procedures.

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“…Instead of dealing with a global approach based on 3D tomographic reconstruction on a realistic anatomical map of the whole head [24][25][26], we have preferred the robustness and simplicity of a local approach aiming at determining the optical properties in a specific location of the head. Different experimental methods, namely continuous wave and time domain diffuse reflectance spectroscopy, and robust physical models derived from photon diffusion or transport theory (e.g.…”

Section: Introductionmentioning

confidence: 99%

In-vivo multilaboratory investigation of the optical properties of the human head

Farina¹,

Torricelli²,

Bargigia³

et al. 2015

Biomed. Opt. Express

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Abstract:The in-vivo optical properties of the human head are investigated in the 600-1100 nm range on different subjects using continuous wave and time domain diffuse optical spectroscopy. The work was performed in collaboration with different research groups and the different techniques were applied to the same subject. Data analysis was carried out using homogeneous and layered models and final results were also confirmed by Monte Carlo simulations. The depth sensitivity of each technique was investigated and related to the probed region of the cerebral tissue. This work, based on different validated instruments, is a contribution to fill the existing gap between the present knowledge and the actual in-vivo values of the head optical properties.

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Theoretical and experimental investigation of near-infrared light propagation in a model of the adult head

Cited by 426 publications

References 33 publications

Task complexity relates to activation of cortical motor areas during uni- and bimanual performance: A functional NIRS study

Task complexity relates to activation of cortical motor areas during uni- and bimanual performance: A functional NIRS study

Noncontact simultaneous dual wavelength photoplethysmography: A further step toward noncontact pulse oximetry

In-vivo multilaboratory investigation of the optical properties of the human head

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