Abstract

This paper derives an analytical model for investigating the effect of the distribution of absorbers upon light attenuation in a scattering medium. Results from this are found to agree with those of Monte Carlo simulations. The implications of this model are then examined for their likely effect upon the measurement of cerebral blood volume (CBV) using near-infrared (NIR) spectroscopy. We conclude that, given the small diameter of the majority of cerebral blood vessels, the distribution of the blood will have little effect upon the measurement of CBV. Where changes to the blood volume occur in the larger (> 0.2 mm diameter) vessels on the surface of the brain, NIR spectroscopy is likely to underestimate the change.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
The effect of scalp ischaemia on measurement of cerebral blood volume by near-infrared spectroscopy
H Owen-Reece ... J S Wyatt
Physiological Measurement | VOL. 17
H Owen-Reece, et. al.H Owen-Reece ... J S Wyatt
01 Nov 1996
Reliability of near-infrared spectroscopy measures of cerebral oxygenation and blood volume during handgrip exercise in nondisabled and traumatic brain-injured subjects
Yagesh Bhambhani ... Mamdouh Farag
The Journal of Rehabilitation Research and Development | VOL. 43
Yagesh Bhambhani, et. al.Yagesh Bhambhani ... Mamdouh Farag
01 Jan 2006
Cerebral blood volume measured using near-infrared spectroscopy and radiolabels in the immature lamb brain.
Charles P Barfield ... Leo J Cussen
Pediatric Research | VOL. 46
Charles P Barfield, et. al.Charles P Barfield ... Leo J Cussen
01 Jul 1999
On the theory of the indicator-dilution method for measurement of blood flow and volume.
Paul Meier ... Kenneth L Zierler
Journal of applied physiology: respiratory, environmental and exercise physiology | VOL. 6
Paul Meier, et. al.Paul Meier ... Kenneth L Zierler
01 Jun 1954
View more papers

More From: Physics in Medicine and Biology

Paper Title
Journal
Date
Author
Enhancing the reliability of deep learning-based head and neck tumour segmentation using uncertainty estimation with multi-modal images
Jintao Ren ... Stine Sofia Korreman
Physics in medicine and biology | VOL. 69
Jintao Ren, et. al.Jintao Ren ... Stine Sofia Korreman
05 Aug 2024
Deep denoiser prior driven relaxed iterated Tikhonov method for low-count PET image restoration
Weike Chang ... Qingguo Xie
Physics in medicine and biology | VOL. 69
Weike Chang, et. al.Weike Chang ... Qingguo Xie
05 Aug 2024
A deep neural network for positioning and inter-crystal scatter identification in multiplexed PET detectors: a simulation study
Francisco E Enriquez-Mier-Y-Teran ... Andre Z Kyme
Physics in medicine and biology | VOL. 69
Francisco E Enriquez-Mier-Y-Teran, et. al.Francisco E Enriquez-Mier-Y-Teran ... Andre Z Kyme
05 Aug 2024
A finite volume approach to dosimetric calculations in diffusing alpha-emitters radiation therapy.
Patrick Chevé ... Yuji Kamio
Physics in medicine and biology | VOL. -
Patrick Chevé, et. al.Patrick Chevé ... Yuji Kamio
05 Aug 2024
View more papers