172 research outputs found
Stein & Hay: Cases and Materials on the Law and Institutions of the Atlantic Area
A Review of Cases and Materials on the Law and Institutions of the Atlantic Area Edited by Eric Stein and Peter Hay
Stein & Hay: Cases and Materials on the Law and Institutions of the Atlantic Area
A Review of Cases and Materials on the Law and Institutions of the Atlantic Area Edited by Eric Stein and Peter Hay
Computed μ<sub>eff</sub> spectra and spherical geometry thickness recovery data.
<p>(a) Five computed μ<sub>eff</sub> spectra for different chromophore concentrations that span the range in breast tissue from the literature (each slab’s chromophore concentrations are listed below). The μ<sub>eff</sub> variability is minimal around 925 nm. (b) Thickness recovered for the 4 cm chord distance in a spherical medium with the same chromophore concentrations as in Slab 1. The reference transmittance, <i>T</i><sub>0</sub>(λ*), for the application of <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0117322#pone.0117322.e009" target="_blank">Eq. (8)</a> is taken to be the one for a 5 cm thick infinite slab with the chromophore concentrations of Slabs 1–5, as indicated in the <i>x</i> axis. Chromophore concentrations of each slab are listed as ([HbO], [Hb], [water], [lipid]): Slab 1 (14uM, 7uM, 20%, 65%); Slab 2 (17uM, 11uM, 30%, 45%); Slab 3 (18uM, 10uM, 30%, 60%); Slab 4 (28uM, 12uM, 45%, 30%); Slab 5 (6uM, 4uM, 20%, 75%).</p
Absorption spectra for typical concentrations of the four main chromophores in breast tissue and the resulting total absorption coefficient.
<p>The different shapes of each chromophore’s absorption spectrum portray why we can recover unique concentration of deoxy-hemoglobin, oxy-hemoglobin, water, and lipid.</p
Summary of the difference parameters averaged across the 26 cancer patients.
<p>Summary of the difference parameters averaged across the 26 cancer patients.</p
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