Title :
Time-resolved reflectance spectroscopy in turbid tissues
Author :
Jacques, Steven L.
Author_Institution :
Laser Biol. Res. Lab., Texas Univ., Houston, TX, USA
Abstract :
Monte Carlo simulations illustrate how various absorption and scattering coefficients ( mu a and mu s, respectively) influence time-dependent reflectance R(t) from a semi-infinite homogeneous turbid tissue following a pulse of narrow-beam irradiation. The value of mu a in cm -1 can be obtained from measurements of R(t) after the first 20-200 ps (depending on mu s) following a pulse, using an expression that contains n, the tissue refractive index and c, the in vacuo speed of light. Data obtained during the first 20-200 ps do not conform to this expression or to diffusion theory. Monte Carlo simulations allow study of the early R(t) behavior. The volume of tissue involved in a measurement is specified by a volume radius r that approximately equals (6Dtc/n) 12/, where t is the time of measurement and D is the optical diffusion constant. At 50 ps and typical values of mu s=100 cm -1 and anisotropy equal to 0.9, r equals 5 mm.
Keywords :
Monte Carlo methods; biophysics; light absorption; light scattering; reflectivity; refractive index; time resolved spectroscopy; turbidity; 20 to 200 ps; 5 nm; Monte Carlo simulations; absorption coefficients; diffusion theory; in vacuo speed of light; narrow-beam irradiation; optical diffusion constant; reflectance spectroscopy; scattering coefficients; semi-infinite homogeneous turbid tissue; time-dependent reflectance; time-resolved spectroscopy; tissue refractive index; tissue volume; turbid tissues; volume radius; Absorption; Light scattering; Optical scattering; Pulse measurements; Reflectivity; Refractive index; Spectroscopy; Time measurement; Velocity measurement; Volume measurement; Absorption; Animals; Light; Models, Biological; Monte Carlo Method; Nephelometry and Turbidimetry; Optics; Scattering, Radiation; Spectrum Analysis;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
