Improvement of tissue monitoring by diffuse optics using different analytical methods /
Omnia Hamdy Abdelrahman
Improvement of tissue monitoring by diffuse optics using different analytical methods / تحسين مراقبة االنسجة بالتشتت الضوئي بإستخدام طرق تحليلية مختلفة Omnia Hamdy Abdelrahman ; Supervised Nahed Hussien Solouma , Jala Elazab , Mahmoud Fathy Mahmoud - Cairo : Omnia Hamdy Abdelrahman , 2018 - 155 P. : charts , facsimiles ; 25cm
Thesis (Ph.D.) - Cairo University - Institute of Laser Enhanced Sciences - Department of Laser Application in Engineering
The aim of this work was to improve tissue monitoring with diffuse optics through implementing different analytical methods. Different tissue samples was monitored to determine their optical parameters. Diffuse reflectance and transmittance of the samples were measures using three different experimental setups including single integrating sphere, distant-detector, spatial frequency domain imaging optical setups. Furthermore, the optical parameters were estimated from the experimentally collected measurements using a combination between Kubellka-Munk model and Beers law. This combination made it possible to calculate the whole three optical parameters 2absorption coefficient, scattering coefficient and the anisotropy3 of the examined tissues
Diffuse optics Diffuse reflection Tissue monitoring
Improvement of tissue monitoring by diffuse optics using different analytical methods / تحسين مراقبة االنسجة بالتشتت الضوئي بإستخدام طرق تحليلية مختلفة Omnia Hamdy Abdelrahman ; Supervised Nahed Hussien Solouma , Jala Elazab , Mahmoud Fathy Mahmoud - Cairo : Omnia Hamdy Abdelrahman , 2018 - 155 P. : charts , facsimiles ; 25cm
Thesis (Ph.D.) - Cairo University - Institute of Laser Enhanced Sciences - Department of Laser Application in Engineering
The aim of this work was to improve tissue monitoring with diffuse optics through implementing different analytical methods. Different tissue samples was monitored to determine their optical parameters. Diffuse reflectance and transmittance of the samples were measures using three different experimental setups including single integrating sphere, distant-detector, spatial frequency domain imaging optical setups. Furthermore, the optical parameters were estimated from the experimentally collected measurements using a combination between Kubellka-Munk model and Beers law. This combination made it possible to calculate the whole three optical parameters 2absorption coefficient, scattering coefficient and the anisotropy3 of the examined tissues
Diffuse optics Diffuse reflection Tissue monitoring