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-------- Akhil Kallepalli --------
--- kallepalliakhil@icloud.com ---
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-----Monte Carlo simulations -----
-----run for full finger tissue --
-----models based on ultrasound --
-----imaging data ----------------
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Results shared with a CC-BY license (attribution to original work mandatory) 

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Project Description 
The research methodology suggests a better methodology to assessing patients prior to phototherapy using low cost ultrasound imaging for measuring tissue composition and layers at the site of interest. The results shared at Monte Carlo simulation output using Virtual Tissue Photonics Initiative's Monte Carlo Command Line (MCCL) tool. The tool provides a simple execution of tissue layers, defined from the thickness and depth measurements from an ultrasound system. 

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Folder organisation
The file "Skin Models and Types Assessed in the Study" in the repository shows the types of skin and the various thickness models assessed in the study. The folder of results itself are organised according to participant number and wavelength of the photons simulated. The individual folders have the results, specific to the detector mentioned in the image file name. 

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Acknowledgement to the Virtual Photonics Technology Initiative (https://virtualphotonics.org/)
This work was made possible through open-source software resources offered by the Virtual Photonics Technology Initiative, at the Beckman Laser Institute, University of California, Irvine.

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Important Links
Virtual Photonics Technology Initiative: https://virtualphotonics.org/
Virtual Technology Software (VTS) Documentation: https://virtualphotonics.org/documentation
Virtual Photonics Repo: https://github.com/VirtualPhotonics
Monte Carlo Command Line (MCCL) implementation: https://github.com/VirtualPhotonics/VTS/wiki/MCCL-Getting-Started

All the information necessary to understand the the infiles, input, analysis, results generation are presented in the Git repository. The projects are regularly updated with new features/modalities.