Monte Carlo simulation results for full finger models based on ultrasound image data

Kallepalli, AkhilJames, DavidRichardson, Mark2024-06-092024-06-092021-06-02Kallepalli, Akhil; James, David; Richardson, Mark (2020). Monte Carlo simulation results for full finger models based on ultrasound image data. Cranfield Online Research Data (CORD). Dataset. https://doi.org/10.17862/cranfield.rd.11603883https://dspace.lib.cranfield.ac.uk/handle/1826/22203Monte Carlo simulations were performed using Virtual Tissue Simulator (VTS) and Monte Carlo Command Line (MCCL) tools. The target was a tissue model specific to individual participants, including all anatomical components in a finger. The thickness and depth measurements were ascertained using an 18 MHz ultrasound probe. This implementation is proposed as a low-cost and novel method for patient-specific photo-therapy. The optical models of 12 participants are assessed at four wavelengths of interest. The optical interaction with the tissue layers is calculated with 10 6 photons. The absorption, reflection, fluence and transmission are measured and quantified in the experiments.CC BY 4.0https://creativecommons.org/licenses/by/4.0/'ultrasound imaging''Monte Carlo computer simulations''skin anatomy''chromophores''scattering properties''absorption properties''photon transport''Muscle''Bone''Epidermis''Dermis''tendon''TracePro''Simulation and Modelling''Applied Physics''Human Biophysics''Biological Physics''Medical Physics''Radiology and Organ Imaging'Monte Carlo simulation results for full finger models based on ultrasound image dataDataset10.17862/cranfield.rd.11603883