Abstract: A probe and connected system provide ultrasound imaging and optical tomographic imaging of the prostate. A transrectal component carries ultrasound and optical sources and detectors movably connected to a reference element called a probe carrier that provide a reference frame to coregister anatomical and optical tomographic image data.

Abstract: A multispectral bioluminescence optical tomography algorithm makes use of a partial differential equation (PDE) constrained approach. A sequential quadratic programming (SQP) method is demonstrated that allows for solving both forward and inverse problems at once by updating the forward and inverse variables simultaneously at each step of the optimization iterations. Light propagation in biological tissue is modeled by using the equation of radiative transfer (ERT) and performance of the ERT-based PDE-constrained approach is modeled through numerical and experimental studies.

Abstract: A multispectral bioluminescence optical tomography algorithm makes use of a partial differential equation (PDE) constrained approach. A sequential quadratic programming (SQP) method is demonstrated that allows for solving both forward and inverse problems at once by updating the forward and inverse variables simultaneously at each step of the optimization iterations. Light propagation in biological tissue is modeled by using the equation of radiative transfer (ERT) and performance of the ERT-based PDE-constrained approach is modeled through numerical and experimental studies.

Abstract: The disclosed subject matter includes optical tomographic systems for acquiring and displaying dynamic data representing changes in a target tissue sample to external provocation. For example, the disclosed devices, methods and systems may be used for quantifying dynamic vascular changes caused by imposed blood pressure changes for diagnosing peripheral artery disease.

Abstract: Systems, methods, and devices for image reconstruction using combined PDE-constrained and simplified spherical harmonics (SPN) algorithm are presented herein. SPN equations can be used as the forward model in diffuse optical tomography (DOT) and employed in a PDE-constrained reduced space sequential quadratic programming (rSQP) optimization method to reconstruct spatially distributed optical properties, such as absorption, scattering, fat, oxygenated hemoglobin, de-oxygenated hemoglobin, fluorescent concentration, quantum yield, etc. The SPN algorithm with the PDE-constrained rSQP optimization method allows for DOT imaging that uses significantly less computational resources (e.g., time and random-access memory (RAM)) than methods employing the equation of radiative transfer (ERT). The techniques disclosed herein allow for more expeditious image processing as well as the potential for clinical diagnosis using DOT imaging.

Abstract: Systems, methods, and devices for image reconstruction using combined PDE-constrained and simplified spherical harmonics (SPN) algorithm are presented herein. SPN equations can be used as the forward model in diffuse optical tomography (DOT) and employed in a PDE-constrained reduced space sequential quadratic programming (rSQP) optimization method to reconstruct spatially distributed optical properties, such as absorption, scattering, fat, oxygenated hemoglobin, de-oxygenated hemoglobin, fluorescent concentration, quantum yield, etc. The SPN algorithm with the PDE-constrained rSQP optimization method allows for DOT imaging that uses significantly less computational resources (e.g., time and random-access memory (RAM)) than methods employing the equation of radiative transfer (ERT). The techniques disclosed herein allow for more expeditious image processing as well as the potential for clinical diagnosis using DOT imaging.

Abstract: A multispectral bioluminescence optical tomography algorithm makes use of a partial differential equation (PDE) constrained approach. A sequential quadratic programming (SQP) method is demonstrated that allows for solving both forward and inverse problems at once by updating the forward and inverse variables simultaneously at each step of the optimization iterations. Light propagation in biological tissue is modeled by using the equation of radiative transfer (ERT) and performance of the ERT-based PDE-constrained approach is modeled through numerical and experimental studies.

Abstract: The disclosed subject matter includes optical tomographic systems for acquiring and displaying dynamic data representing changes in a target tissue sample to external provocation. For example, the disclosed devices, methods and systems may be used for quantifying dynamic vascular changes caused by imposed blood pressure changes for diagnosing peripheral artery disease.