722 research outputs found
Classification of fibroglandular tissue distribution in the breast based on radiotherapy planning CT
Accurate segmentation of breast tissues is required for a number of applications such as model based deformable registration in breast radiotherapy. The accuracy of breast tissue segmentation is affected by the spatial distribution (or pattern) of fibroglandular tissue (FT). The goal of this study was to develop and evaluate texture features, determined from planning computed tomography (CT) data, to classify the spatial distribution of FT in the breas
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Latitudinal clines in gene expression and -regulatory element variation in
: Organisms can rapidly adapt to their environment when colonizing a new habitat, and this could occur by changing protein sequences or by altering patterns of gene expression. The importance of gene expression in driving local adaptation is increasingly being appreciated, and -regulatory elements (CREs), which control and modify the expression of the nearby genes, are predicted to play an important role. Here we investigate genetic variation in gene expression in immune-challenged from temperate and tropical or sub-tropical populations in Australia and United States.
: We find parallel latitudinal changes in gene expression, with genes involved in immunity, insecticide resistance, reproduction, and the response to the environment being especially likely to differ between latitudes. By measuring allele-specific gene expression (ASE), we show that -regulatory variation also shows parallel latitudinal differences between the two continents and contributes to the latitudinal differences in gene expression.
: Both Australia and United States were relatively recently colonized by, and it was recently shown that introductions of both African and European flies occurred, with African genotypes contributing disproportionately to tropical populations. Therefore, both the demographic history of the populations and local adaptation may be causing the patterns that we see.This work was funded by European Research Council grant DrosophilaInfection 281668 and the Natural Environment Research Council grant NE/L004232/1
ANN Controller Design for Lime Kiln Process
The lime kiln is a very complex multivariable process with severe non linearities, high degree of coupling and frequent disturbances. In this paper a 2x2 lime kiln process with two manipulated variables namely the fuel gas flowrate, and the percent opening of the induced draft damper and two controlled variables namely front end temperature and back end temperature has been considered. After its decoupling, artificial neural network (ANN) controllers have been designed to control the front end temperature. The performance of ANN controllers have been compared with that of conventional controllers
Adaptive importance sampling technique for markov chains using stochastic approximation
For a discrete-time finite-state Markov chain, we develop an adaptive importance sampling scheme to estimate the expected total cost before hitting a set of terminal states. This scheme updates the change of measure at every transition using constant or decreasing step-size stochastic approximation. The updates are shown to concentrate asymptotically in a neighborhood of the desired zero-variance estimator. Through simulation experiments on simple Markovian queues, we observe that the proposed technique performs very well in estimating performance measures related to rare events associated with queue lengths exceeding prescribed thresholds. We include performance comparisons of the proposed algorithm with existing adaptive importance sampling algorithms on some examples. We also discuss the extension of the technique to estimate the infinite horizon expected discounted cost and the expected average cost
Classification of fibroglandular tissue distribution in the breast based on radiotherapy planning CT
Accurate segmentation of breast tissues is required for a number of applications such as model based deformable registration in breast radiotherapy. The accuracy of breast tissue segmentation is affected by the spatial distribution (or pattern) of fibroglandular tissue (FT). The goal of this study was to develop and evaluate texture features, determined from planning computed tomography (CT) data, to classify the spatial distribution of FT in the breas
Determining appropriate imaging parameters for kilovoltage intrafraction monitoring: an experimental phantom study.
Kilovoltage intrafraction monitoring (KIM) utilises the kV imager during treatment for real-time tracking of prostate fiducial markers. However, its effectiveness relies on sufficient image quality for the fiducial tracking task. To guide the performance characterisation of KIM under different clinically relevant conditions, the effect of different kV parameters and patient size on image quality, and quantification of MV scatter from the patient to the kV detector panel were investigated in this study. Image quality was determined for a range of kV acquisition frame rates, kV exposure, MV dose rates and patient sizes. Two methods were used to determine image quality; the ratio of kV signal through the patient to the MV scatter from the patient incident on the kilovoltage detector, and the signal-to-noise ratio (SNR). The effect of patient size and frame rate on MV scatter was evaluated in a homogeneous CIRS pelvis phantom and marker segmentation was determined utilising the Rando phantom with embedded markers. MV scatter incident on the detector was shown to be dependent on patient thickness and frame rate. The segmentation code was shown to be successful for all frame rates above 3 Hz for the Rando phantom corresponding to a kV to MV ratio of 0.16 and an SNR of 1.67. For a maximum patient dimension less than 36.4 cm the conservative kV parameters of 5 Hz at 1 mAs can be used to reduce dose while retaining image quality, where the current baseline kV parameters of 10 Hz at 1 mAs is shown to be adequate for marker segmentation up to a patient dimension of 40 cm. In conclusion, the MV scatter component of image quality noise for KIM has been quantified. For most prostate patients, use of KIM with 10 Hz imaging at 1 mAs is adequate however image quality can be maintained and imaging dose reduced by altering existing acquisition parameters
Determining appropriate imaging parameters for kilovoltage intrafraction monitoring: an experimental phantom study.
Kilovoltage intrafraction monitoring (KIM) utilises the kV imager during
treatment for real-time tracking of prostate fiducial markers. However, its
effectiveness relies on sufficient image quality for the fiducial tracking task.
To guide the performance characterisation of KIM under different clinically
relevant conditions, the effect of different kV parameters and patient size on
image quality, and quantification of MV scatter from the patient to the kV
detector panel were investigated in this study. Image quality was determined for
a range of kV acquisition frame rates, kV exposure, MV dose rates and patient
sizes. Two methods were used to determine image quality; the ratio of kV signal
through the patient to the MV scatter from the patient incident on the
kilovoltage detector, and the signal-to-noise ratio (SNR). The effect of patient
size and frame rate on MV scatter was evaluated in a homogeneous CIRS pelvis
phantom and marker segmentation was determined utilising the Rando phantom with
embedded markers. MV scatter incident on the detector was shown to be dependent
on patient thickness and frame rate. The segmentation code was shown to be
successful for all frame rates above 3 Hz for the Rando phantom corresponding to
a kV to MV ratio of 0.16 and an SNR of 1.67. For a maximum patient dimension less
than 36.4 cm the conservative kV parameters of 5 Hz at 1 mAs can be used to
reduce dose while retaining image quality, where the current baseline kV
parameters of 10 Hz at 1 mAs is shown to be adequate for marker segmentation up
to a patient dimension of 40 cm. In conclusion, the MV scatter component of image
quality noise for KIM has been quantified. For most prostate patients, use of KIM
with 10 Hz imaging at 1 mAs is adequate however image quality can be maintained
and imaging dose reduced by altering existing acquisition parameters
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