952 research outputs found
Autonomic regulation and blood pressure in children
Vagal baroreflex sensitivity (BRS) is a measure of short term blood pressure (BP)
regulation through alterations in heart rate. Low BRS reflects impaired autonomic system
regulation and has been found to be a surrogate marker for cardiovascular health. In
particular, it has found to be associated with the pathogenesis of adult hypertension.
However, only limited information exists as to the negative consequences of childhood
BP on baroreflex function. The objective of this study was to investigate BRS in children
with 2 different BP profiles while controlling for the effects of age, maturation, sex, and
body composition. A preliminary subsample of 11-14 year-old children from the HBEAT
(Heart Behavioural Environmental Assessment Team) Study was selected. The children
were divided into 2 BP groups; high BP (HBP; 2:95tl1 percentile, n=21) and normal BP
(NBP; <90th percentile, n=85). Following an initial 15 minutes of supine rest, 5 minutes of
continuous beat-to-beat BP (Finapres) and RR interval (RRI) were recorded (standard
ECG). Spectral indices were computed using Fast Fourier Transform and transfer
function analysis was used to compute BRS. High frequency (HF) and low frequency
(LF) power spectral areas were set to 0.15-0.4 Hz and 0.04-0.15 Hz, respectively. Body
composition was measured using body mass index. After adjusting for body composition,
maturation, age and sex ANCOV A results were as follows; LF and HF BRS, LF and HF
RRI, and RRI total power were lower in the HBP versus NBP participants (p<0.05). As
well, LF IHF SBP ratio was significantly higher in the HBP compared to the NBP group
(p<0.05). The regression coefficients (unstandardized B) indicated that in changing
groups (NBP to HBP) LF and HF BRS decreases by 4.04 and 6.18 ms/mmHg,
respectively. Thus, as BP increases, BRS decreases. These data suggest that changes in
autonomic activity occur in children who have HBP, regardless of age, sex, maturation,
and body composition. Thus, despite their young age and relatively short amount of time
having high BP compared with adults, these children are already demonstrating poor BP
regulation and reduced cardiovagal activity. Given that childhood BP is associated with
hypertension in adulthood, there is a growing concern in regards to the current
cardiovascular health of our children and future adults
Detection of elliptical shapes via cross-entropy clustering
The problem of finding elliptical shapes in an image will be considered. We
discuss the solution which uses cross-entropy clustering. The proposed method
allows the search for ellipses with predefined sizes and position in the space.
Moreover, it works well for search of ellipsoids in higher dimensions
Application of the Fisher-Rao metric to ellipse detection
The parameter space for the ellipses in a two dimensional image is a five dimensional manifold, where each point of the manifold corresponds to an ellipse in the image. The parameter space becomes a Riemannian manifold under a Fisher-Rao metric, which is derived from a Gaussian model for the blurring of ellipses in the image. Two points in the parameter space are close together under the Fisher-Rao metric if the corresponding ellipses are close together in the image. The Fisher-Rao metric is accurately approximated by a simpler metric under the assumption that the blurring is small compared with the sizes of the ellipses under consideration. It is shown that the parameter space for the ellipses in the image has a finite volume under the approximation to the Fisher-Rao metric. As a consequence the parameter space can be replaced, for the purpose of ellipse detection, by a finite set of points sampled from it. An efficient algorithm for sampling the parameter space is described. The algorithm uses the fact that the approximating metric is flat, and therefore locally Euclidean, on each three dimensional family of ellipses with a fixed orientation and a fixed eccentricity. Once the sample points have been obtained, ellipses are detected in a given image by checking each sample point in turn to see if the corresponding ellipse is supported by the nearby image pixel values. The resulting algorithm for ellipse detection is implemented. A multiresolution version of the algorithm is also implemented. The experimental results suggest that ellipses can be reliably detected in a given low resolution image and that the number of false detections
can be reduced using the multiresolution algorithm
Society of Behavioral Medicine Call to Action: Include obesity/overweight management education in health professional curricula and provide coverage for behavior-based treatments of obesity/overweight most commonly provided by psychologists, dieticians, counselors, and other health care professionals and include such providers on all multidisciplinary teams treating patients who have overweight or obesity
Obesity is a serious chronic disease whose prevalence has grown to epidemic proportions over the past five decades and is a major contributor to the global burden of most common cancers, heart disease, Type 2 diabetes, liver disease, and sleep apnea. Primary care clinicians, including physicians, nurse practitioners, and physician assistants, are often the first health care professionals to identify obesity or overweight during routine long-term care and have the opportunity to intervene to prevent and treat disease. However, they often lack the training and skills needed to deliver scientifically validated, behavior-based treatments. These gaps must be addressed in order to treat the obesity epidemic. The Society of Behavioral Medicine strongly urges health professional educators and accrediting agencies to include obesity and overweight management education for primary care clinicians. Additionally, we support promoting referrals and reimbursement for psychologists, dieticians, and other health care professionals as critical members of the care team and improving reimbursement levels for behavioral obesity and overweight management treatment
Data Fusion of Objects Using Techniques Such as Laser Scanning, Structured Light and Photogrammetry for Cultural Heritage Applications
In this paper we present a semi-automatic 2D-3D local registration pipeline
capable of coloring 3D models obtained from 3D scanners by using uncalibrated
images. The proposed pipeline exploits the Structure from Motion (SfM)
technique in order to reconstruct a sparse representation of the 3D object and
obtain the camera parameters from image feature matches. We then coarsely
register the reconstructed 3D model to the scanned one through the Scale
Iterative Closest Point (SICP) algorithm. SICP provides the global scale,
rotation and translation parameters, using minimal manual user intervention. In
the final processing stage, a local registration refinement algorithm optimizes
the color projection of the aligned photos on the 3D object removing the
blurring/ghosting artefacts introduced due to small inaccuracies during the
registration. The proposed pipeline is capable of handling real world cases
with a range of characteristics from objects with low level geometric features
to complex ones
Self-calibration and motion recovery from silhouettes with two mirrors
LNCS v. 7724-7727 (pts. 1-4) entitled: Computer vision - ACCV 2012: 11th Asian Conference on Computer Vision ... 2012: revised selected papersThis paper addresses the problem of self-calibration and motion recovery from a single snapshot obtained under a setting of two mirrors. The mirrors are able to show five views of an object in one image. In this paper, the epipoles of the real and virtual cameras are firstly estimated from the intersection of the bitangent lines between corresponding images, from which we can easily derive the horizon of the camera plane. The imaged circular points and the angle between the mirrors can then be obtained from equal angles between the bitangent lines, by planar rectification. The silhouettes produced by reflections can be treated as a special circular motion sequence. With this observation, technique developed for calibrating a circular motion sequence can be exploited to simplify the calibration of a single-view two-mirror system. Different from the state-of-the-art approaches, only one snapshot is required in this work for self-calibrating a natural camera and recovering the poses of the two mirrors. This is more flexible than previous approaches which require at least two images. When more than a single image is available, each image can be calibrated independently and the problem of varying focal length does not complicate the calibration problem. After the calibration, the visual hull of the objects can be obtained from the silhouettes. Experimental results show the feasibility and the preciseness of the proposed approach. © 2013 Springer-Verlag.postprin
Precision medicine and lymphoma
Cancer Research UK (15968
awarded to J.F., 22742 awarded to J.O.) and Bloodwise
program grant [15002] through the Precision Medicine
for Aggressive Lymphoma (PMAL) consortium. E.A.K. is
in receipt of fellowship funding from The Medical College
of Saint Bartholomewâs Hospital Trust. J.F. declares
grants from Epizyme and personal fees from Roche,
Gilead, Janssen and Epizyme
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