985 research outputs found

    The influence of wing–wake interactions on the production of aerodynamic forces in flapping flight

    Get PDF
    We used two-dimensional digital particle image velocimetry (DPIV) to visualize flow patterns around the flapping wing of a dynamically scaled robot for a series of reciprocating strokes starting from rest. The base of the wing was equipped with strain gauges so that the pattern of fluid motion could be directly compared with the time history of force production. The results show that the development and shedding of vortices throughout each stroke are highly stereotyped and influence force generation in subsequent strokes. When a wing starts from rest, it generates a transient force as the leading edge vortex (LEV) grows. This early peak, previously attributed to added-mass acceleration, is not amenable to quasi-steady models but corresponds well to calculations based on the time derivative of the first moment of vorticity within a sectional slice of fluid. Forces decay to a stable level as the LEV reaches a constant size and remains attached throughout most of the stroke. The LEV grows as the wing supinates prior to stroke reversal, accompanied by an increase in total force. At stroke reversal, both the LEV and a rotational starting vortex (RSV) are shed into the wake, forming a counter-rotating pair that directs a jet of fluid towards the underside of the wing at the start of the next stroke. We isolated the aerodynamic influence of the wake by subtracting forces and flow fields generated in the first stroke, when the wake is just developing, from those produced during the fourth stroke, when the pattern of both the forces and wake dynamics has reached a limit cycle. This technique identified two effects of the wake on force production by the wing: an early augmentation followed by a small attenuation. The later decrease in force is consistent with the influence of a decreased aerodynamic angle of attack on translational forces caused by downwash within the wake and is well explained by a quasi-steady model. The early effect of the wake is not well approximated by a quasi-steady model, even when the magnitude and orientation of the instantaneous velocity field are taken into account. Thus, the wake capture force represents a truly unsteady phenomenon dependent on temporal changes in the distribution and magnitude of vorticity during stroke reversal

    Can fundamental movement skill mastery be increased via a six week physical activity intervention to have positive effects on physical activity and physical self-perception?

    Get PDF
    Previous research has suggested a positive relationship between fundamental movement skills (FMS) mastery and physical activity (PA) level. Research conducted on interventions to improve FMS mastery is equivocal and further research is needed.An intervention group of 82 children (35 boys and 47 girls) and a control group of 83 children (42 boys and 41 girls) were recruited from Years 4 and 5 (mean age ± SD = 8.3 ± 0.4 years) of two schools in Central England. The intervention included a combination of circuits and dancing to music. Pre and post intervention tests were conducted. Tests included: subjective assessment of eight FMS; objective measurement of two FMS; four day pedometer step count recording; height and mass for Body Mass Index (BMI); and the completion of Harter et al.'s (1982) self-perception questionnaire.Following a two (pre to post) by two (intervention and control group) mixed-model ANOVA it was highlighted that the intervention group improved mastery in all eight FMS, and increased both daily steps and physical self-perception.It can be concluded that focussing one Physical Education (PE) lesson per week on the development of FMS has had a positive benefit on FMS, PA level and physical self-perception for the children in this study

    Highly consistent genetic alterations in childhood adrenocortical tumours detected by comparative genomic hybridization

    Get PDF
    We have examined 11 cases of childhood adrenocortical tumours for copy number changes using comparative genomic hybridization (CGH). The changes seen are highly consistent between cases, and are independent of tumour type (carcinoma versus adenoma) or the presence of a germline TP53 mutation. The regions of chromosomal gain and loss identified in this study indicate the location of genes that are potentially important in the development and progression of childhood adrenocortical tumours. Finally, the copy number changes identified in childhood tumours are distinctly different to those seen in adult cases (Kjellman et al (1996) Cancer Res56: 4219–4223), and we propose that this indicates that childhood tumours are of embryonal origin. © 1999 Cancer Research Campaig

    Preschool and parental influences on physical activity and fundamental movement skills in preschool children from low socio-economic backgrounds: A qualitative study.

    Get PDF
    PA levels of children attending different preschools have been reported as varying greatly, with the characteristics of the preschool influencing a child’s PA level (Pate, Pfeiffer, Trost, Ziegler and Dowda, [2004], Pediatrics 114, 1258-1263). Parents and teachers have been known to overestimate the PA levels that children complete and this may place a decreased importance on encouraging and supporting PA in preschool children (Tucker, [2008], Early Childhood Research Quarterly, 23, 547-558). Settings with greater space and opportunities for outdoor play and PA are required, as a lack of space is a major cause of being overweight for 10-40% of children in developed countries (Blair, Wood and Sallis, [1994], Preventive Medicine, 23, 558-559). Mastery of Fundamental Movement Skills (FMS) is a prerequisite to functioning on a daily basis (Venetsanou and Kambas, [2011], Physical Education and Sport, 9, 81-90); they provide the building blocks for future motor skills and PA. Failure to achieve mastery in these skills could prevent preschool children from participating in PA. Therefore, the aim of this study was to investigate nursery staff and parents’ perceptions of preschool children’s PA, in relation to the environment, facilities, play and barriers to PA. With institutional ethics approval, focus groups were conducted in 4 preschools, with the inclusion of parents and staff of 3-5 year old children (n = 17, parents = 10, staff = 7) from North Warwickshire, England. Thematic analysis (Braun and Clarke, [2006], Qualitative Research in Psychology, 3, 77-101) was used to identify key themes and subthemes from the transcripts. Emergent themes included: outside exercise, outdoor equipment, the responsibility of PA, lack of exercise, modern lifestyles, time, cost, health and safety concerns of staff and staff training. Differences were apparent between preschools when discussing measurement of PA and FMS, PA at home, space in the settings and staff training. The findings suggest that preschools provide good opportunities for PA and FMS, especially for pre-schoolers from low socio-economic backgrounds. However, results also highlighted a need for more extensive training of staff in relation to PA and FMS opportunities. To increase PA and FMS in pre-schoolers, interventions are required which continue with the current levels of PA in preschools, combined with parental involvement to deliver PA; through encouraging indoor and outdoor activities and participating in less sedentary activities in the home environment. Interventions also need to provide staff training to support settings to deliver PA and FMS to preschool children

    Quantitative histopathologic assessment of perfusion MRI as a marker of glioblastoma cell infiltration in and beyond the peritumoral edema region

    Get PDF
    Background: Conventional MRI fails to detect regions of glioblastoma cell infiltration beyond the contrast‐enhanced T1 solid tumor region, with infiltrating tumor cells often migrating along host blood vessels. Purpose: To quantitatively and qualitatively analyze the correlation between perfusion MRI signal and tumor cell density in order to assess whether local perfusion perturbation could provide a useful biomarker of glioblastoma cell infiltration. Study Type: Animal model. Subjects: Mice bearing orthotopic glioblastoma xenografts generated from a patient‐derived glioblastoma cell line. Field Strength/Sequences: 7T perfusion images acquired using a high signal‐to‐noise ratio (SNR) multiple boli arterial spin labeling sequence were compared with conventional MRI (T1/T2 weighted, contrast‐enhanced T1, diffusion‐weighted, and apparent diffusion coefficient). Assessment: Immunohistochemistry sections were stained for human leukocyte antigen (probing human‐derived tumor cells). To achieve quantitative MRI‐tissue comparison, multiple histological slices cut in the MRI plane were stacked to produce tumor cell density maps acting as a “ground truth.” Statistical Tests: Sensitivity, specificity, accuracy, and Dice similarity indices were calculated and a two‐tailed, paired t‐test used for statistical analysis. Results: High comparison test results (Dice 0.62–0.72, Accuracy 0.86–0.88, Sensitivity 0.51–0.7, and Specificity 0.92–0.97) indicate a good segmentation for all imaging modalities and highlight the quality of the MRI tissue assessment protocol. Perfusion imaging exhibits higher sensitivity (0.7) than conventional MRI (0.51–0.61). MRI/histology voxel‐to‐voxel comparison revealed a negative correlation between tumor cell infiltration and perfusion at the tumor margins (P = 0.0004). Data Conclusion: These results demonstrate the ability of perfusion imaging to probe regions of low tumor cell infiltration while confirming the sensitivity limitations of conventional imaging modalities. The quantitative relationship between tumor cell density and perfusion identified in and beyond the edematous T2 hyperintensity region surrounding macroscopic tumor could be used to detect marginal tumor cell infiltration with greater accuracy

    Force production and flow structure of the leading edge vortex on flapping wings at high and low Reynolds numbers

    Get PDF
    The elevated aerodynamic performance of insects has been attributed in part to the generation and maintenance of a stable region of vorticity known as the leading edge vortex (LEV). One explanation for the stability of the LEV is that spiraling axial flow within the vortex core drains energy into the tip vortex, forming a leading-edge spiral vortex analogous to the flow structure generated by delta wing aircraft. However, whereas spiral flow is a conspicuous feature of flapping wings at Reynolds numbers (Re) of 5000, similar experiments at Re=100 failed to identify a comparable structure. We used a dynamically scaled robot to investigate both the forces and the flows created by a wing undergoing identical motion at Re of ~120 and ~1400. In both cases, motion at constant angular velocity and fixed angle of attack generated a stable LEV with no evidence of shedding. At Re=1400, flow visualization indicated an intense narrow region of spanwise flow within the core of the LEV, a feature conspicuously absent at Re=120. The results suggest that the transport of vorticity from the leading edge to the wake that permits prolonged vortex attachment takes different forms at different Re

    Urinary ATP and visualization of intracellular bacteria: a superior diagnostic marker for recurrent UTI in renal transplant recipients?

    Get PDF
    Renal transplant recipients (RTR) are highly susceptible to urinary tract infections (UTIs) with over 50% of patients having at least one UTI within the first year. Yet it is generally acknowledged that there is considerable insensitivity and inaccuracy in routine urinalysis when screening for UTIs. Thus a large number of transplant patients with genuine urine infections may go undiagnosed and develop chronic recalcitrant infections, which can be associated with graft loss and morbidity. Given a recent study demonstrating ATP is released by urothelial cells in response to bacteria exposure, possibly acting at metabotropic P2Y receptors mediating a proinflammatory response, we have investigated alternative, and possibly more appropriate, urinalysis techniques in a cohort of RTRs.Mid-stream urine (MSU) samples were collected from 53 outpatient RTRs. Conventional leukocyte esterase and nitrite dipstick tests, and microscopic pyuria counts (in 1 ?l), ATP concentration measurements, and identification of intracellular bacteria in shed urothelial cells, were performed on fresh unspun samples and compared to ‘gold-standard’ bacterial culture results.Of the 53 RTRs, 22% were deemed to have a UTI by ‘gold-standard’ conventional bacteria culture, whereas 87%, 8% and 4% showed evidence of UTIs according to leukocyte esterase dipstick, nitrite dipstick, and a combination of both dipsticks, respectively. Intracellular bacteria were visualized in shed urothelial cells of 44% of RTRs, however only 1 of the 23 RTRs (44%) was deemed to have a UTI by conventional bacteria culture. A significant association of the ‘gold-standard’ test with urinary ATP concentration combined with visualization of intracellular bacteria in shed urothelial cells was determined using the Fisher’s exact test.It is apparent that standard bedside tests for UTIs give variable results and that seemingly quiescent bacteria in urothelial cells are very common in RTRs and may represent a focus of subclinical infection. Furthermore, our results suggest urinary ATP concentration combined with detection of intracellular bacteria in shed urinary epithelial cells may be a sensitive means by which to detect ‘occult’ infection in RTRs

    Lattice instabilities of cubic NiTi from first principles

    Full text link
    The phonon dispersion relation of NiTi in the simple cubic B2 structure is computed using first-principles density-functional perturbation theory with pseudopotentials and a plane-wave basis set. Lattice instabilities are observed to occur across nearly the entire Brillouin zone, excluding three interpenetrating tubes of stability along the (001) directions and small spheres of stability centered at R. The strongest instability is that of the doubly degenerate M5' mode. The atomic displacements of one of the eigenvectors of this mode generate a good approximation to the observed B19' ground-state structure.Comment: 11 pages, 3 figure
    corecore