2,075 research outputs found
Observational review and analysis of concussion : a method for conducting a standardized video analysis of concussion in rugby league
Background: Several professional contact and collision sports have recently introduced the use of sideline video review for club medical staff to help identify and manage concussions. As such, reviewing video footage on the sideline has become increasingly relied upon to assist with improving the identification of possible injury. However, as yet, a standardized method for reviewing such video footage in rugby league has not been published. The aim of this study is to evaluate whether independent raters reliably agreed on the injury characterization when using a standardized observational instrument to record video footage of National Rugby League (NRL) concussions.
Methods: Video footage of 25 concussions were randomly selected from a pool of 80 medically diagnosed concussions from the 2013ā2014 NRL seasons. Four raters (two naive and two expert) independently viewed video footage of 25 NRL concussions and completed the Observational Review and Analysis of Concussion form for the purpose of this inter-rater reliability study. The inter-rater reliability was calculated using Cohenās kappa (Īŗ) and intra-class correlation (ICC) statistics. The two naive raters and the two expert raters were compared with one another separately.
Results: A considerable number of components for the naive and expert raters had almost perfect agreement (Īŗ or ICC value ā„ 0.9), 9 of 22 (41%) components for naive raters and 21 of 22 (95%) components for expert raters. For the concussion signs, however, the majority of the rating agreement was moderate (Īŗ value 0.6ā0.79); both the naive and expert raters had 4 of 6 (67%) concussion signs with moderate agreement. The most difficult concussion sign to achieve agreement on was blank or vacant stare, which had weak (Īŗ value 0.4ā0.59) agreement for both naive and expert raters.
Conclusions: There appears to be value in expert raters, but less value for naive raters, in using the new Observational Review and Analysis of Concussion (ORAC) Form. The ORAC Form has high inter-rater agreement for most data elements, and it can be used by expert raters evaluating video footage of possible concussion in the NRL
Interpreting forest and grassland biome productivity utilizing nested scales of image resolution and biogeographical analysis
Several hardware, software, and data collection problems encountered were conquered. The Geographic Information System (GIS) data from other systems were converted to ERDAS format for incorporation with the image data. Statistical analysis of the relationship between spectral values and productivity is being pursued. Several project sites, including Jackson, Pope, Boulder, Smokies, and Huntington Forest are evolving as the most intensively studied areas, primarily due to availability of data and time. Progress with data acquisition and quality checking, more details on experimental sites, and brief summarizations of research results and future plans are discussed. Material on personnel, collaborators, facilities, site background, and meetings and publications of the investigators are included
Subtle Recognition of 14-Base Pair DNA Sequences via Threading Polyintercalation
ABSTRACT: Small molecules that bind DNA in a sequence-specific manner could act as antibiotic, antiviral, or anticancer agents because of their potential ability to manipulate gene expression. Our laboratory has developed threading poly-intercalators based on 1,4,5,8-naphthalene diimide (NDI) units connected in a head-to-tail fashion by flexible peptide linkers. Previously, a threading tetraintercalator composed of alternating minorāmajorāminor groove-binding modules was shown to bind specifically to a 14 bp DNA sequence with a dissociation half-life of 16 days [Holman, G. G., et al. (2011) Nat. Chem. 3, 875ā881]. Herein are described new NDI-based tetraintercalators with a different major groove-binding module and a reversed N to C directionality of one of the minor groove-binding modules. DNase I footprinting and kinetic analyses revealed that these new tetraintercalators are able to discriminate, by as much as 30-fold, 14 bp DNA binding sites that differ by 1 or 2 bp. Relative affinities were found to correlate strongly with dissociation rates, while overall C2 symmetry in the DNA-binding molecule appeared to contribute to enhanced association rates
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MCNP perturbation technique for criticality analysis
The differential operator perturbation technique has been incorporated into the Monte Carlo N-Particle transport code MCNP and will become a standard feature of future releases. This feature includes first and/or second order terms of the Taylor Series expansion for response perturbations related to cross-section data (i.e., density, composition, etc.). Criticality analyses can benefit from this technique in that predicted changes in the track-length tally estimator of K{sub eff} may be obtained for multiple perturbations in a single run. A key advantage of this method is that a precise estimate of a small change in response (i.e., < 1%) is easily obtained. This technique can also offer acceptable accuracy, to within a few percent, for up to 20-30% changes in a response
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Isolation of binding proteins with high affinity to ligands
The invention overcomes the deficiencies of the prior art by providing a rapid approach for isolating binding proteins capable of binding small molecules and peptides via ādisplay-lessā library screening. In the technique, libraries of candidate binding proteins, such as antibody sequences, are expressed in soluble form in the periplasmic space of gram negative bacteria, such as Escherichia coli, and are mixed with a labeled ligand. In clones expressing recombinant polypeptides with affinity for the ligand, the concentration of the labeled ligand bound to the binding protein is increased and allows the cells to be isolated from the rest of the library. Where fluorescent labeling of the target ligand is used, cells may be isolated by fluorescence activated cell sorting (FACS). The approach is more rapid than prior art methods and avoids problems associated with the surface-expression of ligand fusion proteins employed with phage display.Board of Regents, University of Texas Syste
The new Cold Neutron Chopper Spectrometer at the Spallation Neutron Source - Design and Performance
The design and performance of the new Cold Neutron Chopper Spectrometer
(CNCS) at the Spallation Neutron Source in Oak Ridge are described. CNCS is a
direct geometry inelastic time-of-flight spectrometer, designed to cover
essentially the same energy and momentum transfer ranges as IN5 at ILL, LET at
ISIS, DCS at NIST, TOFTOF at FRM2, AMATERAS at J-PARC, PHAROS at LANSCE and
NEAT at HZB, at similar energy resolution. Measured values of key figures such
as neutron flux at sample position and energy resolution are compared between
measurements and ray tracing Monte Carlo simulations, and good agreement
(better than 20% of absolute numbers) has been achieved. The instrument
performs very well in the cold and thermal neutron energy ranges, and promises
to become a workhorse for the neutron scattering community for quasielastic and
inelastic scattering experiments
How to write an original article for the Journal of Orthopaedics and Traumatology
The abstract is the precise summary of the article, not a preface. As Baue wrote in a popular editorial of the Archives of Surgery in 1979, āwriting a good abstract is not abstract writingā [6]. The main data have to be represented, as they allow readers to understand contents clearly. Sentences like āThe paper reports...ā or āThe authors describe...ā have to be avoided as well as any generic statements
Principles And Practices Fostering Inclusive Excellence: Lessons From The Howard Hughes Medical Instituteās Capstone Institutions
Best-practices pedagogy in science, technology, engineering, and mathematics (STEM) aims for inclusive excellence that fosters student persistence. This paper describes principles of inclusivity across 11 primarily undergraduate institutions designated as Capstone Awardees in Howard Hughes Medical Instituteās (HHMI) 2012 competition. The Capstones represent a range of institutional missions, student profiles, and geographical locations. Each successfully directed activities toward persistence of STEM students, especially those from traditionally underrepresented groups, through a set of common elements: mentoring programs to build community; research experiences to strengthen scientific skill/identity; attention to quantitative skills; and outreach/bridge programs to broaden the student pool. This paper grounds these program elements in learning theory, emphasizing their essential principles with examples of how they were implemented within institutional contexts. We also describe common assessment approaches that in many cases informed programming and created traction for stakeholder buy-in. The lessons learned from our shared experiences in pursuit of inclusive excellence, including the resources housed on our companion website, can inform othersā efforts to increase access to and persistence in STEM in higher education
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