767 research outputs found

    A primer for ZooMS applications in archaeology

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    Collagen peptide mass fingerprinting by matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry, also known as zooarchaeology by mass spectrometry (ZooMS), is a rapidly growing analytical technique in the fields of archaeology, ecology, and cultural heritage. Minimally destructive and cost effective, ZooMS enables rapid taxonomic identification of large bone assemblages, cultural heritage objects, and other organic materials of animal origin. As its importance grows as both a research and a conservation tool, it is critical to ensure that its expanding body of users understands its fundamental principles, strengths, and limitations. Here, we outline the basic functionality of ZooMS and provide guidance on interpreting collagen spectra from archaeological bones. We further examine the growing potential of applying ZooMS to nonmammalian assemblages, discuss available options for minimally and nondestructive analyses, and explore the potential for peptide mass finger-printing to be expanded to noncollagenous proteins. We describe the current limitations of the method regarding accessibility, and we propose solutions for the future. Finally, we review the explosive growth of ZooMS over the past decade and highlight the remarkably diverse applications for which the technique is suited

    A Search for Role Clarity: A Critical Discourse Analysis of the RN and RPN Entry-to-Practice Competencies That Shape Nursing Curriculum in Ontario, Canada

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    There is confusion regarding the practice expectations of Registered Nurses (RN) and Registered Practical Nurses (RPN) for employers, educators, nurses, nursing students, and the public, in Ontario, Canada. As the entry-to-practice competencies (ETPC) serve as a guide to the curricular content of nursing programs, a critical discourse analysis of the entry-to-practice documents available to the public was performed to: 1) attempt to understand the meaning and intent of the ETPC, 2) to answer the question of what are the differences in practice expectations for RN versus RPN graduates, and 3) how can role clarity be improved through this process. Critical discourse analysis affords the opportunity to understand these documents, not just through the words on the page, but understand the social, cultural, political, and contextual forces and processes that led to their creation by the nursing regulators in Canada. However, there are competency interpretation documents available only to nursing educators embarking on the College of Nurses of Ontario (CNO) program approval process, which are not made readily available to nurses, the public or employers. These interpretation documents provide a clearer picture of the key differences and similarities between RN and RPN practice expectations. Despite this increased clarity, some language use and sentence construction confound even a seasoned educator as these words have different meanings depending on the context and common understanding of the meaning. As a useful tool for nursing practice, a table of comparison was made to guide nursing educators, employers, nurses, nursing students, and the public to make visible these differences and similarities in both the competencies and the interpretation documents. This analysis also suggests that the College of Nurses of Ontario make the interpretation documents available to a wider audience to support the link between nursing practice and nursing education to create a living curriculum that can be responsive to the ever-changing needs of the profession

    Slaves, Soldiers, Citizens: African American Artifacts of the Civil War Era

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    Based on the exhibit Slaves, Soldiers, Citizens: African American Artifacts of the Civil War Era, this book provides the full experience of the exhibit, which was on display in Special Collections at Musselman Library November 2012- December 2013. It also includes several student essays based on specific artifacts that were part of the exhibit. Table of Contents: Introduction Angelo Scarlato, Lauren Roedner ’13 & Scott Hancock Slave Collars & Runaways: Punishment for Rebellious Slaves Jordan Cinderich ’14 Chancery Sale Poster & Auctioneer’s Coin: The Lucrative Business of Slavery Tricia Runzel ’13 Isaac J. Winters: An African American Soldier from Pennsylvania Who Fought at Petersburg Avery Lentz ’14 Basil Biggs: A Prominent African American in Gettysburg after the Battle Lauren Roedner ’13 Linton Ingram: A Former Slave Who Became a Notable African American Educator in Georgia Brian Johnson & Lincoln Fitch ’14 Uncle Tom’s Cabin Theatre Poster: Racism in Post-Emancipation Entertainment Michelle Seabrook ’13 Essay Bibliographies Grand Army of the Republic Exhibit Inventory Acknowledgmentshttps://cupola.gettysburg.edu/libexhibits/1001/thumbnail.jp

    Oxysterol-Binding Protein-1 (OSBP1) Modulates Processing and Trafficking of the Amyloid Precursor Protein

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    BACKGROUND Evidence from biochemical, epidemiological and genetic findings indicates that cholesterol levels are linked to amyloid-β (Aβ) production and Alzheimer's disease (AD). Oxysterols, which are cholesterol-derived ligands of the liver X receptors (LXRs) and oxysterol binding proteins, strongly regulate the processing of amyloid precursor protein (APP). Although LXRs have been studied extensively, little is known about the biology of oxysterol binding proteins. Oxysterol-binding protein 1 (OSBP1) is a member of a family of sterol-binding proteins with roles in lipid metabolism, regulation of secretory vesicle generation and signal transduction, and it is thought that these proteins may act as sterol sensors to control a variety of sterol-dependent cellular processes. RESULTS We investigated whether OSBP1 was involved in regulating APP processing and found that overexpression of OSBP1 downregulated the amyloidogenic processing of APP, while OSBP1 knockdown had the opposite effect. In addition, we found that OSBP1 altered the trafficking of APP-Notch2 dimers by causing their accumulation in the Golgi, an effect that could be reversed by treating cells with OSBP1 ligand, 25-hydroxycholesterol. CONCLUSION These results suggest that OSBP1 could play a role in linking cholesterol metabolism with intracellular APP trafficking and Aβ production, and more importantly indicate that OSBP1 could provide an alternative target for Aβ-directed therapeutic.National Institute on Aging (AG/NS17485

    Solution Structures of the C-Terminal Domain of Cardiac Troponin C Free and Bound to the N-Terminal Domain of Cardiac Troponin I

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    The N-terminal domain of cardiac troponin I (cTnI) comprising residues 33−80 and lacking the cardiac-specific amino terminus forms a stable binary complex with the C-terminal domain of cardiac troponin C (cTnC) comprising residues 81−161. We have utilized heteronuclear multidimensional NMR to assign the backbone and side-chain resonances of Ca2+-saturated cTnC(81−161) both free and bound to cTnI(33−80). No significant differences were observed between secondary structural elements determined for free and cTnI(33−80)-bound cTnC(81−161). We have determined solution structures of Ca2+-saturated cTnC(81−161) free and bound to cTnI(33−80). While the tertiary structure of cTnC(81−161) is qualitatively similar to that observed free in solution, the binding of cTnI(33−80) results mainly in an opening of the structure and movement of the loop region between helices F and G. Together, these movements provide the binding site for the N-terminal domain of cTnI. The putative binding site for cTnI(33−80) was determined by mapping amide proton and nitrogen chemical shift changes, induced by the binding of cTnI(33−80), onto the C-terminal cTnC structure. The binding interface for cTnI(33−80), as suggested from chemical shift changes, involves predominantly hydrophobic interactions located in the expanded hydrophobic pocket. The largest chemical shift changes were observed in the loop region connecting helices F and G. Inspection of available TnC sequences reveals that these residues are highly conserved, suggesting a common binding motif for the Ca2+/Mg2+-dependent interaction site in the TnC/TnI complex

    Cervical spine injuries and collar complications in severely injured paediatric trauma patients

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    Study design:A retrospective registry review.Objectives:To determine the incidence of cervical spine (CS) injuries and collar complications in severely injured paediatric trauma patients.Setting:Regional Trauma Centre, Children\u27s Hospital.Methods:A retrospective review of 365 paediatric severe trauma patients (0-17 years), defined as an Injury Severity Score (ISS)≥12, admitted to the paediatric intensive care unit (PICU).Results:Clinically significant CS injuries occurred in 5% (n=18/365) of trauma patients, in 9% (n=13/149) of traumatic brain injury (TBI) patients and in 11% (n=6/56) of in-hospital trauma deaths. CS injuries were suspected before imaging in 33% (n=6/18) of patients based on either motor/sensory impairment or shock. CS injuries were deemed unstable in 61% (n=11/18) of patients. Patients with CS injuries had higher ISS, and longer PICU and hospital stays (P\u3c0.05). CS collar complications occurred in 10% of patients, mainly identified by day 6 and consisting of either erythema or ulcers. Patients with CS collar complications were older and more likely to have TBI, lower Glasgow Coma Scale (GCS) scores, longer PICU and hospital stays, and increased days to CS clearance (P\u3c0.05). Three CS X-rays, together with flexion/extension views, were used most frequently for CS clearance.Conclusion: CS injuries were prevalent in severely injured paediatric trauma patients, particularly in those with TBI and in nonsurvivors. CS collar complications were associated with a lower GCS and longer CS clearance times. Attention to CS collar management protocols and earlier CS clearance with computed tomography/magnetic resonance imaging in obtunded patients might reduce CS collar complications. © 2013 International Spinal Cord Society. All rights reserved

    Cleared to Land: Pilot Visual Detection of Small Unmanned Aircraft During Final Approach

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    Sighting reports of unmanned aircraft systems (UAS) by pilots, air traffic controllers, and other aviation stakeholders have continued to rise since the Federal Aviation Administration (FAA) began tracking in 2014. In 2018, the FAA received 2,307 such reports, with 22.8% (n = 526) occurring during the final approach phase of flight. The threat of a midair collision between a manned aircraft and UAS is heightened during the final approach phase of flight, as the aircraft transitions from higher-altitude airspace to the low-altitude arena, now shared with drones. Absent UAS sense and avoid systems, pilots are forced to rely on visual senses and scanning techniques to ensure the approach path remains clear of UAS incursions. This research evaluated the effectiveness of pilot visual detection of a multirotor UAS during five approach to landing scenarios in which an unmanned aircraft created an incursion into the approach path. During the scripted approach scenarios, the UAS either remained stationary or maneuvered laterally. Both aircraft and UAS were separated by established vertical safety margins and protocols to avoid an actual collision. Overall, participants detected the UAS during 30% of the approaches. The static UAS was only detected during 13.6% of the approaches, at a mean range of 647 ft. The detection rate improved to 50% when the drone was in motion, with a mean detection range of 1,593 ft. Vector data was calculated to determine the detection angle of UAS sightings, with the majority of successful detections occurring within 5˚ laterally and 10˚ vertically of center. Qualitative comments were solicited from the participants and evaluated for trends. Forty percent of the participants indicated that moving UAS are easier to spot. Other trends related to UAS contrast, object misidentification, and detection aspect angle were also identified by the participants. The authors emphasized that based on the recorded detection distance, pilots would only have a limited margin of error to successfully execute evasive maneuvers, based on the FAA’s Recommended Minimum Reaction Time Required for Evasion criteria. Full-text will be available October 30, 2019 at approximately 10:00 AM Eastern
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