Your search keyword '"Paton, Sarah"' showing total 7 results

1. Turning breast to bone: Benign osseous metaplasia of the breast.

Author

Radic, Rose, Paton, Sarah, Gill, Jespal, Dissayanake, Deepthi, and Wylie, Liz

Subjects

*BREAST, *CALCIFICATIONS of the breast, *CALCINOSIS cutis, *STERNUM, *FEMUR neck, *LITERATURE reviews

Abstract

The article discusses a rare case of benign osseous metaplasia of the breast in a 63-year-old female with a history of pseudopseudohypoparathyroidism. The patient underwent a tomosynthesis-guided vacuum-assisted biopsy, which revealed benign osseous metaplasia without an associated lesion. The study highlights the importance of providing a thorough clinical history to reduce the risk of radiology-pathology discordance in similar cases. [Extracted from the article]

Published

2024

2. Vacuum‐assisted excision biopsy for definitive diagnosis of breast lesions of uncertain malignant potential (B3 lesions) on core biopsy – A single centre Western Australian experience

Author

Watson, Jessica Frances, primary, Radic, Rose, additional, Frost, Rosanna, additional, Paton, Sarah, additional, Kessell, Meredith Anita, additional, Dessauvagie, Benjamin Frederik, additional, and Taylor, Donna Blanche, additional

Published

2023

3. Guidelines for Reporting and Archiving 210Pb Sediment Chronologies to Improve Fidelity and Extend Data Lifecycle

Author

Courtney Mustaphi, Colin J., Brahney, Janice, Aquino-Lopez, Marco A., Goring, Simon, Orton, Kiersten, Noronha, Alexandra, Czaplewski, John, Asena, Quinn, Paton, Sarah, Brushworth, Johnny Panga, and Elsevier BV

Subjects

Metadata, Data curation, Radiometric dating, Lead-210, Geochronology, Radionuclide, Life Sciences, Transparency, Reproducibility

Abstract

Radiometric dating methods are essential for developing geochronologies to study Late Quaternary environmental change and 210Pb dating is commonly used to produce age-depth models from recent (within 150 years) sediments and other geoarchives. The past two centuries are marked by rapid environmental socio-ecological changes frequently attributed to anthropogenic land-use activities, modified biogeochemical cycles, and climate change. Consequently, historical reconstructions over this recent time interval have high societal value because analyses of these datasets provide understanding of the consequences of environmental modifications, critical ecosystem thresholds, and to define desirable ranges of variation for management, restoration, and conservation. For this information to be used more broadly, for example to support land management decisions or to contribute data to regional analyses of ecosystem change, authors must report all of the useful age-depth model information. However, at present there are no guidelines for researchers on what information should be reported to ensure 210Pb data are fully disclosed, reproducible, and reusable; leading to a plethora of reporting styles, including inadequate reporting that reduces potential reusability and shortening the data lifecycle. For example, 64% of the publications in a literature review of 210Pb dated geoarchives did not include any presentation of age uncertainty estimates in modeled calendar ages used in age-depth models. Insufficient reporting of methods and results used in 210Pb dating geoarchives severely hampers reproducibility and data reusability, especially in analyses that make use of databased palaeoenvironmental data. Reproducibility of data is fundamental to further analyses of the number of palaeoenvironmental data and the spatial coverage of published geoarchives sites. We suggest, and justify, a set of minimum reporting guidelines for metadata and data reporting for 210Pb dates, including an IEDA (Interdisciplinary Earth Data Alliance), LiPD (Linked Paleo Data) and generic format data presentation templates, to contribute to improvements in data archiving standards and to facilitate the data requirements of researchers analyzing datasets of several palaeoenvironmental study sites. We analyse practices of methods, results and first order interpretation of 210Pb data and make recommendations to authors on effective data reporting and archiving to maximize the value of datasets. We provide empirical evidence from publications and practitioners to support our suggested reporting guidelines. These guidelines increase the scientific value of 210Pb by expanding its relevance in the data lifecycle. Improving quality and fidelity of environmental datasets broadens interdisciplinary use, lengthens the potential lifecycle of data products, and achieves requirements applicable for evidenced-based policy support.

Published

2019

4. Guidelines for reporting and archiving Pb-210 sediment chronologies to improve fidelity and extend data lifecycle

Author

Courtney Mustaphi, Colin J., Brahney, Janice, Aquino-Lopez, Marco A., Goring, Simon, Orton, Kiersten, Noronha, Alexandra, Czaplewski, John, Asena, Quinn, Paton, Sarah, Brushworth, Johnny Panga, Courtney Mustaphi, Colin J., Brahney, Janice, Aquino-Lopez, Marco A., Goring, Simon, Orton, Kiersten, Noronha, Alexandra, Czaplewski, John, Asena, Quinn, Paton, Sarah, and Brushworth, Johnny Panga

Abstract

Radiometric dating methods are essential for developing geochronologies to study Late Quaternary environmental change and 210Pb dating is commonly used to produce age-depth models from recent (within 150 years) sediments and other geoarchives. The past two centuries are marked by rapid environmental socio-ecological changes frequently attributed to anthropogenic land-use activities, modified biogeochemical cycles, and climate change. Consequently, historical reconstructions over this recent time interval have high societal value because analyses of these datasets provide understanding of the consequences of environmental modifications, critical ecosystem thresholds, and to define desirable ranges of variation for management, restoration, and conservation. For this information to be used more broadly, for example to support land management decisions or to contribute data to regional analyses of ecosystem change, authors must report all of the useful age-depth model information. However, at present there are no guidelines for researchers on what information should be reported to ensure Pb-210 data are fully disclosed, reproducible, and reusable; leading to a plethora of reporting styles, including inadequate reporting that reduces potential reusability and shortening the data lifecycle. For example, 64% of the publications in a literature review of Pb-210 dated geoarchives did not include any presentation of age uncertainty estimates in modeled calendar ages used in age-depth models. Insufficient reporting of methods and results used in Pb-210 dating geoarchives severely hampers reproducibility and data reusability, especially in analyses that make use of databased palaeoenvironmental data. Reproducibility of data is fundamental to further analyses of the number of palaeoenvironmental data and the spatial coverage of published geoarchives sites. We suggest, and justify, a set of minimum reporting guidelines for metadata and data reporting for Pb-210 dates, including a

Published

2019

5. Guidelines for reporting and archiving 210Pb sediment chronologies to improve fidelity and extend data lifecycle

Author

Courtney Mustaphi, Colin J., primary, Brahney, Janice, additional, Aquino-López, Marco A., additional, Goring, Simon, additional, Orton, Kiersten, additional, Noronha, Alexandra, additional, Czaplewski, John, additional, Asena, Quinn, additional, Paton, Sarah, additional, and Panga Brushworth, Johnny, additional

Published

2019

6. Neonatal Lupus Erythematosus and Maternal Lupus Erythematosus Mimicking HELLP Syndrome

Author

Paton, Sarah, primary, Wiss, Karen, additional, Lyon, Nancy, additional, Baden, Lynn, additional, and Gellis, Stephen E., additional

Published

1993

7. Characterization of Sirtuin Proteins using RasMol-RP and Three Dimensional Modeling.

Author

O'Mara, Deirdre, Vershon, Andrew K., Herman, Timothy, Conti, Brooke, Fernando, Michael, Lashley, Danielle, Li, Audrey, Paton, Sarah, White, James, and Horlbeck, Max

Subjects

HISTONE deacetylase, GENE silencing, PROTEINS, RESEARCH, RESEARCH teams

Abstract

The Pingry School's SMART Team (Students Modeling a Research Topic) has worked with Andrew Vershon to design and produce accurate three-dimensional physical models of Human SirT2 using state of the art rapid prototyping technology. SifT2 is NAD-dependent histone deacetylase that are points of regulation of transcriptional silencing. Sir2 and SirT2 have been characterized to form regulator complexes with other, silent information regulator proteins and is analogous by sequence similarity to Hstl but result in differing function and specificities. Discussion with Dr. Vershon, allowed the Pingry SMART Team to use a modified version of RasMol(RP-Rasmol)to design physical models of sirtuin proteins highlighting areas of each protein shown to be experimentally significant for function. These final designs were then exported as PLY files and are used to direct an automated ZCorp 3D Color Printer to build physical models of the proteins. These models are communication tools that can be used to enhance the further understanding of these pathways among the scientific community. [ABSTRACT FROM AUTHOR]

Published

2007