12,380 results on '"Physical Sciences"'
Search Results
2. Performance of Track Reconstruction at STCF Using ACTS.
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Ai, Xiaocong, Huang, Xingtao, Li, Teng, and Liu, Yi
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PHYSICS , *PHYSICAL sciences , *MOMENTUM (Mechanics) , *CHARGED particle accelerators , *WORKFLOW - Abstract
The STCF physics program will provide an unique platform for studies of hadron physics, strong interactions and searches for new physics beyond the Standard Model in the τ-charm region. To deliver those physics programs, the charged particles at STCF are required to be reconstructed with high efficiency and excellent momentum resolution. In particular, charged particles with transverse momentum down to 50 MeV are required to be reconstructed. The tracking performance at STCF is studied using A Common Tracking Software (ACTS) based on the information of the STCF tracking system, a µRWELL-based inner tracker and a drift chamber. We demonstrated the first application of ACTS for a drift chamber. The implementation and tracking performance are presented. [ABSTRACT FROM AUTHOR]
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- 2024
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3. Triggerless data acquisition pipeline for Machine Learning based statistical anomaly detection.
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Grosso, Gaia, Lai, Nicolò, Migliorini, Matteo, Pazzini, Jacopo, Triossi, Andrea, Zanetti, Marco, and Zucchetta, Alberto
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DATA acquisition systems , *DATA analysis , *DESCRIPTIVE statistics , *PHYSICS , *PHYSICAL sciences - Abstract
This work describes an online processing pipeline designed to identify anomalies in a continuous stream of data collected without external triggers from a particle detector. The processing pipeline begins with a local reconstruction algorithm, employing neural networks on an FPGA as its first stage. Subsequent data preparation and anomaly detection stages are accelerated using GPGPUs. As a practical demonstration of anomaly detection, we have developed a data quality monitoring application using a cosmic muon detector. Its primary objective is to detect deviations from the expected operational conditions of the detector. This serves as a proof-of-concept for a system that can be adapted for use in large particle physics experiments, enabling anomaly detection on datasets with reduced bias. [ABSTRACT FROM AUTHOR]
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- 2024
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4. The ATLAS jet trigger for Run 3 of the LHC.
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Amerl, Maximilian
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PHYSICS , *PHYSICAL sciences , *BANDWIDTH allocation , *MOMENTUM (Mechanics) , *IMPULSE (Physics) - Abstract
The ATLAS jet trigger is instrumental in selecting events both for Standard Model measurements and Beyond the Standard Model physics searches. Non-standard triggering strategies, such as storing only a small fraction of trigger objects for each event, avoids bandwidth limitations and increases sensitivity to low-mass and low-momentum objects. These events are used by Trigger Level Analyses, which can reach regions of parameter space that would otherwise be inaccessible. To this end, the calibration of trigger-level jets is imperative both to ensure good trigger performance across the ATLAS physics programme and to provide well-measured jets for Trigger Level Analysis. This contribution presents an introduction to the ATLAS jet trigger for Run-3 of the LHC and discusses the performance of the trigger jet calibration. These studies will allow us to commission a Run-3 trigger jet calibration that provides excellent performance across a broad jet transverse momentum range starting from 25 GeV. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Predicting Resource Utilization Trends with Southern California Petabyte Scale Cache.
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Sim, Caitlin, Wu, Kesheng, Sim, Alex, Monga, Inder, Guok, Chin, Hazen, Damian, Würthwein, Frank, Davila, Diego, Newman, Harvey, and Balcas, Justas
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PHYSICS , *PHYSICAL sciences , *MACHINE learning , *ARTIFICIAL intelligence , *TIME series analysis - Abstract
Large community of high-energy physicists share their data all around world making it necessary to ship a large number of files over wide- area networks. Regional disk caches such as the Southern California Petabyte Scale Cache have been deployed to reduce the data access latency. We observe that about 94% of the requested data volume were served from this cache, without remote transfers, between Sep. 2022 and July 2023. In this paper, we show the predictability of the resource utilization by exploring the trends of recent cache usage. The time series based prediction is made with a machine learning approach and the prediction errors are small relative to the variation in the input data. This work would help understanding the characteristics of the resource utilization and plan for additional deployments of caches in the future. [ABSTRACT FROM AUTHOR]
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- 2024
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6. Migration to WebDAV in Belle II Experiment.
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Pardi, Silvio, Hara, Takanori, Hernandez Villanueva, Michel, Miyake, Hideki, Serfon, Cédric, Ono, Hiroaki, and Ueda, Ikuo
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DATA management , *PHYSICS , *NATURAL resources , *INSTITUTIONAL repositories , *PHYSICAL sciences - Abstract
The usage of WebDAV protocol has become more and more popular within the physics experiments using grid middleware in the last decade, and today it represents a valid alternative to the GridFTP currently supported at best-effort level after the retirement of Globus Toolkit. Belle II experiment established the adoption of WebDAV protocol as the main protocol for data access and third-party-copy transfers, without relying on Storage Resource Manager interface (SRM). The migration process, carried on with continuous and gradual steps, has required a large effort to guarantee a smooth transition maintaining the production infrastructure fully operational. In this contribution we show the transition process, the tool of support developed to monitor step by step the status of third-party-copy support with WebDAV protocol by storages of the collaboration tested in both case pull and push, the strategy adopted to configure DIRAC and the solutions put in place for the corner cases. Finally, we will present some statistics of utilization and we will analyse the achieved results. [ABSTRACT FROM AUTHOR]
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- 2024
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7. Stephen Hawking's superspace and supergravity blackboard: an iconic artefact in the making.
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Leon, Juan-Andres
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SCIENCE museums , *GENERAL relativity (Physics) , *SUPERGRAVITY , *QUANTUM mechanics , *PHYSICAL sciences , *HISTORICAL source material , *SUPERSYMMETRY - Abstract
Among about a thousand objects obtained by the Science Museum from Stephen Hawking's office is a blackboard full of cartoons and puns, both childishly silly and deeply scientifically meaningful. This blackboard is now one of the Museum's most popular objects thanks to its playful imagery and perhaps also its perceived fragility. But it is also one of the objects that best illustrates the scientific life of Stephen Hawking and his generation, and more broadly, it is an exemplar of the social and material culture of the postmodern epoch of theoretical physics in the decades around the turn of the twenty-first century. In this article, the curator of the Hawking Collection explains the importance of this blackboard, first through an account of its unexpected trajectory to becoming the Hawking Collection's most charismatic object, followed by a discussion of the general historical role of blackboards: their iconography, material culture, and value as historical sources and how their conservation requirements contribute to their perceived value. The author then delves deeper into the specific content of this blackboard, showing how it constitutes a window into the highs and lows of a generation of physicists inspired by Hawking's work, as they attempted, and ultimately failed, to unify the two great theories of the twentieth century: general relativity and quantum mechanics. What we now call the superspace and supergravity blackboard is a microcosm of one of those moments in physics when theory broke away from what was empirically verifiable. The scribblings on the blackboard were collectively drawn by an up-and-coming generation of supersymmetry theorists. It immortalises the promising early years of supergravity, one of the hopeful candidates at the time for the long-wished-for Theory of Everything. Preserved in chalk are the seeds of one of the most brilliant theoretical discoveries of the turn of the century: what is now called the holographic principle. But also, seen with the benefit of hindsight, supersymmetric approaches seeded the identity crisis that theoretical physics is experiencing today, especially around the role of empirical anchoring of proposed fundamental theories. The contested status of the blackboard's content and its humorous, self-ironic style, make it a key piece of a unique zeitgeist of physics at the turn of the twenty-first century, which one could call the era of postmodern physics. In addition to its significance to the history of specific ideas, this paper also argues that the blackboard reflects the collective, social nature of theoretical research, while also inviting reflection on what constitutes success and failure in the physical sciences. [ABSTRACT FROM AUTHOR]
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- 2024
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8. Discrepancy Modeling Framework: Learning Missing Physics, Modeling Systematic Residuals, and Disambiguating between Deterministic and Random Effects.
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Ebers, Megan R., Steele, Katherine M., and Kutz, J. Nathan
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KRIGING , *PHYSICAL sciences , *PHYSICS , *SIGNAL-to-noise ratio , *DYNAMICAL systems , *STATISTICAL learning - Abstract
Physics-based and first-principles models pervade the engineering and physical sciences, allowing for the ability to model the dynamics of complex systems with a prescribed accuracy. The approximations used in deriving governing equations often result in discrepancies between the model and sensor-based measurements of the system, revealing the approximate nature of the equations and/or the signal-to-noise ratio of the sensor itself. In modern dynamical systems, such discrepancies between model and measurement can lead to poor quantification, often undermining the ability to produce accurate and precise control algorithms. We introduce a discrepancy modeling framework to identify the missing physics and resolve the model-measurement mismatch with two distinct approaches: (i) by learning a model for the evolution of systematic state-space residual, and (ii) by discovering a model for the deterministic dynamical error. Regardless of approach, a common suite of data-driven model discovery methods can be used. Specifically, we use four fundamentally different methods to demonstrate the mathematical implementations of discrepancy modeling: (i) the sparse identification of nonlinear dynamics, (ii) dynamic mode decomposition, (iii) Gaussian process regression, and (iv) neural networks. The choice of method depends on one's intent (e.g., mechanistic interpretability) for discrepancy modeling, sensor measurement characteristics (e.g., quantity, quality, resolution), and constraints imposed by practical applications (e.g., state- or dynamical-space operability). We demonstrate the utility and suitability for discrepancy modeling using the suite of data-driven modeling methods on four dynamical systems under varying signal-to-noise ratios. Finally, we emphasize structural shortcomings of each discrepancy modeling approach depending on error type. In summary, if the true dynamics are unknown (i.e., an imperfect model), one should learn a discrepancy model of the missing physics in the dynamical space. Yet, if the true dynamics are known yet model-measurement mismatch still exists, one should learn a discrepancy model in the state space. [ABSTRACT FROM AUTHOR]
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- 2024
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9. The Physics of Limits.
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Murphy, Thomas W.
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PHYSICS , *SPACE environment , *PHYSICAL sciences - Abstract
Although physics does not often veer into financial concerns, it is an illuminating exercise to try estimating the value of a barren planet at market prices for dirt, rock, water, copper, aluminum, silver, gold, etc. Energy perspectives Physics "owns" energy (and space and time if we're being greedy), so energy and power domains offer rich opportunities for gaining new understanding. The thermodynamic consequences of this absurdity can also be examined, by which it is revealed that waste heat from all this energy production on Earth would rival climate change in a century and be 10 times worse a century after that, eventually boiling Earth's oceans in about 400 yr.[3] It can be tricky to convey to students that this is not a I prediction i of what I will i - or even I can i - happen, but a tool to understand I limits i to what is possible and what I cannot i transpire. [Extracted from the article]
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- 2023
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10. Transdisciplinary Adventures in a Physics Classroom: Teaching Climate Change.
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Singh, Vandana
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SEA ice , *SCIENTIFIC literacy , *CLIMATE change , *PHYSICS , *CLASSROOM environment , *PHYSICAL sciences - Abstract
In my context, such a class might be a general physics course for science majors (pre-calculus- or calculus-based) or an algebra-based, mostly conceptual survey course for non-science majors, with between 8 and 30 students per class. Homework assignments, reflections, surveys, and biweekly anonymous feedback from 2017 onward (excepting 2020) from general physics courses for science majors and for non-science majors indicate enhanced interest in physics, greater cognitive understanding of climate science basics, increased appreciation of the value of climate stories and justice issues, ability to think critically about proposed climate solutions, and, for the majority of students (in some classes greater than 80%), a desire to take meaningful action for climate justice. Today, I still teach the basic science of climate change as it aligns with physics topics in my general physics courses. [Extracted from the article]
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- 2023
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11. Physics Today turns 75.
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Fitzgerald, Richard J.
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COMMUNITIES , *PHYSICS , *PHYSICAL sciences - Abstract
Even as the physical sciences have advanced and transformed, many of the community's needs and concerns have persisted. [ABSTRACT FROM AUTHOR]
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- 2023
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12. Building Physics Apparatus for Children.
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Greenslade Jr., Thomas B.
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PHYSICS , *PHYSICAL sciences , *GEOMAGNETISM , *PERMANENT magnets , *SCIENCE fairs - Abstract
On the left is one, ca. 1910, that is in my collection of early physics teaching apparatus.[3] Two light bulbs illuminate a postcard that serves as an object for the lens, and an image is projected on a white sheet. 1 has an objective lens with a focal length of 15 cm and a second lens with a focal length of 7 cm. The second lens is placed 5 cm inside a smaller sliding box. In this note, I will describe five pieces of apparatus: a telescope, a microscope, a galvanometer, an opaque projector, and an air table that I built for my boys to bring them into the worlds of physical science. The image formed by the first lens was inverted, and the magnified image obtained with the second lens was similarly inverted. [Extracted from the article]
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- 2023
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13. Physics Discovery in Nanoplasmonic Systems via Autonomous Experiments in Scanning Transmission Electron Microscopy.
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Roccapriore, Kevin M., Kalinin, Sergei V., and Ziatdinov, Maxim
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SCANNING probe microscopy , *PHYSICS , *ELECTRON energy loss spectroscopy , *IMAGING systems in chemistry , *PHYSICAL sciences , *DEEP learning , *SCANNING transmission electron microscopy - Abstract
Physics‐driven discovery in an autonomous experiment has emerged as a dream application of machine learning in physical sciences. Here, this work develops and experimentally implements a deep kernel learning (DKL) workflow combining the correlative prediction of the target functional response and its uncertainty from the structure, and physics‐based selection of acquisition function, which autonomously guides the navigation of the image space. Compared to classical Bayesian optimization (BO) methods, this approach allows to capture the complex spatial features present in the images of realistic materials, and dynamically learn structure–property relationships. In combination with the flexible scalarizer function that allows to ascribe the degree of physical interest to predicted spectra, this enables physical discovery in automated experiment. Here, this approach is illustrated for nanoplasmonic studies of nanoparticles and experimentally implemented in a truly autonomous fashion for bulk‐ and edge plasmon discovery in MnPS3, a lesser‐known beam‐sensitive layered 2D material. This approach is universal, can be directly used as‐is with any specimen, and is expected to be applicable to any probe‐based microscopic techniques including other STEM modalities, scanning probe microscopies, chemical, and optical imaging. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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14. Changes in IPCC Scenario Assessment Emulators Between SR1.5 and AR6 Unraveled.
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Nicholls, Z., Meinshausen, M., Lewis, J., Smith, C. J., Forster, P. M., Fuglestvedt, J. S., Rogelj, J., Kikstra, J. S., Riahi, K., and Byers, E.
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SCIENCE journalism , *PHYSICAL sciences , *EMULATION software , *GLOBAL warming , *GREENHOUSE gas mitigation , *SOIL heating , *PHYSICS - Abstract
The IPCC's scientific assessment of the timing of net‐zero emissions and 2030 emission reduction targets consistent with limiting warming to 1.5°C or 2°C rests on large scenario databases. Updates to this assessment, such as between the IPCC's Special Report on Global Warming of 1.5°C (SR1.5) of warming and the Sixth Assessment Report (AR6), are the result of intertwined, sometimes opaque, factors. Here we isolate one factor: the Earth System Model emulators used to estimate the global warming implications of scenarios. We show that warming projections using AR6‐calibrated emulators are consistent, to within around 0.1°C, with projections made by the emulators used in SR1.5. The consistency is due to two almost compensating changes: the increase in assessed historical warming between SR1.5 (based on AR5) and AR6, and a reduction in projected warming due to improved agreement between the emulators' response to emissions and the assessment to which it is calibrated. Plain Language Summary: The IPCC's latest physical science report, the Working Group 1 Contribution to the Sixth Assessment Report (AR6), was released in August 2021. That report includes an update to the tools used to project the climate outcome of emission scenarios. Here we apply these newly calibrated tools, called earth system model emulators, to the set of scenarios assessed in the IPCC's Special Report on warming of 1.5°C (SR1.5). We find that two compensating changes lead to a remarkable consistency (peak warming projections within 0.1°C) between the projections made by the emulators used in SR1.5 and their descendants used in AR6. First, updates to the historical warming assessment since the SR1.5 (which was based on the IPCC's 2013 physical science report (AR5)) increase future warming projections. However, improved consistency between the emulators and the assessment of the underlying physics, particularly the short‐term warming response to emissions, lowers warming projections by an approximately equivalent amount. Our work reinforces the key messages from the IPCC: limiting warming to around 1.5°C is a great and urgent challenge, and it is up to us to decide whether we pull out all the stops to hold temperatures around 1.5°C or whether we sail on by. Key Points: Emulators used in IPCC Special Report on warming of 1.5°C and Sixth Assessment Report are remarkably consistent, despite their entirely new calibrationsThe consistency is due to two compensating factors: change in assessed historical warming and improvements to emulator calibration methods [ABSTRACT FROM AUTHOR]
- Published
- 2022
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15. On the Results in Physics Obtained in 2020‒2021.
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Kilpio, E. Yu. and Shcherbakov, I. A.
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PHYSICS , *PHYSICAL sciences , *PLASMA physics , *NUCLEAR physics , *PARTICLE physics - Abstract
This article is based on the annual reports presented by the Head of the Physical Sciences Division of the Russian Academy of Sciences at the General Meetings of the Division in April 2021 and April 2022. It describes some scientific results in physics obtained in 2020–2021 at the research institutions (institutes of the Russian Academy of Sciences) under the individual powers of the Russian Academy of Sciences stipulated by the regulations of the Government of the Russian Federation no. 521 dated June 5, 2014, and no. 1652 dated December 24, 2018. The information about the research in different fields of physics carried out at these institutions is summarized briefly and illustrated by examples of some bright scientific breakthroughs. [ABSTRACT FROM AUTHOR]
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- 2022
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16. Quantum machine learning for chemistry and physics.
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Sajjan, Manas, Li, Junxu, Selvarajan, Raja, Sureshbabu, Shree Hari, Kale, Sumit Suresh, Gupta, Rishabh, Singh, Vinit, and Kais, Sabre
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DRUG design , *POTENTIAL energy surfaces , *PHYSICS , *DEEP learning , *PHYSICAL sciences , *MACHINE learning , *QUANTUM computers - Abstract
Machine learning (ML) has emerged as a formidable force for identifying hidden but pertinent patterns within a given data set with the objective of subsequent generation of automated predictive behavior. In recent years, it is safe to conclude that ML and its close cousin, deep learning (DL), have ushered in unprecedented developments in all areas of physical sciences, especially chemistry. Not only classical variants of ML, even those trainable on near-term quantum hardwares have been developed with promising outcomes. Such algorithms have revolutionized materials design and performance of photovoltaics, electronic structure calculations of ground and excited states of correlated matter, computation of force-fields and potential energy surfaces informing chemical reaction dynamics, reactivity inspired rational strategies of drug designing and even classification of phases of matter with accurate identification of emergent criticality. In this review we shall explicate a subset of such topics and delineate the contributions made by both classical and quantum computing enhanced machine learning algorithms over the past few years. We shall not only present a brief overview of the well-known techniques but also highlight their learning strategies using statistical physical insight. The objective of the review is not only to foster exposition of the aforesaid techniques but also to empower and promote cross-pollination among future research in all areas of chemistry which can benefit from ML and in turn can potentially accelerate the growth of such algorithms. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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17. Continuity, Change, and Embodied Knowledge in the History of Chymistry.
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Boantza, Victor D.
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SCIENTIFIC knowledge , *PHYSICS , *PHYSICAL sciences , *PHYSICAL laws - Abstract
If Homberg was mostly part of the "penumbra" of the Académie during Louvois's time in office, Homberg's was one of the first appointments made under Pontchartrain, who also directed the 1699 organizational reform. (p. 197) "We cannot raise chemistry", Venel complained half a century later, "to the level it deserves by demonstrating its philosophical side [...] we cannot do for chemistry what elegant machines, optics, and electricity have done for physics."[15] There is a sense in which both Homberg and Venel were right in these pronouncements. In this foundational conflict, whose origins predate Homberg's arrival at the Académie, those who envisioned chymistry as an integral part of natural philosophy, like Duclos and Homberg, are set against those who viewed it as an adjunct tool to medicine and pharmacy, like Denis Dodart. Contrary to its received image, the essence of chymistry is not "less neat and simple than the spirit of physics"; nor can physics be "superior" to a science that "can penetrate certain bodies of which physics knows only the surface and the outside shape."[14] Or, as Homberg put it in contrasting " I physique chimique i " ("chymical natural philosophy") and " I la physique i ", chymistry "easily explains its own operations in its own way and thereby knows more distinctly the substances it examines.". [Extracted from the article]
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- 2022
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18. A Pioneer of Connection: Recovering the Life and Work of Oliver Lodge.
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Nichols, Tiffany
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PHYSICS , *PHYSICAL sciences , *NONFICTION - Published
- 2024
19. Teaching and learning Physics using interactive simulation: A guided inquiry practice.
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Ogegbo, Ayodele Abosede and Ramnarain, Umesh
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CLASSROOMS , *WILCOXON signed-rank test , *SCIENCE classrooms , *OBSERVATION (Educational method) , *PHYSICS , *PHYSICAL sciences , *INQUIRY-based learning - Abstract
The research reported here examined the outcome of using interactive simulation technology (IST) as a guided-inquiry approach to enhance learners' conceptual knowledge of electrostatics in physics. Participants were Grade 11 physical sciences learners (n = 60) and a teacher from a rural school in South Africa. Learners were randomly assigned to an experimental group (n = 30) that took part in the intervention lesson using the integration of IST in the science classroom, and a control group (n = 30) that continued with the conventional teaching method. We adopted a mixed-method approach for this research. Data were collected through a pre-post achievement instrument, classroom observations, and focus group interviews. Data were analysed using the Mann-Whitney U-test, the Wilcoxon signed-rank test, and content analysis. It was found that the mean rank rating of the pre-test results for learners in both groups was not significantly different. However, the Mann-Whitney U-test indicated that learners' conceptual understanding measured in the post-test result was greater for the experimental group (mean rank gain score = 38.83) compared to the control group (mean rank gain score = 22.17), U = 200.0, p = 0.000185. This finding indicates that integrating IST into inquiry-based activities can be used efficiently to improve learners' in-depth knowledge of science concepts. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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20. Telling the energy story: Design and results of a new curriculum for energy in upper elementary school.
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Lacy, Sara J., Tobin, Roger G., Crissman, Sally, DeWater, Lezlie, Gray, Kara E., Haddad, Nick, Hammerman, James K. L., and Seeley, Lane
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MODEL-based reasoning , *STORYTELLING , *ELEMENTARY schools , *PHYSICAL sciences , *CURRICULUM - Abstract
We describe the development, design, implementation, and preliminary classroom results of an innovative curriculum, Focus on Energy, that supports learning about energy in Grades 4–5. The curriculum is grounded in the concepts of science as practice, model‐based reasoning, and learning progressions, and builds on students' pre‐existing ideas and resources. We illustrate how students gradually develop the ability to track energy forms, transfers, and transformations in increasingly complex scenarios. We present evidence, using a quasi‐experimental design, that students who completed the curriculum were significantly more adept at these skills than students in comparable classrooms who experienced their districts' existing energy‐related physical science curricula. Important features of the curriculum include: the careful selection of a limited set of concepts chosen to provide a sound foundation for future learning; a consistent conceptual framework (the Energy Tracking Lens) within which the students have agency to build and refine a model of energy; engaging hands‐on activities that steadily build in complexity; accessible and versatile semi‐quantitative representations that support reasoning and communication; individual, small‐group and large‐group meaning‐making; and training and support for the teachers. [ABSTRACT FROM AUTHOR]
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- 2022
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21. When loops become strings.
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Cartwright, Jon
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STRING theory , *QUANTUM gravity , *PHYSICS , *PHYSICAL sciences - Abstract
The article discusses developments in physics as of March 2017, particularly a study on the string theory or the theory of everything and loop quantum gravity. Also cited are the possibility that the two theories are the same, the quantum theory of modern physics, and the comment by theorist Laurent Freidel of Perimeter Institute in Waterloo, Canada on the developments.
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- 2017
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22. Physics guided machine learning using simplified theories.
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Pawar, Suraj, San, Omer, Aksoylu, Burak, Rasheed, Adil, and Kvamsdal, Trond
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MACHINE learning , *POTENTIAL flow , *PHYSICS , *INFERENTIAL statistics , *PHYSICAL sciences , *DEEP learning - Abstract
Recent applications of machine learning, in particular deep learning, motivate the need to address the generalizability of the statistical inference approaches in physical sciences. In this Letter, we introduce a modular physics guided machine learning framework to improve the accuracy of such data-driven predictive engines. The chief idea in our approach is to augment the knowledge of the simplified theories with the underlying learning process. To emphasize their physical importance, our architecture consists of adding certain features at intermediate layers rather than in the input layer. To demonstrate our approach, we select a canonical airfoil aerodynamic problem with the enhancement of the potential flow theory. We include the features obtained by a panel method that can be computed efficiently for an unseen configuration in our training procedure. By addressing the generalizability concerns, our results suggest that the proposed feature enhancement approach can be effectively used in many scientific machine learning applications, especially for the systems where we can use a theoretical, empirical, or simplified model to guide the learning module. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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23. Do current concepts of One Health suffer from the physics envy.
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Raina, Sunil K. and Kumar, Raman
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ENVY , *PHYSICAL sciences , *PHYSICS , *SUFFERING - Abstract
The current models of One Health appear to be suffering from a elevated emphasis on a small area of interface involving humans, environment and animals. This may largely be because of an extension of our understanding of physical science to biological world, which, though is far more complexer. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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24. Priority Results in Physics Obtained in 2019 (From the Annual Report of the Academician Secretary of the Physical Sciences Division of the Russian Academy of Sciences).
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Shcherbakov, I. A.
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PHYSICAL sciences , *PHYSICS , *COLLEGE teachers , *PLASMA physics , *NUCLEAR physics - Abstract
This work contains some scientific results obtained in physics in 2019 in scientific organizations previously owned by the Federal Agency for Scientific Organizations (FASO) of Russia and under the scientific and methodological guidance of the Physical Sciences Division of the Russian Academy of Sciences (RAS), and is based on the annual report of the Academician Secretary of the RAS Physical Sciences Division. The results correspond to the Program of Fundamental Research of the State Academies of Sciences for 2013–2020. This program sets out the direction of broad scientific inquiry and fundamental and application-oriented research creating new contours of tomorrow's engineering and technology in the interests of organizational and scientific support for achieving strategic national priorities. The directions of fundamental scientific research within the framework of the Program were formed on the basis of the priority areas of research and plans of the State Academies of Sciences. This report provides summary information on the work of scientific organizations in various areas of physics, illustrated by examples of individual achievements in the form of annotations. [ABSTRACT FROM AUTHOR]
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- 2020
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25. Response to comment on "Typical physics Ph.D. admissions criteria limit access to underrepresented groups but fail to predict doctoral completion".
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Miller, Casey W., Zwickl, Benjamin M., Posselt, Julie R., Silvestrini, Rachel T., and Hodapp, Theodore
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MULTICOLLINEARITY , *PHYSICS , *FALSE positive error , *PHYSICAL sciences , *DIRECTED acyclic graphs , *REPRESENTATIONS of graphs - Published
- 2020
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26. Physics in nanomedicine: Phenomena governing the in vivo performance of nanoparticles.
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Lane, Lucas A.
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NANOMEDICINE , *STATISTICAL mechanics , *PHYSICS , *FLUID dynamics , *PHENOMENOLOGICAL theory (Physics) , *PHYSICAL sciences - Abstract
Nanomedicine aims to increase the effectiveness of therapeutic and diagnostic agents by exploiting unique properties that arise when operating at the nanoscale. Despite the recent growth of the field, nanomedicine has only managed modest improvements over conventional molecular drugs and imaging probes. To increase the efficacy of nanomedicine requires understanding fundamental processes that govern the ability of nanoparticles to locate and remain at diseased sites within the body. These processes include a nanoparticle's interactions with cells and proteins, margination in blood vessels, permeation into diseased tissues, and diffusive ability to reach all diseased cells within the tissue. Each of these processes is governed by phenomena commonly studied within fields of the physical sciences. By employing knowledge of colloidal interactions, fluid dynamics, kinetics, statistical mechanics, and thermodynamics, researchers can rationally design nanoparticles to overcome previous limitations of nanomedicine. This review will highlight recent and exemplary studies that present valuable insights into the physical phenomena of nanomedicine and present improved next-generation nanoparticle designs by applying these insights. [ABSTRACT FROM AUTHOR]
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- 2020
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27. Isotopic compositions of ground ice in near-surface permafrost in relation to vegetation and microtopography at the Taiga–Tundra boundary in the Indigirka River lowlands, northeastern Siberia.
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Takano, Shinya, Sugimoto, Atsuko, Tei, Shunsuke, Liang, Maochang, Shingubara, Ryo, Morozumi, Tomoki, and Maximov, Trofim C.
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TUNDRAS , *COMPOSITION of water , *ICE , *PERMAFROST , *ISOTOPIC fractionation , *WATERFRONTS , *FROST heaving , *SNOW cover - Abstract
The warming trend in the Arctic region is expected to cause drastic changes including permafrost degradation and vegetation shifts. We investigated the spatial distribution of ice content and stable isotopic compositions of water in near-surface permafrost down to a depth of 1 m in the Indigirka River lowlands of northeastern Siberia to examine how the permafrost conditions control vegetation and microtopography in the Taiga–Tundra boundary ecosystem. The gravimetric water content (GWC) in the frozen soil layer was significantly higher at microtopographically high elevations with growing larch trees (i.e., tree mounds) than at low elevations with wetland vegetation (i.e., wet areas). The observed ground ice (ice-rich layer) with a high GWC in the tree mounds suggests that the relatively elevated microtopography of the land surface, which was formed by frost heave, strongly affects the survival of larch trees. The isotopic composition of the ground ice indicated that equilibrium isotopic fractionation occurred during ice segregation at the tree mounds, which implies that the ice formed with sufficient time for the migration of unfrozen soil water to the freezing front. In contrast, the isotopic data for the wet areas indicated that rapid freezing occurred under relatively non-equilibrium conditions, implying that there was insufficient time for ice segregation to occur. The freezing rate of the tree mounds was slower than that of the wet areas due to the difference of such as soil moisture and snow cover depends on vegetation and microtopography. These results indicate that future changes in snow cover, soil moisture, and organic layer, which control underground thermal conductivity, will have significant impacts on the freezing environment of the ground ice at the Taiga–Tundra boundary in northeastern Siberia. Such changes in the freezing environment will then affect vegetation due to changes in the microtopography of the ground surface. [ABSTRACT FROM AUTHOR]
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- 2019
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28. A simplified vocal tract model for articulation of [s]: The effect of tongue tip elevation on [s].
- Author
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Yoshinaga, Tsukasa, Nozaki, Kazunori, and Wada, Shigeo
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VOCAL tract , *SOUND pressure , *FLOW velocity , *SPEED of sound , *TURBULENCE , *HYPOGLOSSAL nerve - Abstract
Fricative consonants are known to be pronounced by controlling turbulent flow inside a vocal tract. In this study, a simplified vocal tract model was proposed to investigate the characteristics of flow and sound during production of the fricative [s] in a word context. By controlling the inlet flow rate and tongue speed, the acoustic characteristics of [s] were reproduced by the model. The measurements with a microphone and a hot-wire anemometer showed that the flow velocity at the teeth gap and far-field sound pressure started oscillating before the tongue reached the /s/ position, and continued during tongue descent. This behaviour was not affected by the changes of the tongue speed. These results indicate that there is a time shift between source generation and tongue movement. This time shift can be a physical constraint in the articulation of words which include /s/. With the proposed model, we could investigate the effects of tongue speed on the flow and sound generation in a parametric way. The proposed methodology is applicable for other phonemes to further explore the aeroacoustics of phonation. [ABSTRACT FROM AUTHOR]
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- 2019
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29. 3D analysis of human islet amyloid polypeptide crystalline structures in Drosophila melanogaster.
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Xie, Ling, Gu, Xiaohong, Okamoto, Kenta, Westermark, Gunilla T., and Leifer, Klaus
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AMYLIN , *DROSOPHILA melanogaster , *CRYSTAL structure , *AMYLOID beta-protein , *VAN der Waals forces , *TRANSMISSION electron microscopy , *UNIT cell - Abstract
Expression of the Alzheimer's disease associated polypeptide Aβ42 and the human polypeptide hormon islet amyloid polypeptide (hIAPP) and the prohormone precursor (hproIAPP) in neurons of Drosophila melanogaster leads to the formation of protein aggregates in the fat body tissue surrounding the brain. We determined the structure of these membrane-encircled protein aggregates using transmission electron microscopy (TEM) and observed the dissolution of protein aggregates after starvation. Electron tomography (ET) as an extension of transmission electron microscopy revealed that these aggregates were comprised of granular subunits having a diameter of 20 nm aligned into highly ordered structures in all three dimensions. The three dimensional (3D) lattice of hIAPP granules were constructed of two unit cells, a body centered tetragonal (BCT) and a triclinic unit cell. A 5-fold twinned structure was observed consisting of the cyclic twinning of the BCT and triclinic unit cells. The interaction between the two nearest hIAPP granules in both unit cells is not only governed by the van der Waals forces and the dipole-dipole interaction but potentially also by filament-like structures that can connect the nearest neighbors. Hence, our 3D structural analysis provides novel insight into the aggregation process of hIAPP in the fat body tissue of Drosophila melanogaster. [ABSTRACT FROM AUTHOR]
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- 2019
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30. Mechanical effects of MitraClip on leaflet stress and myocardial strain in functional mitral regurgitation – A finite element modeling study.
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Zhang, Yue, Wang, Vicky Y., Morgan, Ashley E., Kim, Jiwon, Handschumacher, Mark D., Moskowitz, Chaya S., Levine, Robert A., Ge, Liang, Guccione, Julius M., Weinsaft, Jonathan W., and Ratcliffe, Mark B.
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MITRAL valve , *MITRAL valve insufficiency , *PAMPHLETS , *RADIAL stresses , *CORONARY disease , *PSYCHOLOGICAL stress - Abstract
Purpose: MitraClip is the sole percutaneous device approved for functional mitral regurgitation (MR; FMR) but MR recurs in over one third of patients. As device-induced mechanical effects are a potential cause for MR recurrence, we tested the hypothesis that MitraClip increases leaflet stress and procedure-related strain in sub-valvular left ventricular (LV) myocardium in FMR associated with coronary disease (FMR-CAD). Methods: Simulations were performed using finite element models of the LV + mitral valve based on MRI of 5 sheep with FMR-CAD. Models were modified to have a 20% increase in LV volume (↑LV_VOLUME) and MitraClip was simulated with contracting beam elements (virtual sutures) placed between nodes in the center edge of the anterior (AL) and posterior (PL) mitral leaflets. Effects of MitraClip on leaflet stress in the peri-MitraClip region of AL and PL, septo-lateral annular diameter (SLAD), and procedure-related radial strain (Err) in the sub-valvular myocardium were calculated. Results: MitraClip increased peri-MitraClip leaflet stress at end-diastole (ED) by 22.3±7.1 kPa (p<0.0001) in AL and 14.8±1.2 kPa (p<0.0001) in PL. MitraClip decreased SLAD by 6.1±2.2 mm (p<0.0001) and increased Err in the sub-valvular lateral LV myocardium at ED by 0.09±0.04 (p<0.0001)). Furthermore, MitraClip in ↑LV_VOLUME was associated with persistent effects at ED but also at end-systole where peri-MitraClip leaflet stress was increased in AL by 31.9±14.4 kPa (p = 0.0268) and in PL by 22.5±23.7 kPa (p = 0.0101). Conclusions: MitraClip for FMR-CAD increases mitral leaflet stress and radial strain in LV sub-valvular myocardium. Mechanical effects of MitraClip are augmented by LV enlargement. [ABSTRACT FROM AUTHOR]
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- 2019
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31. Hierarchical classification of snowmelt episodes in the Pyrenees using seismic data.
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Díaz, Jordi, Sánchez-Pastor, Pilar, and Ruiz, Mario
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SNOWMELT , *RIVER channels , *AQUATIC sciences , *ATMOSPHERIC sciences , *EARTH sciences - Abstract
In recent years the analysis of the variations of seismic background signal recorded in temporal deployments of seismic stations near river channels has proved to be a useful tool to monitor river flow, even for modest discharges. The objective of this work is to apply seismic methods to the characterization of the snowmelt process in the Pyrenees, by developing an innovative approach based on the hierarchical classification of the daily spectrograms. The CANF seismic broad-band station, part of the Geodyn facility in the Laboratorio Subterráneo de Canfranc (LSC), is located in an underground tunnel in the Central Pyrenees, at about 400 m of the Aragón River channel, hence providing an excellent opportunity to explore the possibilities of the seismic monitoring of hydrological events at long term scale. We focus here on the identification and analysis of seismic signals generated by variations in river discharge due to snow melting during a period of six years (2011–2016). During snowmelt episodes, the temporal variations of the discharge at the drainage river result in seismic signals with specific characteristics allowing their discrimination from other sources of background vibrations. We have developed a methodology that use seismic data to monitor the time occurrence and properties of the thawing stages. The proposed method is based on the use of hierarchical clustering techniques to classify the daily seismic spectra according to their similarity. This allows us to discriminate up to four different types of episodes, evidencing changes in the duration and intensity of the melting process which in turn depends on variations in the meteorological and hydrological conditions. The analysis of six years of continuous seismic data from this innovative procedure shows that seismic data can be used to monitor snowmelt on long-term time scale and hence contribute to climate change studies. [ABSTRACT FROM AUTHOR]
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- 2019
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32. Head orientation and electrode placement potentially influence fetal scalp ECG waveform.
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Hulsenboom, Alexandra D. J., Warmerdam, Guy J. J., Weijers, Janna, Blijham, Paul J., Oei, S. Guid, van Laar, Judith O. E. H., Vullings, Rik, and Delhaas, Tammo
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ELECTROCARDIOGRAPHY , *FETAL monitoring , *ELECTRODES , *SCALP , *HEAD - Abstract
Background: Fetal monitoring based on electrocardiographic (ECG) morphology is obtained from a single unipolar fetal scalp electrode. Ideally, it should be obtained from multiple leads, as ECG waveform depends on alignment between electrode and electrical heart axis. This alignment is unknown in fetuses. Besides, fetuses are surrounded by conductive media, which may influence ECG waveform. We explored the influence of electrode position and head orientation on ECG waveforms of unipolar and bipolar scalp ECGs recorded in air and in conductive medium. Methods: We recorded ECGs in one adult subject at five different scalp positions in five different head orientations both in dry and immersed conditions. The ratio between T-amplitude and QRS-amplitude (T/QRS ratio) of unipolar and bipolar scalp ECGs was determined and compared between all conditions. Results: In the dry condition, we observed in the unipolar leads little to no difference between different electrode positions (maximal T/QRS difference 0.00–0.01) and minor differences between head orientations (0.02–0.03), whereas bipolar leads showed no recognizable ECG signal at all. During the immersed condition, we found variation in the unipolar leads, both between electrode positions (maximal T/QRS difference 0.02–0.05) and between head orientations (0.03–0.06). Bipolar leads showed different ECG signals in contrasting head orientations. Conclusions: Both unipolar and bipolar scalp lead-derived ECG waveforms are influenced by electrode position and head orientation when the subject is submerged in a conductive medium. Fetal monitoring based on single scalp lead ECG waveform might be suboptimal, as it lacks correction for fetal head orientation and electrode position. [ABSTRACT FROM AUTHOR]
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- 2019
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33. Extended-wavelength diffuse reflectance spectroscopy with a machine-learning method for in vivo tissue classification.
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Dahlstrand, Ulf, Sheikh, Rafi, Dybelius Ansson, Cu, Memarzadeh, Khashayar, Reistad, Nina, and Malmsjö, Malin
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REFLECTANCE spectroscopy , *SUPPORT vector machines , *HUMAN skin color , *TISSUES - Abstract
Objectives: An extended-wavelength diffuse reflectance spectroscopy (EWDRS) technique was evaluated for its ability to differentiate between and classify different skin and tissue types in an in vivo pig model. Materials and methods: EWDRS recordings (450–1550 nm) were made on skin with different degrees of pigmentation as well as on the pig snout and tongue. The recordings were used to train a support vector machine to identify and classify the different skin and tissue types. Results: The resulting EWDRS curves for each skin and tissue type had a unique profile. The support vector machine was able to classify each skin and tissue type with an overall accuracy of 98.2%. The sensitivity and specificity were between 96.4 and 100.0% for all skin and tissue types. Conclusion: EWDRS can be used in vivo to differentiate between different skin and tissue types with good accuracy. Further development of the technique may potentially lead to a novel diagnostic tool for e.g. non-invasive tumor margin delineation. [ABSTRACT FROM AUTHOR]
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- 2019
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34. Insights into the behavior of six rationally designed peptides based on Escherichia coli's OmpA at the water-dodecane interface.
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Fernández-Niño, Miguel, Rojas, Lina, Cifuentes, Javier, Torres, Rodrigo, Ordoñez, Andrea, Cruz, Juan C., Vargas, Edgar Francisco, Pradilla, Diego, Álvarez Solano, Oscar, and González Barrios, Andrés
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ESCHERICHIA coli , *PEPTIDES , *PHYSICAL & theoretical chemistry , *MATERIALS science - Abstract
The Escherichia coli's membrane protein OmpA has been identified as a potential biosurfactant due to their amphiphilic nature, and their capacity to stabilize emulsions of dodecane in water. In this study, the influence of surfactant type, concentration, preservation time and droplet size on the crystallization of n-dodecane and water, in oil-in-water emulsions stabilized with six rationally designed Escherichia coli's OmpA-based peptides was investigated. A differential scanning calorimetry (DSC) protocol was established using emulsions stabilized with Tween 20® and Tween 80®. A relationship between the surfactant concentration and the crystallization temperatures of n-dodecane and water was observed, where the crystallization temperatures seem to be dependent on the preservation time. A deconvolution analysis shows that the peak morphology possibly depends on the interactions at the interface because the enthalpic contributions of each Gaussian peak remained similar in emulsions stabilized with the same peptide. Adsorption results show that the main driver for adsorption and thus stabilization of emulsions is polar interactions (e.g. H-bonding) through the hydrophilic parts of the peptides. Those peptides with a preponderance of polar interaction groups distribution (i.e. NH2, COOH, imidazole) showed the highest interfacial activity under favorable pH conditions. This suggests that custom-made peptides whose hydrophilic/hydrophobic regions can be fine-tuned depending on the application can be easily produced with the additional advantage of their biodegradable nature. [ABSTRACT FROM AUTHOR]
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- 2019
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35. Nanoaperture fabrication via colloidal lithography for single molecule fluorescence analysis.
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Jamiolkowski, Ryan M., Chen, Kevin Y., Fiorenza, Shane A., Tate, Alyssa M., Pfeil, Shawn H., and Goldman, Yale E.
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SINGLE molecules , *COLLOIDAL crystals , *FLUORIMETRY , *MATERIALS science , *GLASS transition temperature , *METALLIC films - Abstract
In single molecule fluorescence studies, background emission from labeled substrates often restricts their concentrations to non-physiological nanomolar values. One approach to address this challenge is the use of zero-mode waveguides (ZMWs), nanoscale holes in a thin metal film that physically and optically confine the observation volume allowing much higher concentrations of fluorescent substrates. Standard fabrication of ZMWs utilizes slow and costly E-beam nano-lithography. Herein, ZMWs are made using a self-assembled mask of polystyrene microspheres, enabling fabrication of thousands of ZMWs in parallel without sophisticated equipment. Polystyrene 1 μm dia. microbeads self-assemble on a glass slide into a hexagonal array, forming a mask for the deposition of metallic posts in the inter-bead interstices. The width of those interstices (and subsequent posts) is adjusted within 100–300 nm by partially fusing the beads at the polystyrene glass transition temperature. The beads are dissolved in toluene, aluminum or gold cladding is deposited around the posts, and those are dissolved, leaving behind an array ZMWs. Parameter optimization and the performance of the ZMWs are presented. By using colloidal self-assembly, typical laboratories can make use of sub-wavelength ZMW technology avoiding the availability and expense of sophisticated clean-room environments and equipment. [ABSTRACT FROM AUTHOR]
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- 2019
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36. War pact model of shrinking networks.
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Naglić, Luka and Šubelj, Lovro
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REAL property , *INTERNATIONAL trade , *COMMONS , *MESOSCOPIC physics , *RANDOM graphs - Abstract
Many real systems can be described by a set of interacting entities forming a complex network. To some surprise, these have been shown to share a number of structural properties regardless of their type or origin. It is thus of vital importance to design simple and intuitive models that can explain their intrinsic structure and dynamics. These can, for instance, be used to study networks analytically or to construct networks not observed in real life. Most models proposed in the literature are of two types. A model can be either static, where edges are added between a fixed set of nodes according to some predefined rule, or evolving, where the number of nodes or edges increases over time. However, some real networks do not grow but rather shrink, meaning that the number of nodes or edges decreases over time. We here propose a simple model of shrinking networks called the war pact model. We show that networks generated in such a way exhibit common structural properties of real networks. Furthermore, compared to classical models, these resemble international trade, correlates of war, Bitcoin transactions and other networks more closely. Network shrinking may therefore represent a reasonable explanation of the evolution of some networks and greater emphasis should be put on such models in the future. [ABSTRACT FROM AUTHOR]
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- 2019
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37. Genome-wide investigation of superoxide dismutase (SOD) gene family and their regulatory miRNAs reveal the involvement in abiotic stress and hormone response in tea plant (Camellia sinensis).
- Author
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Zhou, Chengzhe, Zhu, Chen, Fu, Haifeng, Li, Xiaozhen, Chen, Lan, Lin, Yuling, Lai, Zhongxiong, and Guo, Yuqiong
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REGULATOR genes , *GENE families , *ABIOTIC stress , *TEA , *SUPEROXIDE dismutase , *MICRORNA , *PHYSIOLOGICAL effects of cold temperatures , *JASMONATE - Abstract
Superoxide dismutases (SODs), as a family of metalloenzymes related to the removal of reactive oxygen species (ROS), have not previously been investigated at genome-wide level in tea plant. In this study, 10 CsSOD genes were identified in tea plant genome, including 7 Cu/Zn-SODs (CSDs), 2 Fe-SODs (FSDs) and one Mn-SOD (MSD), and phylogenetically classified in three subgroups, respectively. Physico-chemical characteristic, conserved motifs and potential protein interaction analyses about CsSOD proteins were carried out. Exon-intron structures and codon usage bias about CsSOD genes were also examined. Exon-intron structures analysis revealed that different CsSOD genes contained various number of introns. On the basis of the prediction of regulatory miRNAs of CsSODs, a modification 5' RNA ligase-mediated (RLM)-RACE was performed and validated that csn-miR398a-3p-1 directly cleaves CsCSD4. By prediction of cis-acting elements, the expression patterns of 10 CsSOD genes and their regulatory miRNAs were detected under cold, drought, exogenous methyl jasmonate (MeJA) and gibberellin (GA3) treatments. The results showed that most of CsSODs except for CsFSD2 were induced under cold stress and CsCSDs may play primary roles under drought stress; exogenous GA3 and MeJA could also stimulated/inhibited distinct CsSODs at different stages. In addition, we found that csn-miR398a-3p-1 negatively regulated the expression of CsCSD4 may be a crucial regulatory mechanism under cold stress. This study provides a certain basis for the studies about stress resistance in tea plants, even provide insight into comprehending the classification, evolution, diverse functions and influencing factors of expression patterns for CsSOD genes. [ABSTRACT FROM AUTHOR]
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- 2019
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38. Increased aggression and reduced aversive learning in honey bees exposed to extremely low frequency electromagnetic fields.
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Shepherd, Sebastian, Hollands, Georgina, Godley, Victoria C., Sharkh, Suleiman M., Jackson, Chris W., and Newland, Philip L.
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HONEYBEES , *ELECTROMAGNETIC fields , *POLLINATORS , *POLLINATION by bees , *ANIMAL aggression , *BEEHIVES - Abstract
Honey bees, Apis mellifera, are a globally significant pollinator species and are currently in decline, with losses attributed to an array of interacting environmental stressors. Extremely low frequency electromagnetic fields (ELF EMFs) are a lesser-known abiotic environmental factor that are emitted from a variety of anthropogenic sources, including power lines, and have recently been shown to have a significant impact on the cognitive abilities and behaviour of honey bees. Here we have investigated the effects of field-realistic levels of ELF EMFs on aversive learning and aggression levels, which are critical factors for bees to maintain colony strength. Bees were exposed for 17 h to 100 μT or 1000 μT ELF EMFs, or a sham control. A sting extension response (SER) assay was conducted to determine the effects of ELF EMFs on aversive learning, while an intruder assay was conducted to determine the effects of ELF EMFs on aggression levels. Exposure to both 100 μT and 1000 μT ELF EMF reduced aversive learning performance by over 20%. Exposure to 100 μT ELF EMFs also increased aggression scores by 60%, in response to intruder bees from foreign hives. These results indicate that short-term exposure to ELF EMFs, at levels that could be encountered in bee hives placed under power lines, reduced aversive learning and increased aggression levels. These behavioural changes could have wider ecological implications in terms of the ability of bees to interact with, and respond appropriately to, threats and negative environmental stimuli. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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39. Spread of domestic animals across Neolithic western Anatolia: New stable isotope evidence from Uğurlu Höyük, the island of Gökçeada, Turkey.
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Pilaar Birch, Suzanne E., Atici, Levent, and Erdoğu, Burçin
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STABLE isotopes , *DENTAL enamel , *ISLANDS , *EARTH sciences , *PARTICLE physics , *DOMESTIC animals - Abstract
The origins of agriculture in Southwest Asia over 10,000 years ago and its subsequent spread into Europe during the Neolithic have been the focus of much archaeological research over the past several decades. Increasingly more sophisticated analytical techniques have allowed for better understanding of the complex interactions that occurred amongst humans, animals, and their environments during this transition. The Aegean Islands are critically situated where Anatolia and the mainland Greece meet, making the region pivotal for understanding the movement of the Neolithic into Europe. Located on the largest Turkish Aegean island of Gökçeada, the site of Uğurlu Höyük dates to the early Neolithic and has been the subject of ongoing excavations and research integrating a rigorous dating program with comprehensive zooarchaeological research. This paper focuses on the combination of bone collagen and tooth enamel stable isotope data with existing archaeological data to develop a fine-resolution picture of the spread of the Neolithic, particularly the importation and management of domestic fauna on Gökçeada, with broader relevance for understanding Aegean-Anatolian interactions. The stable isotope values from the fauna at Uğurlu have been used for both diachronic intrasite analyses and intersite comparisons between contemporaneous mainland sites. Integrating stable isotope and zooarchaeological datasets makes Uğurlu one of the first island sites to provide a comprehensive understanding of the geographic origin of Neolithic livestock populations and the timing of their spread from Anatolia into Europe during the process of Neolithization. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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40. Contrast-enhanced spectral mammography with a compact synchrotron source.
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Heck, Lisa, Dierolf, Martin, Jud, Christoph, Eggl, Elena, Sellerer, Thorsten, Mechlem, Korbinian, Günther, Benedikt, Achterhold, Klaus, Gleich, Bernhard, Metz, Stephan, Pfeiffer, Daniela, Kröninger, Kevin, and Herzen, Julia
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SYNCHROTRON radiation sources , *MAMMOGRAMS , *EARLY detection of cancer , *LIGHT sources - Abstract
For early breast cancer detection, mammography is nowadays the commonly used standard imaging approach, offering a valuable clinical tool for visualization of suspicious findings like microcalcifications and tumors within the breast. However, due to the superposition of anatomical structures, the sensitivity of mammography screening is limited. Within the last couple of years, the implementation of contrast-enhanced spectral mammography (CESM) based on K-edge subtraction (KES) imaging helped to improve the identification and classification of uncertain findings. In this study, we introduce another approach for CESM based on a two-material decomposition, with which we expect fundamental improvements compared to the clinical procedure. We demonstrate the potential of our proposed method using the quasi-monochromatic radiation of a compact synchrotron source—the Munich Compact Light Source (MuCLS)—and a modified mammographic accreditation phantom. For direct comparison with the clinical CESM approach, we also performed a standard dual-energy KES at the MuCLS, which outperformed the clinical CESM images in terms of contrast-to-noise ratio (CNR) and spatial resolution. However, the dual-energy-based two-material decomposition approach achieved even higher CNR values. Our experimental results with quasi-monochromatic radiation show a significant improvement of the image quality at lower mean glandular dose (MGD) than the clinical CESM. At the same time, our study indicates the great potential for the material-decomposition instead of clinically used KES to improve the quantitative outcome of CESM. [ABSTRACT FROM AUTHOR]
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- 2019
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41. Additive effects of a small molecular PCNA inhibitor PCNA-I1S and DNA damaging agents on growth inhibition and DNA damage in prostate and lung cancer cells.
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Lu, Shan and Dong, Zhongyun
- Subjects
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DNA damage , *DOUBLE-strand DNA breaks , *PROLIFERATING cell nuclear antigen , *CANCER cells , *LUNG cancer , *ANDROGEN receptors , *IRRADIATION - Abstract
Proliferating cell nuclear antigen (PCNA) is essential for DNA replication and repair, and cell growth and survival. Previously, we identified a novel class of small molecules that bind directly to PCNA, stabilize PCNA trimer structure, reduce chromatin-associated PCNA, selectively inhibit tumor cell growth, and induce apoptosis. The purpose of this study was to investigate the combinatorial effects of lead compound PCNA-I1S with DNA damaging agents on cell growth, DNA damage, and DNA repair in four lines of human prostate and lung cancer cells. The DNA damage agents used in the study include ionizing radiation source cesium-137 (Cs-137), chemotherapy drug cisplatin (cisPt), ultraviolet-C (UV-C), and oxidative compound H2O2. DNA damage was assessed using immunofluorescent staining of γH2AX and the Comet assay. The homologous recombination repair (HRR) was determined using a plasmid-based HRR reporter assay and the nucleotide excision repair (NER) was indirectly examined by the removal of UV-induced cyclobutane pyrimidine dimers (CPD). We found that PCNA-I1S inhibited cell growth in a dose-dependent manner and significantly enhanced the cell growth inhibition induced by pretreatment with DNA damaging agents Cs-137 irradiation, UV-C, and cisPt. However, the additive growth inhibitory effects were not observed in cells pre-treated with PCNA-I1S, followed by treatment with cisPt. H2O2 enhanced the level of chromatin-bound PCNA in quiescent cells, which was attenuated by PCNA-I1S. DNA damage was induced in cells treated with either PCNA-I1S or cisPt alone and was significantly elevated in cells exposed to the combination of PCNA-I1S and cisPt. Finally, PCNA-I1S attenuated repair of DNA double strand breaks (DSBs) by HRR and the removal of CPD by NER. These data suggest that targeting PCNA with PCNA-I1S may provide a novel approach for enhancing the efficacy of chemotherapy and radiation therapy in treatment of human prostate and lung cancer. [ABSTRACT FROM AUTHOR]
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- 2019
- Full Text
- View/download PDF
42. Biomechanical effects of rocker shoes on plantar aponeurosis strain in patients with plantar fasciitis and healthy controls.
- Author
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Greve, Christian, Schuitema, Dorianne, Otten, Bert, van Kouwenhove, Laurens, Verhaar, Erik, Postema, Klaas, Dekker, Rienk, and Hijmans, Juha M.
- Subjects
- *
PLANTAR fasciitis , *ACHILLES tendon , *SHOES , *YOUNG adults , *REACTION forces , *OVERUSE injuries , *PLANTARFLEXION - Abstract
Plantar fasciitis is a frequently occurring overuse injury of the foot. Shoes with a stiff rocker profile are a commonly prescribed treatment modality used to alleviate complaints associated with plantar fasciitis. In rocker shoes the apex position was moved proximally as compared to normal shoes, limiting the progression of the ground reaction forces (GRF) and peak plantarflexion moments during gait. A stiff sole minimizes dorsiflexion of the toes. The aim of this study was to investigate whether the biomechanical effects of rocker shoes lead to minimization of plantar aponeurosis (PA) strain during gait in patients with plantar fasciitis and in healthy young adults. 8 patients with plantar fasciitis (1 male, 7 females; mean age 55.0 ± 8.4 years) and 8 healthy young adults (8 females; mean age 24.1 ± 1.6 years) participated in the study. Each participant walked for 1 minute on an instrumented treadmill while wearing consecutively in random order shoes with a normal apex position (61.2 ± 2.8% apex) with flexible insole (FN), normal apex position with stiff insole (SN), proximal apex position (56.1 ± 2.6% apex) with flexible insole (FR) and proximal apex position with stiff insole (SR). Marker position data of the foot and lower leg and GRF were recorded. An OpenSim foot model was used to compute the change in PA length based on changes in foot segment positions during gait. The changes in PA length due to increases in Achilles tendon forces were computed based on previous data of a cadaver study. PA strain computed from both methods was not statistically different between shoe conditions. Peak Achilles tendon force, peak first metatarsophalangeal (MTP1) joint angle and peak plantarflexion moment were significantly lower when walking with the rocker shoe with a proximal apex position and a stiff insole for all subjects (p<.05). Changes in Achilles tendon forces during gait accounted for 65 ± 2% of the total PA strain. Rocker shoes with a stiff insole reduce peak dorsiflexion angles of the toes and plantar flexion moments, but not PA strain because the effects of a proximal apex position and stiff insole do not occur at the same time, but independently affect PA strain at 80–90% and 90–100% of the stance phase. Rocker shoes with an apex position of ~56% are insufficient to significantly reduce peak PA strain values in patients with plantar fasciitis and healthy young adults. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
43. Short-term effects of video gaming on brain response during working memory performance.
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Liu, Shuyan, Kaufmann, Christian, Labadie, Christian, Ströhle, Andreas, Kuschpel, Maxim S., Garbusow, Maria, Hummel, Robert, Schad, Daniel J., Rapp, Michael A., Heinz, Andreas, and Heinzel, Stephan
- Subjects
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SHORT-term memory , *VIDEO games , *JOB performance , *MAGNETIC resonance imaging , *HEART beat - Abstract
Breaks filled with different break activities often interrupt cognitive performance in everyday life. Previous studies have reported that both enhancing and deteriorating effects on challenging ongoing tasks such as working memory updating, depend on the type of break activity. However, neural mechanisms of these break-related alterations in working memory performance have not been studied, to date. Therefore, we conducted a brain imaging study to identify the neurobiological correlates of effects on the n-back working memory task related to different break activities. Before performing the n-back task in the magnetic resonance imaging (MRI) scanner, young adults were exposed to break activities in the MRI scanner involving (i) eyes-open resting, (ii) listening to music, and (iii) playing the video game "Angry Birds". Heart rate was measured by a pulse oximeter during the experiment. We found that increased heart rate during gaming as well as decreased relaxation levels after a video gaming break was related to poorer n-back task performance, as compared to listening to music. On the neural level, video gaming reduced supplementary motor area activation during working memory performance. These results may indicate that video gaming during a break may affect working memory performance by interfering with arousal state and frontal cognitive control functions. [ABSTRACT FROM AUTHOR]
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- 2019
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44. The intriguing effect of ethanol and nicotine on acetylcholine-sensitive potassium current IKAch: Insight from a quantitative model.
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Šimurda, Jiří, Šimurdová, Milena, and Bébarová, Markéta
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NICOTINE , *PHARMACOLOGY , *POTASSIUM , *HEART cells , *POTASSIUM ions , *DRUG interactions - Abstract
Recent experimental work has revealed unusual features of the effect of certain drugs on cardiac inwardly rectifying potassium currents, including the constitutively active and acetylcholine-induced components of acetylcholine-sensitive current (IKAch). These unusual features have included alternating susceptibility of the current components to activation and inhibition induced by ethanol or nicotine applied at various concentrations, and significant correlation between the drug effect and the current magnitude measured under drug-free conditions. To explain these complex drug effects, we have developed a new type of quantitative model to offer a possible interpretation of the effect of ethanol and nicotine on the IKAch channels. The model is based on a description of IKAch as a sum of particular currents related to the populations of channels formed by identical assemblies of different α-subunits. Assuming two different channel populations in agreement with the two reported functional IKAch-channels (GIRK1/4 and GIRK4), the model was able to simulate all the above-mentioned characteristic features of drug-channel interactions and also the dispersion of the current measured in different cells. The formulation of our model equations allows the model to be incorporated easily into the existing integrative models of electrical activity of cardiac cells involving quantitative description of IKAch. We suppose that the model could also help make sense of certain observations related to the channels that do not show inward rectification. This new ionic channel model, based on a concept we call population type, may allow for the interpretation of complex interactions of drugs with ionic channels of various types, which cannot be done using the ionic channel models available so far. [ABSTRACT FROM AUTHOR]
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- 2019
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45. Discerning the functional networks behind processing of music and speech through human vocalizations.
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Angulo-Perkins, Arafat and Concha, Luis
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ANTERIOR pituitary gland , *MOTOR cortex , *AUDITORY cortex , *SPEECH , *MAGNETIC resonance , *COGNITIVE ability , *INFERIOR colliculus - Abstract
A fundamental question regarding music processing is its degree of independence from speech processing, in terms of their underlying neuroanatomy and influence of cognitive traits and abilities. Although a straight answer to that question is still lacking, a large number of studies have described where in the brain and in which contexts (tasks, stimuli, populations) this independence is, or is not, observed. We examined the independence between music and speech processing using functional magnetic resonance imagining and a stimulation paradigm with different human vocal sounds produced by the same voice. The stimuli were grouped as Speech (spoken sentences), Hum (hummed melodies), and Song (sung sentences); the sentences used in Speech and Song categories were the same, as well as the melodies used in the two musical categories. Each category had a scrambled counterpart which allowed us to render speech and melody unintelligible, while preserving global amplitude and frequency characteristics. Finally, we included a group of musicians to evaluate the influence of musical expertise. Similar global patterns of cortical activity were related to all sound categories compared to baseline, but important differences were evident. Regions more sensitive to musical sounds were located bilaterally in the anterior and posterior superior temporal gyrus (planum polare and temporale), the right supplementary and premotor areas, and the inferior frontal gyrus. However, only temporal areas and supplementary motor cortex remained music-selective after subtracting brain activity related to the scrambled stimuli. Speech-selective regions mainly affected by intelligibility of the stimuli were observed on the left pars opecularis and the anterior portion of the medial temporal gyrus. We did not find differences between musicians and non-musicians Our results confirmed music-selective cortical regions in associative cortices, independent of previous musical training. [ABSTRACT FROM AUTHOR]
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- 2019
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46. The motility-based swim-up technique separates bull sperm based on differences in metabolic rates and tail length.
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Magdanz, Veronika, Boryshpolets, Sergii, Ridzewski, Clara, Eckel, Barbara, and Reinhardt, Klaus
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SPERMATOZOA , *CELL physiology , *CELL motility , *TAILS , *OXYGEN consumption , *SPERM motility , *CYTOLOGY - Abstract
Swim-up is a sperm purification method that is being used daily in andrology labs around the world as a simple step for in vitro sperm selection. This method accumulates the most motile sperm in the upper fraction and leaves sperm with low or no motility in the lower fraction. However, the underlying reasons are not fully understood. In this article, we compare metabolic rate, motility and sperm tail length of bovine sperm cells of the upper and lower fraction. The metabolic assay platform reveals oxygen consumption rates and extracellular acidification rates simultaneously and thereby delivers the metabolic rates in real time. Our study confirms that the upper fraction of bull sperm has not only improved motility compared to the cells in the lower fraction but also shows higher metabolic rates and longer flagella. This pattern was consistent across media of two different levels of viscosity. We conclude that the motility-based separation of the swim-up technique is also reflected in underlying metabolic differences. Metabolic assays could serve as additional or alternative, label-free method to evaluate sperm quality. [ABSTRACT FROM AUTHOR]
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- 2019
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47. Supra-threshold perception and neural representation of tones presented in noise in conditions of masking release.
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Egger, Katharina, Dau, Torsten, and Epp, Bastian
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AUDITORY masking , *AUDITORY pathways , *SIGNAL-to-noise ratio , *SENSORY perception , *LOUDNESS - Abstract
The neural representation and perceptual salience of tonal signals presented in different noise maskers were investigated. The properties of the maskers and signals were varied such that they produced different amounts of either monaural masking release, binaural masking release, or a combination of both. The signals were then presented at different levels above their corresponding masked thresholds and auditory evoked potentials (AEPs) were measured. It was found that, independent of the masking condition, the amplitude of the P2 component of the AEP was similar for the same stimulus levels above masked threshold, suggesting that both monaural and binaural effects of masking release were represented at the level of the auditory pathway where P2 is generated. The perceptual salience of the signal was evaluated at equal levels above masked threshold using a rating task. In contrast to the electrophysiological findings, the subjective ratings of the perceptual signal salience were less consistent with the signal level above masked threshold and varied strongly across listeners and masking conditions. Overall, the results from the present study suggest that the P2 amplitude of the AEP represents an objective indicator of the audibility of a target signal in the presence of complex acoustic maskers. [ABSTRACT FROM AUTHOR]
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- 2019
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48. Optimized bioluminescence analysis of adenosine triphosphate (ATP) released by platelets and its application in the high throughput screening of platelet inhibitors.
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Wang, Lili, Li, Yunqian, Guo, Ran, Li, Shanshan, Chang, Anqi, Zhu, Zhixiang, and Tu, Pengfei
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ADENOSINE triphosphate analysis , *PLATELET aggregation inhibitors , *BIOLUMINESCENCE , *PHYSIOLOGIC salines , *BLOOD platelet activation - Abstract
Activated platelets release adenosine trisphosphate (ATP) and bioluminescence analysis of ATP release is usually used to monitor activation of platelets induced by various stimulants. However, bioluminescence analysis of ATP possesses poor linearity, the signal is quickly attenuated, and the accuracy of ATP release from platelets is hard to determine accurately enough to be used in a high throughput screening of platelet inhibitors. The present study was designed to optimize bioluminescence analysis of ATP released by platelets and expand its application in high throughput screening of platelet inhibitors. The results showed that accuracy of ATP analysis was significantly improved by adding coenzyme A (CoA) and signal attenuation of ATP analysis was greatly postponed by adding bovine serum albumin (BSA) both in Hank's balanced salt solution (HBSS) and Tyrode's buffer. Furthermore, ATP release of activated platelets and inhibitory effects of Ly294002 and Staurosporine on platelet activation were accurately determined by our optimized bioluminescence analysis of ATP. Thus, we have successfully constructed an optimized bioluminescence analysis of ATP which can be used in high throughput screening of platelet inhibitors. [ABSTRACT FROM AUTHOR]
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- 2019
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49. A proteomic clock for malignant gliomas: The role of the environment in tumorigenesis at the presymptomatic stage.
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Zheng, Le, Zhang, Yan, Hao, Shiying, Chen, Lin, Sun, Zhen, Yan, Chi, Whitin, John C., Jang, Taichang, Merchant, Milton, McElhinney, Doff B., Sylvester, Karl G., Cohen, Harvey J., Recht, Lawrence, Yao, Xiaoming, and Ling, Xuefeng B.
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CEREBROSPINAL fluid , *GLIOMAS , *BRAIN tumors , *FALSE discovery rate , *CEREBROSPINAL fluid examination , *NEURAL development , *ECOLOGY - Abstract
Malignant gliomas remain incurable with a poor prognosis despite of aggressive treatment. We have been studying the development of brain tumors in a glioma rat model, where rats develop brain tumors after prenatal exposure to ethylnitrosourea (ENU), and there is a sizable interval between when the first pathological changes are noted and tumors become detectable with MRI. Our aim to define a molecular timeline through proteomic profiling of the cerebrospinal fluid (CSF) such that brain tumor commitment can be revealed earlier than at the presymptomatic stage. A comparative proteomic approach was applied to profile CSF collected serially either before, at and after the time MRI becomes positive. Elastic net (EN) based models were developed to infer the timeline of normal or tumor development respectively, mirroring a chronology of precisely timed, "clocked", adaptations. These CSF changes were later quantified by longitudinal entropy analyses of the EN predictive metric. False discovery rates (FDR) were computed to control the expected proportion of the EN models that are due to multiple hypothesis testing. Our ENU rat brain tumor dating EN model indicated that protein content in CSF is programmed even before tumor MRI detection. The findings of the precisely timed CSF tumor microenvironment changes at presymptomatic stages, deviation from the normal development timeline, may provide the groundwork for the understanding of adaptation of the brain environment in tumorigenesis to devise effective brain tumor management strategies. [ABSTRACT FROM AUTHOR]
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- 2019
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50. How does the method change what we measure? Comparing virtual reality and text-based surveys for the assessment of moral decisions in traffic dilemmas.
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Sütfeld, Leon René, Ehinger, Benedikt V., König, Peter, and Pipa, Gordon
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VIRTUAL reality , *EMOTIONAL conditioning , *DILEMMA , *MORAL judgment , *COGNITIVE science , *ERGONOMICS - Abstract
The question of how self-driving cars should behave in dilemma situations has recently attracted a lot of attention in science, media and society. A growing number of publications amass insight into the factors underlying the choices we make in such situations, often using forced-choice paradigms closely linked to the trolley dilemma. The methodology used to address these questions, however, varies widely between studies, ranging from fully immersive virtual reality settings to completely text-based surveys. In this paper we compare virtual reality and text-based assessments, analyzing the effect that different factors in the methodology have on decisions and emotional response of participants. We present two studies, comparing a total of six different conditions varying across three dimensions: The level of abstraction, the use of virtual reality, and time-constraints. Our results show that the moral decisions made in this context are not strongly influenced by the assessment, and the compared methods ultimately appear to measure very similar constructs. Furthermore, we add to the pool of evidence on the underlying factors of moral judgment in traffic dilemmas, both in terms of general preferences, i.e., features of the particular situation and potential victims, as well as in terms of individual differences between participants, such as their age and gender. [ABSTRACT FROM AUTHOR]
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- 2019
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