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458 results on '"James Reynolds"'

1. Quantifying Visual Differences in Drought-Stressed Maize through Reflectance and Data-Driven Analysis

Author

Sanjana Banerjee, James Reynolds, Matthew Taggart, Michael Daniele, Alper Bozkurt, and Edgar Lobaton

Subjects
crop health monitoring, drought-stress detection, remote sensing, near-infrared, pixel extraction, classification, Electronic computers. Computer science, QA75.5-76.95
Abstract

Environmental factors, such as drought stress, significantly impact maize growth and productivity worldwide. To improve yield and quality, effective strategies for early detection and mitigation of drought stress in maize are essential. This paper presents a detailed analysis of three imaging trials conducted to detect drought stress in maize plants using an existing, custom-developed, low-cost, high-throughput phenotyping platform. A pipeline is proposed for early detection of water stress in maize plants using a Vision Transformer classifier and analysis of distributions of near-infrared (NIR) reflectance from the plants. A classification accuracy of 85% was achieved in one of our trials, using hold-out trials for testing. Suitable regions on the plant that are more sensitive to drought stress were explored, and it was shown that the region surrounding the youngest expanding leaf (YEL) and the stem can be used as a more consistent alternative to analysis involving just the YEL. Experiments in search of an ideal window size showed that small bounding boxes surrounding the YEL and the stem area of the plant perform better in separating drought-stressed and well-watered plants than larger window sizes enclosing most of the plant. The results presented in this work show good separation between well-watered and drought-stressed categories for two out of the three imaging trials, both in terms of classification accuracy from data-driven features as well as through analysis of histograms of NIR reflectance.

Published
2024
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2. Demystifying Open Science in health psychology and behavioral medicine: a practical guide to Registered Reports and Data Notes

Author

Emma Norris, Aoife O’Mahony, Rory Coyne, Tugce Varol, James A. Green, James Reynolds, and Elaine Toomey

Subjects
Open Science, Open Scholarship, Open Research, Registered Reports, Data Notes, Health Psychology, Medicine, Psychology, BF1-990
Abstract

Open Science practices are integral to increasing transparency, reproducibility, and accessibility of research in health psychology and behavioral medicine. Drives to facilitate Open Science practices are becoming increasingly evident in journal editorial policies, including the establishment of new paper formats such as Registered Reports and Data Notes. This paper provides: (i) an overview of the current state of Open Science policies within health psychology and behavioral medicine, (ii) a call for submissions to an Article Collection of Registered Reports and Data Notes as new paper formats within the journal of Health Psychology & Behavioral Medicine, (iii) an overview of Registered Reports and Data Notes, and (iv) practical considerations for authors and reviewers of Registered Reports and Data Notes.

Published
2024
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3. Evaluating Bacterial Nanocellulose Interfaces for Recording Surface Biopotentials from Plants

Author

James Reynolds, Michael Wilkins, Devon Martin, Matthew Taggart, Kristina R. Rivera, Meral Tunc-Ozdemir, Thomas Rufty, Edgar Lobaton, Alper Bozkurt, and Michael A. Daniele

Subjects
nanocellulose, electrophysiology, plant, electrode, Chemical technology, TP1-1185
Abstract

The study of plant electrophysiology offers promising techniques to track plant health and stress in vivo for both agricultural and environmental monitoring applications. Use of superficial electrodes on the plant body to record surface potentials may provide new phenotyping insights. Bacterial nanocellulose (BNC) is a flexible, optically translucent, and water-vapor-permeable material with low manufacturing costs, making it an ideal substrate for non-invasive and non-destructive plant electrodes. This work presents BNC electrodes with screen-printed carbon (graphite) ink-based conductive traces and pads. It investigates the potential of these electrodes for plant surface electrophysiology measurements in comparison to commercially available standard wet gel and needle electrodes. The electrochemically active surface area and impedance of the BNC electrodes varied based on the annealing temperature and time over the ranges of 50 °C to 90 °C and 5 to 60 min, respectively. The water vapor transfer rate and optical transmittance of the BNC substrate were measured to estimate the level of occlusion caused by these surface electrodes on the plant tissue. The total reduction in chlorophyll content under the electrodes was measured after the electrodes were placed on maize leaves for up to 300 h, showing that the BNC caused only a 16% reduction. Maize leaf transpiration was reduced by only 20% under the BNC electrodes after 72 h compared to a 60% reduction under wet gel electrodes in 48 h. On three different model plants, BNC–carbon ink surface electrodes and standard invasive needle electrodes were shown to have a comparable signal quality, with a correlation coefficient of >0.9, when measuring surface biopotentials induced by acute environmental stressors. These are strong indications of the superior performance of the BNC substrate with screen-printed graphite ink as an electrode material for plant surface biopotential recordings.

Published
2024
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4. Connecting for Care: a protocol for a mixed-method social network analysis to advance knowledge translation in the field of child development and rehabilitation

Author

Stephanie Glegg, Carrie Costello, Symbia Barnaby, Christine Cassidy, Kathryn M. Sibley, Kelly Russell, Shauna Kingsnorth, Lesley Pritchard, Olaf Kraus de Camargo, John Andersen, Samantha Bellefeuille, Andrea Cross, Janet Curran, Kim Hesketh, Jeremy Layco, James Reynolds, Paula Robeson, Sharon Straus, and Kristy Wittmeier

Subjects
Knowledge translation, Healthcare, Social network analysis, Child development, Rehabilitation, Mixed methods, Medicine (General), R5-920
Abstract

Abstract Background Connections between individuals and organizations can impact knowledge translation (KT). This finding has led to growing interest in the study of social networks as drivers of KT. Social networks are formed by the patterns of relationships or connections generated through interactions. These connections can be studied using social network analysis (SNA) methodologies. The relatively small yet diverse community in the field of child development and rehabilitation (CD&R) in Canada offers an ideal case study for applying SNA. The purposes of this work are to (1) quantify and map the structure of Canadian CD&R KT networks among four groups: families, health care providers, KT support personnel, and researchers; (2) explore participant perspectives of the network structure and of KT barriers and facilitators within it; and (3) generate recommendations to improve KT capacity within and between groups. Aligning with the principles of integrated KT, we have assembled a national team whose members contribute throughout the research and KT process, with representation from the four participant groups. Methods A sequential, explanatory mixed-method study, within the bounds of a national case study in the field of CD&R. Objective 1: A national SNA survey of family members with advocacy/partnership experience, health care providers, KT support personnel, and researchers, paired with an anonymous survey for family member without partnership experience, will gather data to describe the KT networks within and between groups and identify barriers and facilitators of network connections. Objective 2: Purposive sampling from Phase 1 will identify semi-structured interview participants with whom to examine conventional and network-driven KT barriers, facilitators, and mitigating strategies. Objective 3: Intervention mapping and a Delphi process will generate recommendations for network and conventional interventions to strengthen the network and facilitate KT. Discussion This study will integrate network and KT theory in mapping the structure of the CD&R KT network, enhance our understanding of conventional and network-focused KT barriers and facilitators, and provide recommendations to strengthen KT networks. Recommendations can be applied and tested within the field of CD&R to improve KT, with the aim of ensuring children achieve the best health outcomes possible through timely access to effective healthcare.

Published
2022
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5. Application of a high‐resolution in vitro human MDR1‐MDCK assay and in vivo studies in preclinical species to improve prediction of CNS drug penetration

Author

Licong Jiang, Sanjeev Kumar, Marc Nuechterlein, Marissa Reyes, Dao Tran, Clifford Cabebe, Peggy Chiang, James Reynolds, Scott Carrier, Yongkai Sun, Peter Eddershaw, Tanya Hay, Weichao Chen, and Bo Feng

Subjects
CNS penetration, MDR1 assay, MDR1 efflux transporter, Therapeutics. Pharmacology, RM1-950
Abstract

Abstract P‐glycoprotein (P‐gp, MDR1) is expressed at the blood–brain barrier (BBB) and restricts penetration of its substrates into the central nervous system (CNS). In vitro MDR1 assays are frequently used to predict the in vivo relevance of MDR1‐mediated efflux at the BBB. It has been well established that drug candidates with high MDR1 efflux ratios (ERs) display poor CNS penetration. Following a comparison of MDR1 transporter function between the MDR1‐MDCKI cell line from National Institutes of Health (NIH) and our internal MDR1‐MDCKII cell line, the former was found to provide better predictions of in vivo brain penetration than our in‐house MDR1‐MDCKII cell line. In particular, the NIH MDR1 assay has an improved sensitivity to differentiate the compounds with ERs of

Published
2022
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6. The Rise of Heatstroke as a Method of Depopulating Pigs and Poultry: Implications for the US Veterinary Profession

Author

Gwendolen Reyes-Illg, Jessica E. Martin, Indu Mani, James Reynolds, and Barry Kipperman

Subjects
on-farm emergency killing, livestock, farm animal, veterinary ethics, ventilation shutdown (VSD), swine, Veterinary medicine, SF600-1100, Zoology, QL1-991
Abstract

Depopulation of food-producing animals is becoming increasingly common in response to both disease outbreaks and supply chain disruptions. In 2019, the American Veterinary Medical Association released depopulation guidelines classifying certain heatstroke-based killing methods as “permitted in constrained circumstances”, when circumstances of the emergency constrain reasonable implementation of “preferred” methods. Since then, tens of millions of birds and pigs have been killed by such methods, termed ventilation shutdown (VSD) Plus Heat and VSD Plus High Temperature and Humidity. While no research using validated measures of animal welfare assessment has been performed on these methods, their pathophysiology suggests that animals are likely to experience pain, anxiety, nausea, and heat distress prior to loss of consciousness. Heatstroke-based methods may result in prolonged suffering and often do not achieve 100% mortality. Potential and available alternative depopulation methods are briefly reviewed. The veterinary profession’s ethical obligation to protect animal welfare in the context of depopulations is discussed.

Published
2022
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7. Quantifying and Comparing the Match Demands of U18, U23, and 1ST Team English Professional Soccer Players

Author

James Reynolds, Mark Connor, Mikael Jamil, and Marco Beato

Subjects
football, team sports, GPS, speed, performance, Physiology, QP1-981
Abstract

The aim of this study was to quantify and compare the match load demands of U18, U23, and 1ST team players during the official season. A total of 65 matches and 495 (U18 = 146, U23 = 146, and 1ST team = 203) individual player game observations were included in this analysis. A 10-Hz global navigation satellite systems (GNSS) and 100-Hz triaxial accelerometer (STATSports, Apex, Northern Ireland) were used to monitor the following metrics during official matches: total distance, high-speed running distance (HSR), sprint distance, high metabolic distance, explosive distance, high-intensity bursts distance, speed intensity, and dynamic stress load (DSL) were analyzed. A multivariate analysis of variance test reported significant (p < 0.001) differences among the groups. HSR during matches was lower (d = small) for U18 players than the U23 and 1ST team players. Sprint distance and high-intensity bursts distance were lower (small) in U18 compared with the U23 and 1ST team. DSL was greater in 1ST compared with U18 (small) and U23 (small). This study reported that the differences between groups were greater for HSR, sprint distance, high-intensity bursts distance, and DSL, while total distance, high metabolic load distance, explosive distance, and speed intensity did not differ between the groups. These findings could be used to design training programs in the academy players (i.e., U18) to achieve the required long-term physical adaptations that are needed to progress into the U23 and 1ST teams.

Published
2021
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8. A Multimodal Sensing Platform for Interdisciplinary Research in Agrarian Environments

Author

James Reynolds, Evan Williams, Devon Martin, Caleb Readling, Parvez Ahmmed, Anders Huseth, and Alper Bozkurt

Subjects
corn earworm, bivalve, testing platform, wireless, Internet of Things, sensor development, Chemical technology, TP1-1185
Abstract

Agricultural and environmental monitoring programs often require labor-intensive inputs and substantial costs to manually gather data from remote field locations. Recent advances in the Internet of Things enable the construction of wireless sensor systems to automate these remote monitoring efforts. This paper presents the design of a modular system to serve as a research platform for outdoor sensor development and deployment. The advantages of this system include low power consumption (enabling solar charging), the use of commercially available electronic parts for lower-cost and scaled up deployments, and the flexibility to include internal electronics and external sensors, allowing novel applications. In addition to tracking environmental parameters, the modularity of this system brings the capability to measure other non-traditional elements. This capability is demonstrated with two different agri- and aquacultural field applications: tracking moth phenology and monitoring bivalve gaping. Collection of these signals in conjunction with environmental parameters could provide a holistic and context-aware data analysis. Preliminary experiments generated promising results, demonstrating the reliability of the system. Idle power consumption of 27.2 mW and 16.6 mW for the moth- and bivalve-tracking systems, respectively, coupled with 2.5 W solar cells allows for indefinite deployment in remote locations.

Published
2022
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9. Local Resting Ca2+ Controls the Scale of Astroglial Ca2+ Signals

Author

Claire M. King, Kirsten Bohmbach, Daniel Minge, Andrea Delekate, Kaiyu Zheng, James Reynolds, Cordula Rakers, Andre Zeug, Gabor C. Petzold, Dmitri A. Rusakov, and Christian Henneberger

Subjects
Biology (General), QH301-705.5
Abstract

Summary: Astroglia regulate neurovascular coupling while engaging in signal exchange with neurons. The underlying cellular machinery is thought to rely on astrocytic Ca2+ signals, but what controls their amplitude and waveform is poorly understood. Here, we employ time-resolved two-photon excitation fluorescence imaging in acute hippocampal slices and in cortex in vivo to find that resting [Ca2+] predicts the scale (amplitude) and the maximum (peak) of astroglial Ca2+ elevations. We bidirectionally manipulate resting [Ca2+] by uncaging intracellular Ca2+ or Ca2+ buffers and use ratiometric imaging of a genetically encoded Ca2+ indicator to establish that alterations in resting [Ca2+] change co-directionally the peak level and anti-directionally the amplitude of local Ca2+ transients. This relationship holds for spontaneous and for induced (for instance by locomotion) Ca2+ signals. Our findings uncover a basic generic rule of Ca2+ signal formation in astrocytes, thus also associating the resting Ca2+ level with the physiological “excitability” state of astroglia. : King et al. show that, in brain astroglia, a high resting [Ca2+] increases the maximum level but decreases the amplitude of local Ca2+ signals. This fundamental relationship holds over a wide range of preparations, ranging from hippocampal astrocytes in acute slices to locomotion-associated Ca2+ signals in the awake animal. Keywords: brain, astrocytes, calcium signalling, mechanism, calcium stores, fluorescence microscopy, quantitative, hippocampus, cortex, in vivo, locomotion

Published
2020
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10. The Role of Stenting in Management of Isolated Symptomatic Basilar Artery Stenosis

Author

Amrita Valluri, Morgan Aguirre, James Reynolds, and Justin Nolte

Subjects
isolated basilar artery stenosis, medical management, Medicine (General), R5-920
Abstract

Isolated basilar artery stenosis (BAS) is a rare etiology of ischemic neurologic conditions. First-line treatment of symptomatic stenosis is typically medical therapy as outlined in the Warfarin–Aspirin Symptomatic Intracranial Disease (WASID) trial and the Stenting versus Aggressive Medical Therapy for Intracranial Arterial Stenosis (SAMMPRIS) trial.1,2 We present the case of a male in his 60s with isolated BAS who failed maximal medical treatment but experienced a decrease in transient ischemic attacks and acute ischemic stroke occurrences after angioplasty and stenting.

Published
2021
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14. Oh, What A Tangled Web-Site We Weave When First We Practice

Author

Elizabeth Reynolds and James Reynolds

Subjects
Special aspects of education, LC8-6691, Theory and practice of education, LB5-3640
Abstract

Current emphases on computer technology have prompted a naive desire to use whatever is new regardless of its appropriateness to educational outcomes. Use of College level Web-based instruction has unearthed a variety of problems: misapplication of software, misplaced attempts to adapt traditional instruction to the Web, lack of teacher support, access and time difficulties, financial barriers, spatial/gender differences, and counterproductive approaches to learning that are unsystematic and independent versus organized, social, and cultural. The present study examined technological barriers to college student's achievement as well as student preferences regarding an optional Web-based ancillary designed to promote student achievement in an Educational Psychology course.

Published
2002
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18. Developing Testing Frameworks for AI Cameras

Author

Herdzik, Arkadiusz, James-Reynolds, Carl, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Bramer, Max, editor, and Stahl, Frederic, editor

Published
2022
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23. Towards a Brain Controller Interface for Generating Simple Berlin School Style Music with Interactive Genetic Algorithms

Author

James-Reynolds, C., Currie, E., Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Bramer, Max, editor, and Ellis, Richard, editor

Published
2021
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31. Evolutionary Art with an EEG Fitness Function

Author

Nĕmečková, Ingrid, James-Reynolds, Carl, Currie, Edward, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Bramer, Max, editor, and Petridis, Miltos, editor

Published
2019
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32. Mindfulness Mirror

Author

James-Reynolds, C., Currie, Ed, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Bramer, Max, editor, and Petridis, Miltos, editor

Published
2019
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36. Sensorial Computing

Author

Varsani, Puja, Moseley, Ralph, Jones, Simon, James-Reynolds, Carl, Chinellato, Eris, Augusto, Juan Carlos, Tan, Desney, Editor-in-Chief, Vanderdonckt, Jean, Editor-in-Chief, Filimowicz, Michael, editor, and Tzankova, Veronika, editor

Published
2018
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37. Predictive Drug Release Modeling Across Dissolution Apparatuses I and II using Computational Fluid Dynamics

Author

Alexander M. Kubinski, Gayathri Shivkumar, Reuben A. Georgi, Susan George, James Reynolds, Ricardo D. Sosa, and Tzuchi R. Ju

Subjects
Pharmaceutical Science
Abstract

A modeling process is developed and validated with which active pharmaceutical ingredient (API) release is predicted across the United States Pharmacopeia (USP) dissolution apparatuses I and II based on limited experimental dissolution data (at minimum two dissolution profiles at different apparatus settings). The process accounts for formulation-specific drug release behavior and hydrodynamics in the apparatuses over the range of typical agitation rates and medium volumes. This modeling process involves measurement of experimental mass transfer coefficients via a conventional mass balance and the relationship of said mass transfer coefficients to hydrodynamics and apparatus setting via computational fluid dynamics (CFD). A novel 1-D model is hence established, which provided calibration data for a particular formulation, can model mass transfer coefficients and their corresponding drug release at apparatus configurations of interest. Based on validation against experimental data produced from five erosion-based formulations over a range of apparatus configurations, accuracy within 8 %LA (labelled amount of API) and an average root mean square deviation of 3 %LA is achieved. With this predictive capability, minimizing the number of dissolution experiments and the amount of chemical materials needed during method development appears feasible.

Published
2023
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38. The Use of Physical Artefacts in Undergraduate Computer Science Teaching

Author

Currie, Edward, James-Reynolds, Carl, Akan, Ozgur, Series editor, Bellavista, Paolo, Series editor, Cao, Jiannong, Series editor, Coulson, Geoffrey, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin Sherman, Series editor, Stan, Mircea, Series editor, Xiaohua, Jia, Series editor, Zomaya, Albert Y., Series editor, Vincenti, Giovanni, editor, Bucciero, Alberto, editor, Helfert, Markus, editor, and Glowatz, Matthias, editor

Published
2017
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40. Literature Review on the Use of Action Research in Higher Education

Author

Gibbs, Paul, Cartney, Patricia, Wilkinson, Kate, Parkinson, John, Cunningham, Sheila, James-Reynolds, Carl, Zoubir, Tarek, Brown, Venetia, Barter, Phil, Sumner, Pauline, MacDonald, Angus, Dayananda, Asanka, and Pitt, Alexandra

Abstract

This literature review considers the use of action research in higher education. The review specifically looks at two areas of higher education activity. The first concerns academic teaching practice and includes a discussion of research and pedagogy practice, and staff development. The second considers student engagement. In both of these core features of higher education, action research has proven to be a central approach to the investigation, reflection and improvement of practice. Each of these main foci includes a discussion of the limitations of the literature. The review illustrates the extent and range of uses to have benefited from an action research approach.

Published
2017
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42. Natural growth of gold dendrites within silica gels

Author

Thomas Monecke, T. James Reynolds, Tadsuda Taksavasu, Erik R. Tharalson, Lauren R. Zeeck, Mario Guzman, Garrett Gissler, and Ross Sherlock

Subjects
Geology
Abstract

High-grade ores in low-sulfidation epithermal precious metal deposits include banded quartz veins that contain gold dendrites. The processes by which dendrite growth takes place have been subject to debate for decades, especially given that these deposits are known to form from dilute thermal liquids that contain only trace amounts of gold. It is shown here that growth of gold dendrites in epithermal veins at the McLaughlin deposit in California (western USA) originally took place within bands of gel-like noncrystalline silica. The gel provided a framework for the delicate dendrites to form. The high permeability of the gel allowed the diffusion and advection of gold from the thermal liquids flowing across the top of the silica layers to the sites of crystal growth within the gel. Over time, the gel hardened to form opal-AG. This silica phase is thermodynamically unstable and recrystallized to quartz that has a distinct mosaic texture.

Published
2023
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