Your search keyword '"Stephen P. Hall"' showing total 53 results

1. Insoluble Aβ overexpression in an App knock-in mouse model alters microstructure and gamma oscillations in the prefrontal cortex, affecting anxiety-related behaviours

Author

Eleftheria Pervolaraki, Stephen P. Hall, Denise Foresteire, Takashi Saito, Takaomi C. Saido, Miles A. Whittington, Colin Lever, and James Dachtler

Subjects

Alzheimer's disease, AppNL-G-F knock-in mice, Anxiety, Prefrontal cortex, Gamma oscillations, Social, Medicine, Pathology, RB1-214

Abstract

We studied a new amyloid-beta precursor protein (App) knock-in mouse model of Alzheimer's disease (AppNL-G-F), containing the Swedish KM670/671NL mutation, the Iberian I716F mutation and the Artic E693G mutation, which generates elevated levels of amyloid beta (Aβ)40 and Aβ42 without the confounds associated with APP overexpression. This enabled us to assess changes in anxiety-related and social behaviours, and neural alterations potentially underlying such changes, driven specifically by Aβ accumulation. AppNL-G-F knock-in mice exhibited subtle deficits in tasks assessing social olfaction, but not in social motivation tasks. In anxiety-assessing tasks, AppNL-G-F knock-in mice exhibited: (1) increased thigmotaxis in the open field (OF), yet; (2) reduced closed-arm, and increased open-arm, time in the elevated plus maze (EPM). Their ostensibly anxiogenic OF profile, yet ostensibly anxiolytic EPM profile, could hint at altered cortical mechanisms affecting decision-making (e.g. ‘disinhibition’), rather than simple core deficits in emotional motivation. Consistent with this possibility, alterations in microstructure, glutamatergic-dependent gamma oscillations and glutamatergic gene expression were all observed in the prefrontal cortex, but not the amygdala, of AppNL-G-F knock-in mice. Thus, insoluble Aβ overexpression drives prefrontal cortical alterations, potentially underlying changes in social and anxiety-related behavioural tasks. This article has an associated First Person interview with the first author of the paper.

Published

2019

2. Characterising the anxiogenic network from functional connectivity analysis of the CO2 challenge model

Author

Daniel Graham, Santra Mathew, Jonathan Marsden, Alastair D. Smith, Gary Smerdon, and Stephen D. Hall

Subjects

Medicine, Science

Abstract

Abstract The CO2 challenge model (CCM) is a gas inhalation paradigm that provides precisely controlled anxiety induction in experimental settings. Despite its potential as an experimental model of anxiety, our understanding of the neural effects of the CCM is incomplete. This study employs resting-state functional magnetic resonance imaging (rs-fMRI) to explore functional connectivity (FC) changes underlying the CCM. Following a preliminary CO2 tolerance assessment, participants completed an MRI session that included three rs-fMRI scans: during inhalation of control air (pre and post), and during a 6% CCM exposure. Here, we confirm that 6% CCM is a tolerable anxiogenic model in the MRI setting. We demonstrate that a transient CCM-induced increase in subjective anxiety is associated with an increase in FC within limbic and anxiety-related regions, with the insula emerging as a central node in this altered connectivity pattern. Further analysis revealed a significant correlation between the levels of subjective anxiety and enhanced FC between the brainstem and medial frontal cortex, highlighting the dynamic role of the brainstem in response to CO2-induced anxiety. These findings underscore the value of combining CCM and rs-fMRI to characterise the neural mechanisms of anxiety, with important implications for evaluating potential therapeutic interventions.

Published

2024

3. Characterising the inconsistency between perceived and actual sleep and its impact upon cognition and mood

Author

Hannah Windmill, Alexander Dyer, Alastair D. Smith, Matthew E. Roser, Ashwin Dhanda, and Stephen D. Hall

Subjects

Sleep, Actigraphy, PSQI, Cognition, Affect, Well-being., Medicine, Science

Abstract

Abstract Sleep profoundly influences human behaviour across cognition, affect, and daily experience. This study evaluated how subjective reports and objective measures of sleep capture the interaction between sleep quality and quantity on cognition and affect. We collected subjective sleep reports using the Pittsburgh Sleep Quality Index and objective seven-day actigraphy recordings from 83 participants. A test battery, including the Stop Signal, Digit Span, and Emotional Bias Tasks, measured response inhibition, working memory, and affect. Mood was evaluated using the Positive and Negative Affect Schedule, State-Trait Anxiety Inventory, and Beck’s Anxiety Inventory. We reveal that subjective sleep reports do not predict objectively measured sleep duration or quality. We demonstrate that objective measures predict cognitive performance on executive function and memory tasks for the upper and lower sleep quartiles, while subjective reports do not. Moreover, we demonstrate that subjective reports, but not objective measures, are strongly predicted by emotional state. These findings suggest that while subjective measures do not accurately index actual sleep, they are a reliable proxy for emotional well-being. We propose that combined subjective and objective measures are required to characterise the multifaceted interaction between sleep, cognition and emotion. We discuss the implications of these findings for understanding the cause-effect relationship of sleep-disturbance in neurological and psychiatric disorders.

Published

2024

4. Does Epileptiform Activity Represent a Failure of Neuromodulation to Control Central Pattern Generator-Like Neocortical Behavior?

Author

Roger D. Traub, Miles A. Whittington, and Stephen P. Hall

Subjects

delta oscillation, spike-wave epilepsy, NPY interneuron, VIP interneuron, neocortex, disinhibition, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Rhythmic motor patterns in invertebrates are often driven by specialized “central pattern generators” (CPGs), containing small numbers of neurons, which are likely to be “identifiable” in one individual compared with another. The dynamics of any particular CPG lies under the control of modulatory substances, amines, or peptides, entering the CPG from outside it, or released by internal constituent neurons; consequently, a particular CPG can generate a given rhythm at different frequencies and amplitudes, and perhaps even generate a repertoire of distinctive patterns. The mechanisms exploited by neuromodulators in this respect are manifold: Intrinsic conductances (e.g., calcium, potassium channels), conductance state of postsynaptic receptors, degree of plasticity, and magnitude and kinetics of transmitter release can all be affected. The CPG concept has been generalized to vertebrate motor pattern generating circuits (e.g., for locomotion), which may contain large numbers of neurons – a construct that is sensible, if there is enough redundancy: that is, the large number of neurons consists of only a small number of classes, and the cells within any one class act stereotypically. Here we suggest that CPG and modulator ideas may also help to understand cortical oscillations, normal ones, and particularly transition to epileptiform pathology. Furthermore, in the case illustrated, the mechanism of the transition appears to be an exaggerated form of a normal modulatory action used to influence sensory processing.

Published

2017

5. Microstructure and stress mapping in 3D at industrially relevant degrees of plastic deformation

Author

Axel Henningsson, Mustafacan Kutsal, Jonathan P. Wright, Wolfgang Ludwig, Henning Osholm Sørensen, Stephen A. Hall, Grethe Winther, and Henning Friis Poulsen

Subjects

Medicine, Science

Abstract

Abstract Strength, ductility, and failure properties of metals are tailored by plastic deformation routes. Predicting these properties requires modeling of the structural dynamics and stress evolution taking place on several length scales. Progress has been hampered by a lack of representative 3D experimental data at industrially relevant degrees of deformation. We present an X-ray imaging based 3D mapping of an aluminum polycrystal deformed to the ultimate tensile strength (32% elongation). The extensive dataset reveals significant intra-grain stress variations (36 MPa) up to at least half of the inter-grain variations (76 MPa), which are dominated by grain orientation effects. Local intra-grain stress concentrations are candidates for damage nucleation. Such data are important for models of structure-property relations and damage.

Published

2024

6. Post-Movement Beta Synchrony Inhibits Cortical Excitability

Author

Edward Rhodes, William Gaetz, Jonathan Marsden, and Stephen D. Hall

Subjects

beta synchrony, movement, motor control, oscillations, PMBR, B-ERD, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background/Objectives: This study investigates the relationship between movement-related beta synchrony and primary motor cortex (M1) excitability, focusing on the time-dependent inhibition of movement. Voluntary movement induces beta frequency (13–30 Hz) event-related desynchronisation (B-ERD) in M1, followed by post-movement beta rebound (PMBR). Although PMBR is linked to cortical inhibition, its temporal relationship with motor cortical excitability is unclear. This study aims to determine whether PMBR acts as a marker for post-movement inhibition by assessing motor-evoked potentials (MEPs) during distinct phases of the beta synchrony profile. Methods: Twenty-five right-handed participants (mean age: 24 years) were recruited. EMG data were recorded from the first dorsal interosseous muscle, and TMS was applied to the M1 motor hotspot to evoke MEPs. A reaction time task was used to elicit beta oscillations, with TMS delivered at participant-specific time points based on EEG-derived beta power envelopes. MEP amplitudes were compared across four phases: B-ERD, early PMBR, peak PMBR, and late PMBR. Results: Our findings demonstrate that MEP amplitude significantly increased during B-ERD compared to rest, indicating heightened cortical excitability. In contrast, MEPs recorded during peak PMBR were significantly reduced, suggesting cortical inhibition. While all three PMBR phases exhibited reduced cortical excitability, a trend toward amplitude-dependent inhibition was observed. Conclusions: This study confirms that PMBR is linked to reduced cortical excitability, validating its role as a marker of motor cortical inhibition. These results enhance the understanding of beta oscillations in motor control and suggest that further research on altered PMBR could be crucial for understanding neurological and psychiatric disorders.

Published

2024

7. Exploring the Feasibility of Bidirectional Control of Beta Oscillatory Power in Healthy Controls as a Potential Intervention for Parkinson’s Disease Movement Impairment

Author

Krithika Anil, Giorgio Ganis, Jennifer A. Freeman, Jonathan Marsden, and Stephen D. Hall

Subjects

neurofeedback, EEG, motor control, Parkinson’s disease, reaction time, Chemical technology, TP1-1185

Abstract

Neurofeedback (NF) is a promising intervention for improvements in motor performance in Parkinson’s disease. This NF pilot study in healthy participants aimed to achieve the following: (1) determine participants’ ability to bi-directionally modulate sensorimotor beta power and (2) determine the effect of NF on movement performance. A real-time EEG-NF protocol was used to train participants to increase and decrease their individual motor cortex beta power amplitude, using a within-subject double-blind sham-controlled approach. Movement was assessed using a Go/No-go task. Participants completed the NASA Task Load Index and provided verbal feedback of the NF task difficulty. All 17 participants (median age = 38 (19–65); 10 females) reliably reduced sensorimotor beta power. No participant could reliably increase their beta activity. Participants reported that the NF task was challenging, particularly increasing beta. A modest but significant increase in reaction time correlated with a reduction in beta power only in the real condition. Findings suggest that beta power control difficulty varies by modulation direction, affecting participant perceptions. A correlation between beta power reduction and reaction times only in the real condition suggests that intentional beta power reduction may shorten reaction times. Future research should examine the minimum beta threshold for meaningful motor improvements, and the relationship between EEG mechanisms and NF learning to optimise NF outcomes.

Published

2024

8. Evaluation of central bank independence, macroprudential policy, and credit gap in developing countries.

Author

Cep Jandi Anwar, Stephen G Hall, Nermeen Harb, Indra Suhendra, and Eka Purwanda

Subjects

Medicine, Science

Abstract

This study aims to examine whether Central Bank Independence (CBI) and Macroprudential Policy (MAPP) are capable of assisting the improvement of stability in the financial system, regarding the credit gap for 20 developing markets from 2000 to 2021. To examine this financial association, a panel threshold nonlinear model was implemented, based on the potentially time-varying influence of the CBI and MAPP index on the credit gap. The effects of this relationship also emphasized the CBI degree, whose greater level often stabilized the financial sector better. In this case, a stronger effect is commonly prioritized when CBI is below its trend. Based on the analysis, the selected experimental countries were categorized into two groups. The results showed that the nations with a higher CBI degree had greater stability in the financial system. Tighter MAPP also improved financial stability when CBI was below its trend. However, it did not enhance stability when CBI was more than the threshold level.

Published

2023

9. Prolonged heat and drought versus cool climate on the Swedish spring wheat breeding lines: Impact on the gluten protein quality and grain microstructure

Author

Sbatie Lama, Pernilla Vallenback, Stephen A. Hall, Marina Kuzmenkova, and Ramune Kuktaite

Subjects

bread wheat, breeding for wheat self‐sufficiency, gluten quality, high temperature, polymeric and monomeric protein, SE‐HPLC, Agriculture, Agriculture (General), S1-972

Abstract

Abstract Fluctuating climate, heat, and drought are expected to considerably impact bread wheat (Triticum aestivum) quality in the coming years and, as wheat is an essential food element worldwide, this will have significant implications for future food security and the global economy. This leads to an urgent need for developing wheat varieties with stable yield and gluten quality. In this study, we investigated the effect of heat and drought, compared to a cool climate, on gluten proteins in 294 spring wheat genotypes grown in 2017 and 2018 in Sweden. Gluten protein parameters were studied by size exclusion high‐performance liquid chromatography (SE‐HPLC) and grain morphology by X‐ray tomography. The prolonged heat and drought led to: (i) increased gluten polymerization and the formation of large polymers, as defined by the percentage of unextractable polymers in total polymers (%UPP) and the percentage of large unextractable polymers in total large polymers (%LUPP); and (ii) increase in large monomers, as defined by the percentage of large unextractable monomers in the total large monomers (%LUMP) and the ratio of monomers versus polymers (Mon/Pol) in the flour. The cooler climate also led to an increase in total protein concentration and accumulation of the monomeric proteins and total SDS‐extractable proteins (TOTE). No difference in the total amount of SDS‐unextractable proteins (TOTU) was found between the studied climates. Due to the heat and drought stress, the grain yield decreased in most of the genotypes, while the grain microstructure varied only to a minor extent. The wheat genotypes identified in the study that provide good yields and stable gluten properties in both prolonged heat–drought and cool environments are strong candidates to contribute to a secure, self‐sufficient future wheat supply in the face of an evolving climate in Sweden and in similar climates worldwide.

Published

2022

10. N2O–Assisted Siphon Foaming of Modified Galactoglucomannans With Cellulose Nanofibers

Author

Tiina Nypelö, Jessica Fredriksson, Vishnu Arumughan, Emanuel Larsson, Stephen A. Hall, and Anette Larsson

Subjects

galactoglucomannan, cellulose nanofibers, polysaccharide interactions, foaming, interfacial interactions, Technology, Chemical technology, TP1-1185

Abstract

Foaming of most bio-based polymers is challenged by low pore formation and foam stability. At the same time, the developing utilization of bio-based materials for the circular economy is placing new demands for easily processable, low-density materials from renewable raw materials. In this work, we investigate cellulose nanofiber (CNF) foams in which foaming is facilitated with wood-based hemicelluloses, galactoglucomannans (GGMs). Interfacial activity of the GGM is modulated via modification of the molecule’s amphiphilicity, where the surface tension is decreased from approximately 70 to 30 mN m−1 for unmodified and modified GGM, respectively. The chemical modification of GGMs by substitution with butyl glycidyl ether increased the molecule’s hydrophobicity and interaction with the nanocellulose component. The highest specific foam volume using 1 wt% CNF was achieved when modified GGM was added (3.1 ml g−1), compared to unmodified GGM with CNF (2.1 ml g−1). An amount of 96 and 98% of the GGM and GGM-BGE foams were lost after 15 min of foaming while the GGM and GGM-BGE with cellulose nanofibers lost only 33 and 28% of the foam respectively. In the case of GGM-BGE, the foam stability increased with increasing nanofiber concentration. This suggests that the altered hydrophobicity facilitated increased foam formation when the additive was incorporated in the CNF suspension and foamed with nitrous oxide (N2O). Thus, the hydrophobic character of the modified GGM was a necessity for foam formation and stability while the CNFs were needed for generating a self-standing foam structure.

Published

2021

11. Do doctors who order more routine medical tests diagnose more cancers? A population‐based study from Ontario Canada

Author

Stephen F. Hall, Colleen Webber, Patti A. Groome, Christopher M. Booth, Paul Nguyen, and Yvonne DeWit

Subjects

cancer overdiagnosis, imaging tests, laboratory tests, overuse, population‐based, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background The overuse of medical tests leads to higher costs, wasting of resources, and the potential for overdiagnosis of disease. This study was designed to determine whether the patients of family doctors who order more routine medical tests are diagnosed with more cancers. Method A retrospective population‐based cross‐sectional study using administrative health care data in Ontario Canada. We investigated the ordering of 23 routine laboratories and imaging tests 2008‐20012 by 6849 Ontario family physicians on their 4.9 million rostered adult patients. We compared physicians’ test utilization and calculated case‐mix adjusted observed to expected (O:E) utilization ratios to categorize physicians as Typical, Higher or Lower testers. Age‐sex standardized rates (cases/10 000 patient years) and Rate Ratios were determined for cancers of the thyroid, prostate, breast, lymphoma, kidney, melanoma, uterus, ovary, lung, esophagus, and pancreas for each tester group. Results There was wide variation in the use of the 23 tests by Ontario physicians. 26% and 24% of physicians were deemed Higher Testers for laboratory and imaging tests, while 41% and 38% were Typical Testers. The patients of higher test users were diagnosed with more cancers of thyroid (laboratory [RR 1.61, 95% CI 1.39‐1.87] and imaging [RR 2.08, 95% CI 0.88‐2.30]) and prostate (laboratory [RR 1.10, 95% CI 1.03‐1.18] and imaging [RR 1.05, 95% CI 1.00‐1.10]). Conclusion There is a wide variation in the ordering of routine and common medical tests among Ontario family doctors. The patients of higher testers were diagnosed with more thyroid and prostate cancers.

Published

2019

12. The Worldwide Alzheimer's Disease Neuroimaging Initiative: ADNI‐3 updates and global perspectives

Author

Christopher J. Weber, Maria C. Carrillo, William Jagust, Clifford R. Jack Jr, Leslie M. Shaw, John Q. Trojanowski, Andrew J. Saykin, Laurel A. Beckett, Cyrille Sur, Naren P. Rao, Patricio Chrem Mendez, Sandra E. Black, Kuncheng Li, Takeshi Iwatsubo, Chiung‐Chih Chang, Ana Luisa Sosa, Christopher C. Rowe, Richard J. Perrin, John C. Morris, Amanda M.B. Healan, Stephen E. Hall, and Michael W. Weiner

Subjects

Alzheimer's disease, amyloid, biomarkers, cerebrospinal fluid, cognitive impairment, MRI, Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6

Abstract

Abstract The Worldwide Alzheimer's Disease Neuroimaging Initiative (WW‐ADNI) is a collaborative effort to investigate imaging and biofluid markers that can inform Alzheimer's disease treatment trials. It is a public‐private partnership that spans North America, Argentina, Australia, Canada, China, Japan, Korea, Mexico, and Taiwan. In 2004, ADNI researchers began a naturalistic, longitudinal study that continues today around the globe. Through several successive phases (ADNI‐1, ADNI‐GO, ADNI‐2, and ADNI‐3), the study has fueled amyloid and tau phenotyping and refined neuroimaging methodologies. WW‐ADNI researchers have successfully standardized analyses and openly share data without embargo, providing a rich data set for other investigators. On August 26, 2020, the Alzheimer's Association convened WW‐ADNI researchers who shared updates from ADNI‐3 and their vision for ADNI‐4.

Published

2021

13. In praise of promoting prisms of praise

Author

George M Jacobs and Stephen J Hall

Subjects

praise, behaviorism, social constructionism, positive psychology, ipsative assessment, 360-degree assessment, Philology. Linguistics, P1-1091

Abstract

Advice for teachers often includes advice on the quality and quantity of the praise they give students. The present article reviews and perhaps adds to that advice, as well as cautioning that the influence of culture needs to be borne in mind when praise is considered. The two theories discussed in the introductory part of this article, Behaviorism and Social Constructionism, provide different but not necessarily incompatible advice on praise. The article’s twelve specific suggestions on praise may be a useful review or new ideas. Included among those suggestions are ideas for involving people other than teachers in praising students, to praise not just the result but also the process used towards that result and those who helped in the process, and in giving praise, to highlight the class’s long-term goals. Certainly, the suggestions are relevant not only for teachers but also for other stakeholders in Education and beyond.

Published

2020

14. Characterisation of Single-Phase Fluid-Flow Heterogeneity Due to Localised Deformation in a Porous Rock Using Rapid Neutron Tomography

Author

Maddi Etxegarai, Erika Tudisco, Alessandro Tengattini, Gioacchino Viggiani, Nikolay Kardjilov, and Stephen A. Hall

Subjects

fluid velocity map, hydro-mechanical, fluid measurement, neutron imaging mechanics, saturated rock, heavy water, Photography, TR1-1050, Computer applications to medicine. Medical informatics, R858-859.7, Electronic computers. Computer science, QA75.5-76.95

Abstract

The behaviour of subsurface-reservoir porous rocks is a central topic in the resource engineering industry and has relevant applications in hydrocarbon, water production, and CO2 sequestration. One of the key open issues is the effect of deformation on the hydraulic properties of the host rock and, specifically, in saturated environments. This paper presents a novel full-field data set describing the hydro-mechanical properties of porous geomaterials through in situ neutron and X-ray tomography. The use of high-performance neutron imaging facilities such as CONRAD-2 (Helmholtz-Zentrum Berlin) allows the tracking of the fluid front in saturated samples, making use of the differential neutron contrast between “normal” water and heavy water. To quantify the local hydro-mechanical coupling, we applied a number of existing image analysis algorithms and developed an array of bespoke methods to track the water front and calculate the 3D speed maps. The experimental campaign performed revealed that the pressure-driven flow speed decreases, in saturated samples, in the presence of pre-existing low porosity heterogeneities and compactant shear-bands. Furthermore, the observed complex mechanical behaviour of the samples and the associated fluid flow highlight the necessity for 3D imaging and analysis.

Published

2021

15. New Remains of Scandiavis mikkelseni Inform Avian Phylogenetic Relationships and Brain Evolution

Author

Miriam Heingård, Grace Musser, Stephen A. Hall, and Julia A. Clarke

Subjects

Paleogene, Charadriiformes, Neoaves, endocast, brain evolution, Gruiformes, Biology (General), QH301-705.5

Abstract

Although an increasing number of studies are combining skeletal and neural morphology data in a phylogenetic context, most studies do not include extinct taxa due to the rarity of preserved endocasts. The early Eocene avifauna of the Fur Formation of Denmark presents an excellent opportunity for further study of extinct osteological and endocranial morphology as fossils are often exceptionally preserved in three dimensions. Here, we use X-ray computed tomography to present additional material of the previously described taxon Scandiavis mikkelseni and reassess its phylogenetic placement using a previously published dataset. The new specimen provides novel insights into the osteological morphology and brain anatomy of Scandiavis. The virtual endocast exhibits a morphology comparable to that of modern avian species. Endocranial evaluation shows that it was remarkably similar to that of certain extant Charadriiformes, yet also possessed a novel combination of traits. This may mean that traits previously proposed to be the result of shifts in ecology later in the evolutionary history of Charadriiformes may instead show a more complex distribution in stem Charadriiformes and/or Gruiformes depending on the interrelationships of these important clades. Evaluation of skeletal and endocranial character state changes within a previously published phylogeny confirms both S. mikkelseni and a putative extinct charadriiform, Nahmavis grandei, as charadriiform. Results bolster the likelihood that both taxa are critical fossils for divergence dating and highlight a biogeographic pattern similar to that of Gruiformes.

Published

2021

16. A Continuity Flow Based Tomographic Reconstruction Algorithm for 4D Multi-Beam High Temporal—Low Angular Sampling

Author

Axel Henningsson and Stephen A. Hall

Subjects

tomography, 4D, temporal, dynamic, continuity equations, Photography, TR1-1050, Computer applications to medicine. Medical informatics, R858-859.7, Electronic computers. Computer science, QA75.5-76.95

Abstract

A mathematical framework and accompanying numerical algorithm exploiting the continuity equation for 4D reconstruction of spatiotemporal attenuation fields from multi-angle full-field transmission measurements is presented. The algorithm is geared towards rotation-free dynamic multi-beam X-ray tomography measurements, for which angular information is sparse but the temporal information is rich. 3D attenuation maps are recovered by propagating an initial discretized density volume in time according to the advection equations using the Finite Volumes method with a total variation diminishing monotonic upstream-centered scheme (TVDMUSCL). The benefits and limitations of the algorithm are explored using dynamic granular system phantoms modelled via discrete elements and projected by an analytical ray model independent from the numerical ray model used in the reconstruction scheme. Three phantom scenarios of increasing complexity are presented and it is found that projections from only a few (unknowns:equations > 10) angles can be sufficient for characterisation of the 3D attenuation field evolution in time. It is shown that the artificial velocity field produced by the algorithm sub-iteration, which is used to propagate the attenuation field, can to some extent approximate the true kinematics of the system. Furthermore, it is found that the selection of a temporal interpolation scheme for projection data can have a significant impact on error build up in the reconstructed attenuation field.

Published

2021

17. A Systematic Review of Neurofeedback for the Management of Motor Symptoms in Parkinson’s Disease

Author

Krithika Anil, Stephen D. Hall, Sara Demain, Jennifer A. Freeman, Giorgio Ganis, and Jonathan Marsden

Subjects

Parkinson’s disease, neurofeedback, movement, neural network activity, electroencephalography, neuroimaging, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background: Neurofeedback has been proposed as a treatment for Parkinson’s disease (PD) motor symptoms by changing the neural network activity directly linked with movement. However, the effectiveness of neurofeedback as a treatment for PD motor symptoms is unclear. Aim: To systematically review the literature to identify the effects of neurofeedback in people with idiopathic PD; as defined by measurement of brain activity; motor function; and performance. Design: A systematic review. Included Sources and Articles: PubMed; MEDLINE; Cinhal; PsychoInfo; Prospero; Cochrane; ClinicalTrials.gov; EMBASE; Web of Science; PEDro; OpenGrey; Conference Paper Index; Google Scholar; and eThos; searched using the Population-Intervention-Comparison-Outcome (PICO) framework. Primary studies with the following designs were included: randomized controlled trials (RCTs), non-RCTs; quasi-experimental; pre/post studies; and case studies. Results: This review included 11 studies out of 6197 studies that were identified from the literature search. Neuroimaging methods used were fMRI; scalp EEG; surface brain EEG; and deep brain EEG; where 10–15 Hz and the supplementary motor area were the most commonly targeted signatures for EEG and fMRI, respectively. Success rates for changing one’s brain activity ranged from 47% to 100%; however, both sample sizes and success criteria differed considerably between studies. While six studies included a clinical outcome; a lack of consistent assessments prevented a reliable conclusion on neurofeedback’s effectiveness. Narratively, fMRI neurofeedback has the greatest potential to improve PD motor symptoms. Two main limitations were found in the studies that contributed to the lack of a confident conclusion: (1) insufficient clinical information and perspectives (e.g., no reporting of adverse events), and (2) limitations in numerical data reporting (e.g., lack of explicit statistics) that prevented a meta-analysis. Conclusions: While fMRI neurofeedback was narratively the most effective treatment; the omission of clinical outcome measures in studies using other neurofeedback approaches limits comparison. Therefore, no single neurofeedback type can currently be identified as an optimal treatment for PD motor symptoms. This systematic review highlights the need to improve the inclusion of clinical information and more robust reporting of numerical data in future work. Neurofeedback appears to hold great potential as a treatment for PD motor symptoms. However, this field is still in its infancy and needs high quality RCTs to establish its effectiveness. Review Registration: PROSPERO (ID: CRD42020191097)

Published

2021

18. Lupin Protein Isolate Structure Diversity in Frozen-Cast Foams: Effects of Transglutaminases and Edible Fats

Author

Elaine Berger Ceresino, Eva Johansson, Hélia Harumi Sato, Tomás S. Plivelic, Stephen A. Hall, Jürgen Bez, and Ramune Kuktaite

Subjects

linoleic acid, glycerol, lecithin, healthy additives, food structure, structure-function relationship, Organic chemistry, QD241-441

Abstract

This study addresses an innovative approach to generate aerated foods with appealing texture through the utilization of lupin protein isolate (LPI) in combination with edible fats. We show the impact of transglutaminases (TGs; SB6 and commercial), glycerol (Gly), soy lecithin (Lec) and linoleic acid (LA) on the micro- and nanostructure of health promoting solid foods created from LPI and fats blends. 3-D tomographic images of LPI with TG revealed that SB6 contributed to an exceptional bubble spatial organization. The inclusion of Gly and Lec decreased protein polymerization and also induced the formation of a porous layered material. LA promoted protein polymerization and formation of homogeneous thick layers in the LPI matrix. Thus, the LPI is a promising protein resource which when in blend with additives is able to create diverse food structures. Much focus has been placed on the great foamability of LPI and here we show the resulting microstructure of LPI foams, and how these were improved with addition of TGs. New food applications for LPI can arise with the addition of food grade dispersant Lec and essential fatty-acid LA, by improved puffiness, and their contributing as replacer of chemical leavening additives in gluten-free products.

Published

2021

19. Sheep in Species-Rich Temperate Grassland: Combining Behavioral Observations with Vegetation Characterization

Author

Stephen J.G. Hall, Robert G.H. Bunce, David R. Arney, and Elis Vollmer

Subjects

feeding behavior, vegetation analysis, video recording, grazing, pasture, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Foraging behavior of livestock in species-rich, less intensively managed grassland communities will require different methodologies from those appropriate in floristically simple environments. In this pilot study on sheep in species-rich grassland in northern Estonia, foraging behavior and the plant species of the immediate area grazed by the sheep were registered by continually-recording Go-Pro cameras. From three days of observation of five sheep (706 animal-minutes), foraging behavior was documented. Five hundred and thirty-six still images were sampled, and a plant species list was compiled for each. Each plant species was assigned a score indicating its location, in the ecophysiological sense, on the main environmental gradient. The scores of the plant species present were averaged for each image. Thus, the fine structure of foraging behavior could be studied in parallel with the vegetation of the precise area being grazed. As expected, there was considerable individual variation, and we characterized foraging behavior by quantifying the patterns of interspersion of grazing and non-grazing behaviors. This combination of behavior recording and vegetation classification could enable a numerical analysis of the responses of grazing livestock to vegetation conditions.

Published

2020

20. On the Interpretation of Instrumental Variables in the Presence of Specification Errors

Author

P.A.V.B. Swamy, George S. Tavlas, and Stephen G. Hall

Subjects

instrumental variables, generalized method of moments, random coefficient models, Economics as a science, HB71-74

Abstract

The method of instrumental variables (IV) and the generalized method of moments (GMM), and their applications to the estimation of errors-in-variables and simultaneous equations models in econometrics, require data on a sufficient number of instrumental variables that are both exogenous and relevant. We argue that, in general, such instruments (weak or strong) cannot exist.

Published

2015

21. On the Interpretation of Instrumental Variables in the Presence of Specification Errors: A Reply

Author

P.A.V.B. Swamy, Stephen G. Hall, George S. Tavlas, and Peter von zur Muehlen

Subjects

n/a, Economics as a science, HB71-74

Abstract

We appreciate the effort and thoughtfulness of Raunig’s (2017) attempted critique of Swamy et al. (2015).[...]

Published

2017

22. Gamma oscillatory amplitude encodes stimulus intensity in primary somatosensory cortex

Author

Holly Elizabeth Rossiter, Sian F Worthen, Caroline eWitton, Stephen D Hall, and Paul L Furlong

Subjects

Pain, gamma, electrical, primary somatosensory cortex, Stimulus intensity, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Gamma oscillations have previously been linked to pain perception and it has been hypothesised that they may have a potential role in encoding pain intensity. Stimulus response experiments have reported an increase in activity in the primary somatosensory cortex (SI) with increasing stimulus intensity, but the specific role of oscillatory dynamics in this change in activation remains unclear. In this study, Magnetoencephalography (MEG) was used to investigate the changes in cortical oscillations during 4 different intensities of a train of electrical stimuli to the right index finger, ranging from low sensation to strong pain. In those participants showing changes in evoked oscillatory gamma in SI during stimulation, the strength of the gamma power was found to increase with increasing stimulus intensity at both pain and sub-pain thresholds. These results suggest that evoked gamma oscillations in SI are not specific to pain but may have a role in encoding somatosensory stimulus intensity.

Published

2013

23. Removing Specification Errors from the Usual Formulation of Binary Choice Models

Author

P.A.V.B. Swamy, I-Lok Chang, Jatinder S. Mehta, William H. Greene, Stephen G. Hall, and George S. Tavlas

Subjects

binary choice models, specification errors, stochastic coefficients, Economics as a science, HB71-74

Abstract

We develop a procedure for removing four major specification errors from the usual formulation of binary choice models. The model that results from this procedure is different from the conventional probit and logit models. This difference arises as a direct consequence of our relaxation of the usual assumption that omitted regressors constituting the error term of a latent linear regression model do not introduce omitted regressor biases into the coefficients of the included regressors.

Published

2016

24. A Method for Measuring Treatment Effects on the Treated without Randomization

Author

P.A.V.B. Swamy, Stephen G. Hall, George S. Tavlas, I-Lok Chang, Heather D. Gibson, William H. Greene, and Jatinder S. Mehta

Subjects

causality, real-world relationship, unique error term, treatment effect, non-experimental situation, Economics as a science, HB71-74

Abstract

This paper contributes to the literature on the estimation of causal effects by providing an analytical formula for individual specific treatment effects and an empirical methodology that allows us to estimate these effects. We derive the formula from a general model with minimal restrictions, unknown functional form and true unobserved variables such that it is a credible model of the underlying real world relationship. Subsequently, we manipulate the model in order to put it in an estimable form. In contrast to other empirical methodologies, which derive average treatment effects, we derive an analytical formula that provides estimates of the treatment effects on each treated individual. We also provide an empirical example that illustrates our methodology.

Published

2016

25. Une enquête sur la race bovine Somba au Bénin

Author

Stephen J.G. Hall, L.K. Gnaho, and C. Meghen

Subjects

enquête, méthode d'élevage, productivité, commercialisation, génétique, bovin somba, bénin, togo, Animal culture, SF1-1100

Abstract

La race bovine Somba du Bénin et du Togo compte environ 25000 têtes et cet effectif est en diminution. Le système traditionnel d'élevage, basé sur les petits troupeaux familiaux, est en train d'être remplacé par les grands troupeaux collectifs sous gardiennage professionnel. La productivité globale de ce cheptel a été recherchée au moyen d'une enquête rapide dans des villages. Elle est comparable à celle des autres races de taurins à courtes cornes de l'Afrique occidentale. Le taux d'exploitation est de 8,12 veaux/100 vaches/an. Le taux de survie des jeunes semble meilleur chez les troupeaux collectifs ; les veaux en surnombre sont conservés pour accroître la taille des troupeaux, plutôt que commercialisés. Les études génétiques indiquent que la race Somba n'est guère affectée par le métissage. La conservation de cette race est recommandée et le développement du système traditionnel d'élevage est à encourager.

Published

1995

26. Layer 4 pyramidal neuron dendritic bursting underlies a post-stimulus visual cortical alpha rhythm

Author

Natalie E Adams, Roger D. Traub, Karen Hawkins, Miles A. Whittington, Anna Simon, and Stephen P Hall

Subjects

Male, 0301 basic medicine, Population, Medicine (miscellaneous), Sensory system, Stimulus (physiology), Receptors, N-Methyl-D-Aspartate, Neural circuits, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Bursting, 0302 clinical medicine, Animals, Rats, Wistar, education, lcsh:QH301-705.5, Visual Cortex, education.field_of_study, Network models, Chemistry, GABAA receptor, Pyramidal Cells, Dendrites, Receptors, GABA-A, Rats, Alpha Rhythm, Electrophysiology, 030104 developmental biology, lcsh:Biology (General), nervous system, Excitatory postsynaptic potential, NMDA receptor, General Agricultural and Biological Sciences, Neuroscience, 030217 neurology & neurosurgery

Abstract

Alpha rhythms (9–11 Hz) are a dominant feature of EEG recordings, particularly over occipital cortex on cessation of a visual stimulation. Little is known about underlying neocortical mechanisms so here we constructed alpha rhythm models that follow cessation of cortical stimulation. The rhythm manifests following a period of gamma frequency activity in local V1 networks in layer 4. It associates with network level bias of excitatory synaptic activity in favour of NMDA- rather than AMPA-mediated signalling and reorganisation of synaptic inhibition in favour of fast GABAA receptor-mediated events. At the cellular level the alpha rhythm depended upon the generation of layer 4 pyramidal neuron dendritic bursting mediated primarily by PPDA-sensitive NR2C/D-containing NMDA receptors, which lack the magnesium-dependent open channel block. Subthreshold potassium conductances are also critical. The rhythm dynamically filters outputs from sensory relay neurons (stellate neurons in layer 4) such that they become temporally uncoupled from downstream population activity., The authors combine computational and electrophysiological approaches to study the neocortical mechanisms underlying alpha rhythms generated after visual stimuli cessation. They show that layer 4 pyramidal neuron bursting, as well as a shift towards NMDA- and GABAA- receptor transmission is critical for the generation of these alpha oscillations.

Published

2020

27. Literature based drug interaction prediction with clinical assessment using electronic medical records: novel myopathy associated drug interactions.

Author

Jon D Duke, Xu Han, Zhiping Wang, Abhinita Subhadarshini, Shreyas D Karnik, Xiaochun Li, Stephen D Hall, Yan Jin, J Thomas Callaghan, Marcus J Overhage, David A Flockhart, R Matthew Strother, Sara K Quinney, and Lang Li

Subjects

Biology (General), QH301-705.5

Abstract

Drug-drug interactions (DDIs) are a common cause of adverse drug events. In this paper, we combined a literature discovery approach with analysis of a large electronic medical record database method to predict and evaluate novel DDIs. We predicted an initial set of 13197 potential DDIs based on substrates and inhibitors of cytochrome P450 (CYP) metabolism enzymes identified from published in vitro pharmacology experiments. Using a clinical repository of over 800,000 patients, we narrowed this theoretical set of DDIs to 3670 drug pairs actually taken by patients. Finally, we sought to identify novel combinations that synergistically increased the risk of myopathy. Five pairs were identified with their p-values less than 1E-06: loratadine and simvastatin (relative risk or RR = 1.69); loratadine and alprazolam (RR = 1.86); loratadine and duloxetine (RR = 1.94); loratadine and ropinirole (RR = 3.21); and promethazine and tegaserod (RR = 3.00). When taken together, each drug pair showed a significantly increased risk of myopathy when compared to the expected additive myopathy risk from taking either of the drugs alone. Based on additional literature data on in vitro drug metabolism and inhibition potency, loratadine and simvastatin and tegaserod and promethazine were predicted to have a strong DDI through the CYP3A4 and CYP2D6 enzymes, respectively. This new translational biomedical informatics approach supports not only detection of new clinically significant DDI signals, but also evaluation of their potential molecular mechanisms.

Published

2012

28. Production Constraints and the NAIRU

Author

Ciaran Driver and Stephen G. Hall

Subjects

Social Sciences, Economics as a science, HB71-74

Published

2008

29. Production Constraints and the NAIRU

Author

Ciaran Driver and Stephen G. Hall

Subjects

Social Sciences, Economics as a science, HB71-74

Published

2007

30. Insoluble Aβ overexpression in an App knock-in mouse model alters microstructure and gamma oscillations in the prefrontal cortex, affecting anxiety-related behaviours

Author

Colin Lever, Eleftheria Pervolaraki, Denise Foresteire, Stephen P Hall, Takashi Saito, James Dachtler, Miles A. Whittington, and Takaomi C. Saido

Subjects

0301 basic medicine, Elevated plus maze, Amyloid beta, Neuroscience (miscellaneous), Medicine (miscellaneous), lcsh:Medicine, Anxiety, Amygdala, Prefrontal cortex, General Biochemistry, Genetics and Molecular Biology, Open field, 03 medical and health sciences, 0302 clinical medicine, Social, Immunology and Microbiology (miscellaneous), AppNL-G-F knock-in mice, medicine, lcsh:Pathology, Gamma oscillations, Thigmotaxis, biology, lcsh:R, Alzheimer's disease, 030104 developmental biology, medicine.anatomical_structure, Anxiogenic, Disinhibition, biology.protein, medicine.symptom, Neuroscience, 030217 neurology & neurosurgery, lcsh:RB1-214

Abstract

We studied a new amyloid-beta precursor protein (App) knock-in mouse model of Alzheimer's disease (AppNL-G-F ), containing the Swedish KM670/671NL mutation, the Iberian I716F mutation and the Artic E693G mutation, which generates elevated levels of amyloid beta (Aβ)40 and Aβ42 without the confounds associated with APP overexpression. This enabled us to assess changes in anxiety-related and social behaviours, and neural alterations potentially underlying such changes, driven specifically by Aβ accumulation. AppNL-G-F knock-in mice exhibited subtle deficits in tasks assessing social olfaction, but not in social motivation tasks. In anxiety-assessing tasks, AppNL-G-F knock-in mice exhibited: (1) increased thigmotaxis in the open field (OF), yet; (2) reduced closed-arm, and increased open-arm, time in the elevated plus maze (EPM). Their ostensibly anxiogenic OF profile, yet ostensibly anxiolytic EPM profile, could hint at altered cortical mechanisms affecting decision-making (e.g. 'disinhibition'), rather than simple core deficits in emotional motivation. Consistent with this possibility, alterations in microstructure, glutamatergic-dependent gamma oscillations and glutamatergic gene expression were all observed in the prefrontal cortex, but not the amygdala, of AppNL-G-F knock-in mice. Thus, insoluble Aβ overexpression drives prefrontal cortical alterations, potentially underlying changes in social and anxiety-related behavioural tasks.This article has an associated First Person interview with the first author of the paper.

Published

2019

31. Seizure initiation in infantile spasms vs. focal seizures: proposed common cellular mechanisms

Author

Roger D. Traub, Richard E. Rosch, Stephen P Hall, Miles A. Whittington, Friederike Moeller, and Torsten Baldeweg

Subjects

0301 basic medicine, medicine.medical_specialty, Spasm, Neurology, medicine.diagnostic_test, business.industry, General Neuroscience, Electrographic seizure, Alpha (ethology), Brain, Infant, Electroencephalography, Intracranial eeg, 03 medical and health sciences, Delta wave, 030104 developmental biology, 0302 clinical medicine, Seizures, medicine, Humans, business, Neuroscience, Spasms, Infantile, 030217 neurology & neurosurgery

Abstract

Infantile spasms (IS) and seizures with focal onset have different clinical expressions, even when electroencephalography (EEG) associated with IS has some degree of focality. Oddly, identical pathology (with, however, age-dependent expression) can lead to IS in one patient vs. focal seizures in another or even in the same, albeit older, patient. We therefore investigated whether the cellular mechanisms underlying seizure initiation are similar in the two instances: spasms vs. focal. We noted that in-common EEG features can include (i) a background of waves at alpha to delta frequencies; (ii) a period of flattening, lasting about a second or more – the electrodecrement (ED); and (iii) often an interval of very fast oscillations (VFO; ~70 Hz or faster) preceding, or at the beginning of, the ED. With IS, VFO temporally coincides with the motor spasm. What is different between the two conditions is this: with IS, the ED reverts to recurring slow waves, as occurring before the ED, whereas with focal seizures the ED instead evolves into an electrographic seizure, containing high-amplitude synchronized bursts, having superimposed VFO. We used in vitro data to help understand these patterns, as such data suggest cellular mechanisms for delta waves, for VFO, for seizure-related burst complexes containing VFO, and, more recently, for the ED. We propose a unifying mechanistic hypothesis – emphasizing the importance of brain pH – to explain the commonalities and differences of EEG signals in IS versus focal seizures.

Published

2019

32. Insoluble Aβ overexpression in an App knock-in mouse model alters microstructure and gamma oscillations in the prefrontal cortex, and social and anxiety-related behaviours

Author

Takaomi C. Saido, Colin Lever, James Dachtler, Miles A. Whittington, Eleftheria Pervolaraki, Stephen P Hall, Denise Foresteire, and Takashi Saito

Subjects

0303 health sciences, Elevated plus maze, Thigmotaxis, biology, Hippocampus, Amygdala, Open field, 03 medical and health sciences, Glutamatergic, 0302 clinical medicine, medicine.anatomical_structure, biology.protein, medicine, GRIN2B, Prefrontal cortex, Neuroscience, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

We studied two new App knock-in mice models of Alzheimer’s disease (AppNL-F and AppNL-G-F), which generate elevated levels of Aβ40 and Aβ42 without the confounds associated with APP overexpression. This enabled us to assess changes in anxiety-related and social behaviours, and neural alterations potentially underlying such changes, driven specifically by Aβ accumulation. AppNL-G-F knock-in mice exhibited subtle deficits in tasks assessing social memory, but not in social motivation tasks. In anxiety-assessing tasks, AppNL-G-F knock-in mice exhibited: 1) increased thigmotaxis in the Open Field (OF), yet; 2) reduced closed-arm, and increased open-arm, time in the Elevated Plus Maze (EPM). Their ostensibly-anxiogenic OF profile, yet ostensibly-anxiolytic EPM profile, could hint at altered cortical mechanisms affecting decision-making (e.g. ‘disinhibition’), rather than simple core deficits in emotional motivation. Consistent with this possibility, alterations in microstructure, glutamatergic-dependent gamma oscillations, and glutamatergic gene expression were all observed in the prefrontal cortex, but not the amygdala, of AppNL-G-F knock-in mice. Thus, insoluble Aβ overexpression drives prefrontal cortical alterations, potentially underlying changes in social and anxiety-related behavioural tasks.HighlightsAppNL-G-F KI mice displayed differing anxiety behaviours in two tests of anxiety.Prefrontal gamma was no longer NMDA-receptor dependent in AppNL-G-F KI mice.Prefrontal expression of Grin2b was reduced in AppNL-G-F KI mice.DTI found structural alterations in the hippocampus and prefrontal cortex in AppNL-G-F KI mice.

Published

2018

33. Levetiracetam and Rufinamide are effective at supressing spike and wave seizure activity in an in vitro model of absence epilepsy

Author

V Todorova, G Ford, Stephen P Hall, Miles A. Whittington, and Roger D. Traub

Subjects

Phenytoin, 0303 health sciences, Valproic Acid, business.industry, Spike-and-wave, Rufinamide, Pharmacology, medicine.disease, 3. Good health, In vitro model, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Ethosuximide, medicine, Levetiracetam, business, 030217 neurology & neurosurgery, 030304 developmental biology, medicine.drug

Abstract

Spike-and-wave discharges (SpW) are seen in absence-type epilepsies. They are heterogeneous in terms of their clinical burden and their electrographic signature, which is used to classify different types of absence seizures; typical absence, in which SpW frequency is 3-4Hz and atypical absence, which shows a slower 1-2Hz frequency. Treatment of SpW varies dependent upon the syndrome, but both Valproic Acid (VPA) and Ethosuximide (ESM) are shown to be effective in controlling typical absence seizures. Other anti-epileptic′s (AED′s), Levetiracetam (LEV) and Rufinamide (RUF), have shown promise in treating absence epilepsies and their associated syndromes. Here we examine the efficacy of these AED′s on an in vitro model of SpW. Both LEV and RUF show an effective reduction in both the number of SpW events and the spike component amplitude; VPA shows no effect, whilst ESM enhances the spike amplitude. Phenytoin exacerbates the SpW activity, increasing both the number of SpW, amplitude of the SpW and the number of spikes within each event. These data suggest that both LEV and RUF could be effective in the treatment of absence-type epilepsies. They also suggest this model could be an effective tool to test other AED′s aimed at treating atypical absence syndromes. Key Words: Absence epilepsy, Anti-epileptic Drugs, Spike-and-Wave, Levetiracetam, Rufinamide

Published

2018

34. Enhanced interlaminar excitation or reduced superficial layer inhibition in neocortex generates different spike-and-wave-like electrographic events in vitro

Author

Stephen P, Hall, Roger D, Traub, Natalie E, Adams, Mark O, Cunningham, Ian, Schofield, Alistair J, Jenkins, and Miles A, Whittington

Subjects

Male, Epilepsy, Excitatory Postsynaptic Potentials, Neocortex, Neural Inhibition, Middle Aged, synaptic inhibition, synaptic excitation, Rats, spike and wave event, Delta Rhythm, Animals, Humans, GABAergic Neurons, Rats, Wistar, Child, Research Article

Abstract

Acute in vitro models have revealed a great deal of information about mechanisms underlying many types of epileptiform activity. However, few examples exist that shed light on spike-and-wave (SpW) patterns of pathological activity. SpW are seen in many epilepsy syndromes, both generalized and focal, and manifest across the entire age spectrum. They are heterogeneous in terms of their severity, symptom burden, and apparent anatomical origin (thalamic, neocortical, or both), but any relationship between this heterogeneity and underlying pathology remains elusive. In this study we demonstrate that physiological delta-frequency rhythms act as an effective substrate to permit modeling of SpW of cortical origin and may help to address this issue. For a starting point of delta activity, multiple subtypes of SpW could be modeled computationally and experimentally by either enhancing the magnitude of excitatory synaptic events ascending from neocortical layer 5 to layers 2/3 or selectively modifying superficial layer GABAergic inhibition. The former generated SpW containing multiple field spikes with long interspike intervals, whereas the latter generated SpW with short-interval multiple field spikes. Both types had different laminar origins and each disrupted interlaminar cortical dynamics in a different manner. A small number of examples of human recordings from patients with different diagnoses revealed SpW subtypes with the same temporal signatures, suggesting that detailed quantification of the pattern of spikes in SpW discharges may be a useful indicator of disparate underlying epileptogenic pathologies. NEW & NOTEWORTHY Spike-and-wave-type discharges (SpW) are a common feature in many epilepsies. Their electrographic manifestation is highly varied, as are available genetic clues to associated underlying pathology. Using computational and in vitro models, we demonstrate that distinct subtypes of SpW are generated by lamina-selective disinhibition or enhanced interlaminar excitation. These subtypes could be detected in at least some noninvasive patient recordings, suggesting more detailed analysis of SpW may be useful in determining clinical pathology.

Published

2017

35. Setting the course for UK operational oceanography

Author

Stephen P. Hall, M.J. Bell, T.H. Guymer, Roland J. Rogers, J.D. Turton, and B.A. MacKenzie

Subjects

Engineering management, Engineering, Operations research, business.industry, Operational oceanography, Oceanography, business, Course (navigation)

Abstract

This paper reviews the present status of operational oceanography capabilities within the UK and expected developments within the next 5 to 10 years. Also summarised are the present arrangements fo...

Published

2013

36. Quantitative Structure–Activity RelationshipModels of Clinical Pharmacokinetics: Clearance and Volume of Distribution.

Author

Vijay K. Gombar and Stephen D. Hall

Published

2013

37. Distribution of Coexisting Solid and Fluid Phases Alters the Kinetics of Collapse from Phospholipid Monolayers.

Author

Wenfei Yan and Stephen B. Hall

Published

2006

38. Reducing the Social Gradient in Uptake of the NHS Colorectal Cancer Screening Programme Using a Narrative-Based Information Leaflet: A Cluster-Randomised Trial

Author

Lesley M. McGregor, Christian von Wagner, Wendy Atkin, Ines Kralj-Hans, Stephen P. Halloran, Graham Handley, Richard F. Logan, Sandra Rainbow, Steve Smith, Julia Snowball, Mary C. Thomas, Samuel G. Smith, Gemma Vart, Rosemary Howe, Nicholas Counsell, Allan Hackshaw, Stephen Morris, Stephen W. Duffy, Rosalind Raine, and Jane Wardle

Subjects

Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Objective. To test the effectiveness of adding a narrative leaflet to the current information material delivered by the NHS English colorectal cancer (CRC) screening programme on reducing socioeconomic inequalities in uptake. Participants. 150,417 adults (59–74 years) routinely invited to complete the guaiac Faecal Occult Blood test (gFOBt) in March 2013. Design. A cluster randomised controlled trial (ISRCTN74121020) to compare uptake between two arms. The control arm received the standard NHS CRC screening information material (SI) and the intervention arm received the standard information plus a supplementary narrative leaflet, which had previously been shown to increase screening intentions (SI + N). Between group comparisons were made for uptake overall and across socioeconomic status (SES). Results. Uptake was 57.7% and did not differ significantly between the two trial arms (SI: 58.5%; SI + N: 56.7%; odds ratio = 0.93; 95% confidence interval: 0.81–1.06; p=0.27). There was no interaction between group and SES quintile (p=0.44). Conclusions. Adding a narrative leaflet to existing information materials does not reduce the SES gradient in uptake. Despite the benefits of using a pragmatic trial design, the need to add to, rather than replace, existing information may have limited the true value of an evidence-based intervention on behaviour.

Published

2016

39. The Hydration State of Bone Tissue Affects Contrast in Neutron Tomographic Images

Author

Elin Törnquist, Sophie Le Cann, Alessandro Tengattini, Lukas Helfen, Joeri Kok, Stephen A. Hall, and Hanna Isaksson

Subjects

neutron tomography, rat tibiae, trabecular bovine bone, image quality, heavy water, Biotechnology, TP248.13-248.65

Abstract

Neutron tomography has emerged as a promising imaging technique for specific applications in bone research. Neutrons have a strong interaction with hydrogen, which is abundant in biological tissues, and they can penetrate through dense materials such as metallic implants. However, in addition to long imaging times, two factors have led to challenges in running in situ mechanical characterization experiments on bone tissue using neutron tomography: 1) the high water content in specimens reduces the visibility of internal trabecular structures; 2) the mechanical properties of bone are dependent on the hydration state of the tissue, with drying being reported to cause increased stiffness and brittleness. This study investigates the possibility of improving image quality in terms of neutron transmission and contrast between material phases by drying and rehydrating in heavy water. Rat tibiae and trabecular bovine bone plugs were imaged with neutron tomography at different hydration states and mechanical testing of the bone plugs was carried out to assess effects of drying and rehydration on the mechanical properties of bone. From analysis of image histograms, it was found that drying reduced the contrast between bone and soft tissue, but the contrast was restored with rehydration. Contrast-to-noise ratios and line profiles revealed that the contrast between bone tissue and background was reduced with increasing rehydration duration but remained sufficient for identifying internal structures as long as no free liquid was present inside the specimen. The mechanical analysis indicated that the proposed fluid exchange protocol had no adverse effects on the mechanical properties.

Published

2022

40. Recommendations for the Design of Clinical Drug–Drug Interaction Studies With Itraconazole Using a Mechanistic Physiologically‐Based Pharmacokinetic Model

Author

Yuan Chen, Tamara D. Cabalu, Ernesto Callegari, Heidi Einolf, Lichuan Liu, Neil Parrott, Sheila Annie Peters, Edgar Schuck, Pradeep Sharma, Helen Tracey, Vijay V. Upreti, Ming Zheng, Andy Z.X. Zhu, and Stephen D. Hall

Subjects

Therapeutics. Pharmacology, RM1-950

Abstract

Regulatory agencies currently recommend itraconazole (ITZ) as a strong cytochrome P450 3A (CYP3A) inhibitor for clinical drug–drug interaction (DDI) studies. This work by an International Consortium for Innovation and Quality in Pharmaceutical Development working group (WG) is to develop and verify a mechanistic ITZ physiologically‐based pharmacokinetic model and provide recommendations for optimal DDI study design based on model simulations. To support model development and verification, in vitro and clinical PK data for ITZ and its metabolites were collected from WG member companies. The model predictions of ITZ DDIs with seven different CYP3A substrates were within the guest criteria for 92% of area under the concentration‐time curve ratios and 95% of maximum plasma concentration ratios, thus verifying the model for DDI predictions. The verified model was used to simulate various clinical DDI study scenarios considering formulation, duration of dosing, dose regimen, and food status to recommend the optimal design for maximal inhibitory effect by ITZ.

Published

2019

41. Physiologically‐Based Pharmacokinetic Modeling of Atorvastatin Incorporating Delayed Gastric Emptying and Acid‐to‐Lactone Conversion

Author

Bridget L. Morse, Jeffrey J. Alberts, Maria M. Posada, Jessica Rehmel, Anil Kolur, Lai San Tham, Corina Loghin, Kathleen M. Hillgren, Stephen D. Hall, and Gemma L. Dickinson

Subjects

Therapeutics. Pharmacology, RM1-950

Abstract

The drug–drug interaction profile of atorvastatin confirms that disposition is determined by cytochrome P450 (CYP) 3A4 and organic anion transporting polypeptides (OATPs). Drugs that affect gastric emptying, including dulaglutide, also affect atorvastatin pharmacokinetics (PK). Atorvastatin is a carboxylic acid that exists in equilibrium with a lactone form in vivo. The purpose of this work was to assess gastric acid–mediated lactone equilibration of atorvastatin and incorporate this into a physiologically‐based PK (PBPK) model to describe atorvastatin acid, lactone, and their major metabolites. In vitro acid‐to‐lactone conversion was assessed in simulated gastric fluid and included in the model. The PBPK model was verified with in vivo data including CYP3A4 and OATP inhibition studies. Altering the gastric acid–lactone equilibrium reproduced the change in atorvastatin PK observed with dulaglutide. The model emphasizes the need to include gastric acid–lactone conversion and all major atorvastatin‐related species for the prediction of atorvastatin PK.

Published

2019

42. Bone Damage Evolution Around Integrated Metal Screws Using X-Ray Tomography — in situ Pullout and Digital Volume Correlation

Author

Sophie Le Cann, Erika Tudisco, Magnus Tägil, Stephen A. Hall, and Hanna Isaksson

Subjects

X-ray tomography, bone, metallic screw, in situ loading, Digital Volume Correlation, Biotechnology, TP248.13-248.65

Abstract

Better understanding of the local deformation of the bone network around metallic implants subjected to loading is of importance to assess the mechanical resistance of the bone-implant interface and limit implant failure. In this study, four titanium screws were osseointegrated into rat tibiae for 4 weeks and screw pullout was conducted in situ under x-ray microtomography, recording macroscopic mechanical behavior and full tomographies at multiple load steps before failure. Images were analyzed using Digital Volume Correlation (DVC) to access internal displacement and deformation fields during loading. A repeatable failure pattern was observed, where a ∼300–500 μm-thick envelope of bone detached from the trabecular structure. Fracture initiated close to the screw tip and propagated along the implant surface, at a distance of around 500 μm. Thus, the fracture pattern appeared to be influenced by the microstructure of the bone formed closely around the threads, which confirmed that the model is relevant for evaluating the effect of pharmacological treatments affecting local bone formation. Moreover, cracks at the tibial plateau were identified by DVC analysis of the tomographic images acquired during loading. Moderate strains were first distributed in the trabecular bone, which localized into higher strains regions with subsequent loading, revealing crack-formation not evident in the tomographic images. The in situ loading methodology followed by DVC is shown to be a powerful tool to study internal deformation and fracture behavior of the newly formed bone close to an implant when subjected to loading. A better understanding of the interface failure may help improve the outcome of surgical implants.

Published

2020

43. Rates and causes of 30-day readmission and emergency room utilization following head and neck surgery

Author

Vincent Wu and Stephen F. Hall

Subjects

Rates, Causes, 30-day, Readmission, Emergency department, Otolaryngology, Surgery, RD1-811

Abstract

Abstract Background Unplanned returns to hospital are common, costly, and potentially avoidable. We aimed to investigate and characterize reasons for all-cause readmissions to hospital as in-patients (IPs) and visits to the Emergency Department (ED) within 30-days following patient discharge post head and neck surgery (HNS). Methods Retrospective case series with chart review. All patients within the Department of Otolaryngology – Head and Neck Surgery who underwent HNS for benign and malignant disease from January 1, 2010 to May 31, 2015 were identified. The electronic medical records of readmitted patients were reviewed for reasons of readmission, demographic data, and comorbidities. Results Following 1281 surgical cases, there were 41 (3.20%) IP readmissions and 109 (8.43%) ED visits within 30-days after discharge for HNS. For IP readmissions, most common causes included infection (26.8%), respiratory symptoms (17.1%), and pain (17.1%). Most common reasons for ED visits were for pain (31.5%), bleeding (17.6%), and infection (14.8%). Readmitted IPs had significantly higher health burden at pre-operative baseline as compared to patients who visited the ED when assessed with the American Society of Anesthesiology scores (p = 0.002) and the Cumulative Illness Rating Scale (p = 0.004). Conclusion Rate of 30-day IP readmission and ED utilization was 3.20 and 8.43%, respectively. Pain and infection were common causes for returns to hospital. Discharge planning may be improved to target common causes for post-surgical hospital visits in order to decrease readmission rates.

Published

2018

44. Learning from past experience: Yanukovych's implementation of authoritarianism after 2004

Author

Stephen G.F. Hall

Subjects

authoritarian learning, party of regions, Viktor Yanukovych, orange revolution, Euromaidan, Geography (General), G1-922, Political science

Abstract

This paper argues that an important concept of authoritarian learning is missing. This is how leaders learn from domestic experience. Using Yanukovych's defeat in the Orange Revolution, the paper illustrates how he adapted to stop a new Colour Revolution. Through using Party of Regions resources, Yanukovych improved his image, developed Party of Region's electoral success, controlled institutions and the political system, coerced the opposition, built-up security forces and pro-regime groups and created a family. While the paper finds that Yanukovych adapted to the failure of the Orange Revolution these adjustments contributed to the Euromaidan and the learning from domestic experience resulted in ultimate failure.

Published

2017

45. TomoWarp2: A local digital volume correlation code

Author

Erika Tudisco, Edward Andò, Rémi Cailletaud, and Stephen A. Hall

Subjects

Computer software, QA76.75-76.765

Abstract

TomoWarp2 is a Python based code that allows full-field vector displacements to be measured between 2D or 3D image sets, based on a local approach of Digital Image Correlation. These displacements can be used to calculate the complete 2D or 3D strain tensor field to study, for example, heterogeneous deformation responses of materials during loading. The code is provided with a GUI, and can handle different input and output formats. Moreover, new features can be implemented with the flexible code architecture. Keywords: Experimental mechanics, Full-field measurements, Image correlation

Published

2017

46. Bradykinesia Is Driven by Cumulative Beta Power During Continuous Movement and Alleviated by Gabaergic Modulation in Parkinson's Disease

Author

Emma J. Prokic, Ian M. Stanford, Gavin L. Woodhall, Adrian C. Williams, and Stephen D. Hall

Subjects

magnetoencephalography, oscillations, movement, GABA, zolpidem, Neurology. Diseases of the nervous system, RC346-429

Abstract

Spontaneous and “event-related” motor cortex oscillations in the beta (15–30 Hz) frequency range are well-established phenomena. However, the precise functional significance of these features is uncertain. An understanding of the specific function is of importance for the treatment of Parkinson's disease (PD), where attenuation of augmented beta throughout the motor network coincides with functional improvement. Previous research using a discrete movement task identified normalization of elevated spontaneous beta and postmovement beta rebound following GABAergic modulation. Here, we explore the effects of the gamma-aminobutyric acid type A modulator, zolpidem, on beta power during the performance of serial movement in 17 (15M, 2F; mean age, 66 ± 6.3 years) PD patients, using a repeated-measures, double-blinded, randomized, placebo-control design. Motor symptoms were monitored before and after treatment, using time-based Unified Parkinson's Disease Rating Scale measurements and beta oscillations in primary motor cortex (M1) were measured during a serial-movement task, using magnetoencephalography. We demonstrate that a cumulative increase in M1 beta power during a 10-s tapping trial is reduced following zolpidem, but not placebo, which is accompanied by an improvement in movement speed and efficacy. This work provides a clear mechanism for the generation of abnormally elevated beta power in PD and demonstrates that perimovement beta accumulation drives the slowing, and impaired initiation, of movement. These findings further indicate a role for GABAergic modulation in bradykinesia in PD, which merits further exploration as a therapeutic target.

Published

2019

47. Securing a Just Space for Small-Scale Fisheries in the Blue Economy

Author

Philippa J. Cohen, Edward H. Allison, Neil L. Andrew, Joshua Cinner, Louisa S. Evans, Michael Fabinyi, Len R. Garces, Stephen J. Hall, Christina C. Hicks, Terry P. Hughes, Svein Jentoft, David J. Mills, Rosalie Masu, Emmanuel K. Mbaru, and Blake D. Ratner

Subjects

Blue Growth, conservation, economic, development, human-rights, ocean governance, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The vast developmental opportunities offered by the world’s coasts and oceans have attracted the attention of governments, private enterprises, philanthropic organizations, and international conservation organizations. High-profile dialogue and policy decisions on the future of the ocean are informed largely by economic and ecological research. Key insights from the social sciences raise concerns for food and nutrition security, livelihoods and social justice, but these have yet to gain traction with investors and the policy discourse on transforming ocean governance. The largest group of ocean-users – women and men who service, fish and trade from small-scale fisheries (SSF) – argue that they have been marginalized from the dialogue between international environmental and economic actors that is determining strategies for the future of the ocean. Blue Economy or Blue Growth initiatives see the ocean as the new economic frontier and imply an alignment with social objectives and SSF concerns. Deeper analysis reveals fundamental differences in ideologies, priorities and approaches. We argue that SSF are being subtly and overtly squeezed for geographic, political and economic space by larger scale economic and environmental conservation interests, jeopardizing the substantial benefits SSF provide through the livelihoods of millions of women and men, for the food security of around four billion consumers globally, and in the developing world, as a key source of micro-nutrients and protein for over a billion low-income consumers. Here, we bring insights from social science and SSF to explore how ocean governance might better account for social dimensions of fisheries.

Published

2019

48. Investigating the Mechanical Characteristics of Bone-Metal Implant Interface Using in situ Synchrotron Tomographic Imaging

Author

Sophie Le Cann, Erika Tudisco, Mikael J. Turunen, Alessandra Patera, Rajmund Mokso, Magnus Tägil, Ola Belfrage, Stephen A. Hall, and Hanna Isaksson

Subjects

X-ray tomography, bone, metallic screw, in situ loading, synchrotron, Biotechnology, TP248.13-248.65

Abstract

Long-term stability of endosseous implants depends on successful bone formation, ingrowth and adaptation to the implant. Specifically, it will define the mechanical properties of the newly formed bone-implant interface. 3D imaging during mechanical loading tests (in situ loading) can improve the understanding of the local processes leading to bone damage and failure. In this study, titanium screws were implanted into rat tibiae and were allowed to integrate for 4 weeks with or without the addition of the growth factor Bone Morphogenetic Protein and the bisphosphonate Zoledronic Acid. Samples were subjected to in situ pullout using high-resolution synchrotron x-ray tomography at the Tomcat beamline (SLS, PSI, Switzerland) at 30 keV with 25 ms exposure time, resulting in a total acquisition time of 45 s per scan, with a 3.6 μm isotropic voxel size. Using a custom-made loading device positioned inside the beamline, screws were pulled out with 0.05 mm increment, acquiring multiple scans until rupture of the sample. The in situ loading protocol was adapted to ensure short imaging time, which enabled multiple samples to be tested with short loading steps, while keeping the total testing time low and reducing dose deposition. Higher trabecular bone content was quantified in the surrounding of the screw in the treated groups, which correlated with increased mechanical strength and stiffness. Differences in screw implantation, such as contact between threads and cortex as well as minor tilt of the screw were also correlated to the mechanical parameters. In situ loading enabled the investigation of crack propagation during the pullout, highlighting the mechanical behavior of the interface. Three typical crack types were observed: (1) rupture at the interface of trabecular and cortical bone tissues, close to the screw, (2) large crack inside the cortex connected to the implant, and (3) first failure away from the screw with cracks propagating toward the screw-bone interface. Mechanical properties of in vivo integrated bone-metal screws rely on a combination of multiple parameters that are difficult to identify and separate one from the other.

Published

2019

49. Spike firing and IPSPs in layer V pyramidal neurons during beta oscillations in rat primary motor cortex (M1) in vitro.

Author

Michael G Lacey, Gerard Gooding-Williams, Emma J Prokic, Naoki Yamawaki, Stephen D Hall, Ian M Stanford, and Gavin L Woodhall

Subjects

Medicine, Science

Abstract

Beta frequency oscillations (10-35 Hz) in motor regions of cerebral cortex play an important role in stabilising and suppressing unwanted movements, and become intensified during the pathological akinesia of Parkinson's Disease. We have used a cortical slice preparation of rat brain, combined with concurrent intracellular and field recordings from the primary motor cortex (M1), to explore the cellular basis of the persistent beta frequency (27-30 Hz) oscillations manifest in local field potentials (LFP) in layers II and V of M1 produced by continuous perfusion of kainic acid (100 nM) and carbachol (5 µM). Spontaneous depolarizing GABA-ergic IPSPs in layer V cells, intracellularly dialyzed with KCl and IEM1460 (to block glutamatergic EPSCs), were recorded at -80 mV. IPSPs showed a highly significant (P< 0.01) beta frequency component, which was highly significantly coherent with both the Layer II and V LFP oscillation (which were in antiphase to each other). Both IPSPs and the LFP beta oscillations were abolished by the GABAA antagonist bicuculline. Layer V cells at rest fired spontaneous action potentials at sub-beta frequencies (mean of 7.1+1.2 Hz; n = 27) which were phase-locked to the layer V LFP beta oscillation, preceding the peak of the LFP beta oscillation by some 20 ms. We propose that M1 beta oscillations, in common with other oscillations in other brain regions, can arise from synchronous hyperpolarization of pyramidal cells driven by synaptic inputs from a GABA-ergic interneuronal network (or networks) entrained by recurrent excitation derived from pyramidal cells. This mechanism plays an important role in both the physiology and pathophysiology of control of voluntary movement generation.

Published

2014

50. A Multimodal Perspective on the Composition of Cortical Oscillations.

Author

Kim C Ronnqvist, Craig J McAllister, Gavin L Woodhall, Ian M Stanford, and Stephen D Hall

Subjects

Beta Rhythm, Magnetoencephalography, connectivity, GABA, stimulation, oscillations, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

An expanding corpus of research details the relationship between functional magnetic resonance imaging (fMRI) measures and neuronal network oscillations. Typically, integrated electroencephalography (EEG) and fMRI, or parallel magnetoencephalography (MEG) and fMRI are used to draw inference about the consanguinity of BOLD and electrical measurements. However, there is a relative dearth of information about the relationship between E/MEG and the focal networks from which these signals emanate. Consequently, the genesis and composition of E/MEG oscillations requires further clarification.Here we aim to contribute to understanding through a series of parallel measurements of primary motor cortex (M1) oscillations, using human MEG and in-vitro rodent local field potentials. We compare spontaneous activity in the ~10Hz mu and 15-30Hz beta frequency ranges and compare MEG signals with independent and integrated layers III and V (LIII/LV) from in vitro recordings. We explore the mechanisms of oscillatory generation, using specific pharmacological modulation with the GABA-A alpha-1 subunit modulator zolpidem. Finally, to determine the contribution of cortico-cortical connectivity, we recorded in-vitro M1, during an incision to sever lateral connections between M1 and S1 cortices.We demonstrate that frequency distribution of MEG signals appear have closer statistically similarity with signals from integrated rather than independent LIII/LV laminae. GABAergic modulation in both modalities elicited comparable changes in the power of the beta band. Finally, cortico-cortical connectivity in SMC appears to directly influence the power of the mu rhythm in LIII.These findings suggest that the MEG signal is an amalgam of outputs from LIII and LV, that multiple frequencies can arise from the same cortical area and that in vitro and MEG M1 oscillations are driven by comparable mechanisms. Finally, cortico-cortical connectivity is reflected in the power of the SMC mu rhythm

Published

2013