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1. Feasibility of using intermittent active monitoring of vital signs by smartphone users to predict SARS-CoV-2 PCR positivity

Author

Nikola Dolezalova, Effrossyni Gkrania-Klotsas, Davide Morelli, Alex Moore, Adam C. Cunningham, Adam Booth, David Plans, Angus B. Reed, Mert Aral, Kirsten L. Rennie, and Nicholas J. Wareham

Subjects
Medicine, Science
Abstract

Abstract Early detection of highly infectious respiratory diseases, such as COVID-19, can help curb their transmission. Consequently, there is demand for easy-to-use population-based screening tools, such as mobile health applications. Here, we describe a proof-of-concept development of a machine learning classifier for the prediction of a symptomatic respiratory disease, such as COVID-19, using smartphone-collected vital sign measurements. The Fenland App study followed 2199 UK participants that provided measurements of blood oxygen saturation, body temperature, and resting heart rate. Total of 77 positive and 6339 negative SARS-CoV-2 PCR tests were recorded. An optimal classifier to identify these positive cases was selected using an automated hyperparameter optimisation. The optimised model achieved an ROC AUC of 0.695 ± 0.045. The data collection window for determining each participant’s vital sign baseline was increased from 4 to 8 or 12 weeks with no significant difference in model performance (F(2) = 0.80, p = 0.472). We demonstrate that 4 weeks of intermittently collected vital sign measurements could be used to predict SARS-CoV-2 PCR positivity, with applicability to other diseases causing similar vital sign changes. This is the first example of an accessible, smartphone-based remote monitoring tool deployable in a public health setting to screen for potential infections.

Published
2023
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2. Systematic, comprehensive, evidence-based approach to identify neuroprotective interventions for motor neuron disease: using systematic reviews to inform expert consensus

Author

Jeremy Chataway, Tim Soane, Suvankar Pal, Malcolm Macleod, Jing Liao, Fraser S Brown, Charis Wong, Ankur Singh, Gavin Langlands, Elizabeth Elliott, Jenna M Gregory, Siddharthan Chandran, Robert Swingler, Peter Connick, Suzanne Quigley, Peter Foley, Alexandra Thompson, Stella A Glasmacher, D Leighton, Arpan R Mehta, Aimal Ahmad Khan, John Cafferkey, Kieren Egan, Hanna M Vesterinen, Maarij Anwar, Caitlin Beagan, Alessandra Cardinali, Jane Yi Chiam, Claire Chiang, Victoria Collins, Joyce Dormido, Yu Cheng Foo, Lily Fulton-Humble, Angus B Gane, Áine Heffernan, Kiran Jayaprakash, Nimesh Jayasuriya, Amina Kaddouri, Jamie Kiernan, Jiaming Liu, James Lyon, Alyssa Meng, Vivienne Nguyen, Na Hyun Park, Yousuf Rashid, Andrea Salzinger, Bethany Shiell, Olaf Tomala, Fergal M Waldron, and Bhuvaneish T Selvaraj

Subjects
Medicine
Abstract

Objectives Motor neuron disease (MND) is an incurable progressive neurodegenerative disease with limited treatment options. There is a pressing need for innovation in identifying therapies to take to clinical trial. Here, we detail a systematic and structured evidence-based approach to inform consensus decision making to select the first two drugs for evaluation in Motor Neuron Disease-Systematic Multi-arm Adaptive Randomised Trial (MND-SMART: NCT04302870), an adaptive platform trial. We aim to identify and prioritise candidate drugs which have the best available evidence for efficacy, acceptable safety profiles and are feasible for evaluation within the trial protocol.Methods We conducted a two-stage systematic review to identify potential neuroprotective interventions. First, we reviewed clinical studies in MND, Alzheimer’s disease, Huntington’s disease, Parkinson’s disease and multiple sclerosis, identifying drugs described in at least one MND publication or publications in two or more other diseases. We scored and ranked drugs using a metric evaluating safety, efficacy, study size and study quality. In stage two, we reviewed efficacy of drugs in MND animal models, multicellular eukaryotic models and human induced pluripotent stem cell (iPSC) studies. An expert panel reviewed candidate drugs over two shortlisting rounds and a final selection round, considering the systematic review findings, late breaking evidence, mechanistic plausibility, safety, tolerability and feasibility of evaluation in MND-SMART.Results From the clinical review, we identified 595 interventions. 66 drugs met our drug/disease logic. Of these, 22 drugs with supportive clinical and preclinical evidence were shortlisted at round 1. Seven drugs proceeded to round 2. The panel reached a consensus to evaluate memantine and trazodone as the first two arms of MND-SMART.Discussion For future drug selection, we will incorporate automation tools, text-mining and machine learning techniques to the systematic reviews and consider data generated from other domains, including high-throughput phenotypic screening of human iPSCs.

Published
2023
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3. Examining the physical and psychological effects of combining multimodal feedback with continuous control in prosthetic hands

Author

Chappell, Digby, Yang, Zeyu, Clark, Angus B., Berkovic, Alexandre, Laganier, Colin, Baxter, Weston, Bello, Fernando, Kormushev, Petar, and Rojas, Nicolas

Subjects
Computer Science - Robotics
Abstract

Myoelectric prosthetic hands are typically controlled to move between discrete positions and do not provide sensory feedback to the user. In this work, we present and evaluate a closed-loop, continuous myoelectric prosthetic hand controller, that can continuously control the position of multiple degrees of freedom of a prosthesis while rendering proprioceptive feedback to the user via a haptic feedback armband. Twenty-eight participants without and ten participants with limb difference were recruited to holistically evaluate the physical and psychological effects of the controller via isolated control and sensory tasks, dexterity assessments, embodiment and task load questionnaires, and post-study interviews. The combination of proprioceptive feedback and continuous control enabled accurate positioning, to within 10% mean absolute motor position error, and grasp-force modulation, to within 20% mean absolute motor force error, and restored blindfolded object identification ability to open-loop discrete controller levels. Dexterity assessment and embodiment questionnaire results revealed no significant physical performance or psychological embodiment differences between control types, with the exception of perceived sensation, which was significantly higher (p < 0.001) for closed-loop controllers. Key differences between participants with and without upper limb difference were identified, including in perceived body completeness and frustration, which can inform future prosthesis development and rehabilitation., Comment: 17 pages, 5 figures, 1 table. Submitted to Scientific Reports

Published
2024

4. Machine learning approach to dynamic risk modeling of mortality in COVID-19: a UK Biobank study

Author

Mohammad A. Dabbah, Angus B. Reed, Adam T. C. Booth, Arrash Yassaee, Aleksa Despotovic, Benjamin Klasmer, Emily Binning, Mert Aral, David Plans, Davide Morelli, Alain B. Labrique, and Diwakar Mohan

Subjects
Medicine, Science
Abstract

Abstract The COVID-19 pandemic has created an urgent need for robust, scalable monitoring tools supporting stratification of high-risk patients. This research aims to develop and validate prediction models, using the UK Biobank, to estimate COVID-19 mortality risk in confirmed cases. From the 11,245 participants testing positive for COVID-19, we develop a data-driven random forest classification model with excellent performance (AUC: 0.91), using baseline characteristics, pre-existing conditions, symptoms, and vital signs, such that the score could dynamically assess mortality risk with disease deterioration. We also identify several significant novel predictors of COVID-19 mortality with equivalent or greater predictive value than established high-risk comorbidities, such as detailed anthropometrics and prior acute kidney failure, urinary tract infection, and pneumonias. The model design and feature selection enables utility in outpatient settings. Possible applications include supporting individual-level risk profiling and monitoring disease progression across patients with COVID-19 at-scale, especially in hospital-at-home settings.

Published
2021
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5. V-type H+-ATPase in the symbiosome membrane is a conserved mechanism for host control of photosynthesis in anthozoan photosymbioses

Author

Katie L. Barott, Angus B. Thies, and Martin Tresguerres

Subjects
carbon concentrating mechanism, sea anemone, Symbiodiniaceae, Science
Abstract

In reef-building corals (order Scleractinia) and giant clams (phylum Molluca), V-type H+-ATPase (VHA) in host cells is part of a carbon concentrating mechanism (CCM) that regulates photosynthetic rates of their symbiotic algae. Here, we show that VHA plays a similar role in the sea anemone Anemonia majano, a member of the order Actinaria and sister group to the Scleractinia, which in contrast to their colonial calcifying coral relatives is a solitary, soft-bodied taxa. Western blotting and immunofluorescence revealed that VHA was abundantly present in the host-derived symbiosome membrane surrounding the photosymbionts. Pharmacological inhibition of VHA activity in individual anemones resulted in an approximately 80% decrease of photosynthetic O2 production. These results extend the presence of a host-controlled VHA-dependent CCM to non-calcifying cnidarians of the order Actiniaria, suggesting it is widespread among photosymbiosis between aquatic invertebrates and Symbiodiniaceae algae.

Published
2022
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6. Malleable Robots: Reconfigurable Robotic Arms with Continuum Links of Variable Stiffness

Author

Clark, Angus B. and Rojas, Nicolas

Subjects
Computer Science - Robotics
Abstract

Through the implementation of reconfigurability to achieve flexibility and adaptation to tasks by morphology changes rather than by increasing the number of joints, malleable robots present advantages over traditional serial robot arms in regards to reduced weight, size, and cost. While limited in degrees of freedom (DOF), malleable robots still provide versatility across operations typically served by systems using higher DOF than required by the tasks. In this paper, we present the creation of a 2-DOF malleable robot, detailing the design of joints and malleable link, along with its modelling through forward and inverse kinematics, and a reconfiguration methodology that informs morphology changes based on end effector location -- determining how the user should reshape the robot to enable a task previously unattainable. The recalibration and motion planning for making robot motion possible after reconfiguration are also discussed, and thorough experiments with the prototype to evaluate accuracy and reliability of the system are presented. Results validate the approach and pave the way for further research in the area., Comment: 18 pages, 24 figures

Published
2024
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7. Stiffness-Tuneable Limb Segment with Flexible Spine for Malleable Robots

Author

Clark, Angus B. and Rojas, Nicolas

Subjects
Computer Science - Robotics
Abstract

Robotic arms built from stiffness-adjustable, continuously bending segments serially connected with revolute joints have the ability to change their mechanical architecture and workspace, thus allowing high flexibility and adaptation to different tasks with less than six degrees of freedom, a concept that we call malleable robots. Known stiffening mechanisms may be used to implement suitable links for these novel robotic manipulators; however, these solutions usually show a reduced performance when bending due to structural deformation. By including an inner support structure this deformation can be minimised, resulting in an increased stiffening performance. This paper presents a new multi-material spine-inspired flexible structure for providing support in stiffness-controllable layer-jamming-based robotic links of large diameter. The proposed spine mechanism is highly movable with type and range of motions that match those of a robotic link using solely layer jamming, whilst maintaining a hollow and light structure. The mechanics and design of the flexible spine are explored, and a prototype of a link utilising it is developed and compared with limb segments based on granular jamming and layer jamming without support structure. Results of experiments verify the advantages of the proposed design, demonstrating that it maintains a constant central diameter across bending angles and presents an improvement of more than 203% of resisting force at 180 degrees., Comment: 7 pages, 11 figures

Published
2024
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8. An Origami-Inspired Variable Friction Surface for Increasing the Dexterity of Robotic Grippers

Author

Lu, Qiujie, Clark, Angus B., Shen, Matthew, and Rojas, Nicolas

Subjects
Computer Science - Robotics
Abstract

While the grasping capability of robotic grippers has shown significant development, the ability to manipulate objects within the hand is still limited. One explanation for this limitation is the lack of controlled contact variation between the grasped object and the gripper. For instance, human hands have the ability to firmly grip object surfaces, as well as slide over object faces, an aspect that aids the enhanced manipulation of objects within the hand without losing contact. In this letter, we present a parametric, origami-inspired thin surface capable of transitioning between a high friction and a low friction state, suitable for implementation as an epidermis in robotic fingers. A numerical analysis of the proposed surface based on its design parameters, force analysis, and performance in in-hand manipulation tasks is presented. Through the development of a simple two-fingered two-degree-of-freedom gripper utilizing the proposed variable-friction surfaces with different parameters, we experimentally demonstrate the improved manipulation capabilities of the hand when compared to the same gripper without changeable friction. Results show that the pattern density and valley gap are the main parameters that effect the in-hand manipulation performance. The origami-inspired thin surface with a higher pattern density generated a smaller valley gap and smaller height change, producing a more stable improvement of the manipulation capabilities of the hand., Comment: 8 pages, 11 figures

Published
2024
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9. C9ORF72 repeat expansion causes vulnerability of motor neurons to Ca2+-permeable AMPA receptor-mediated excitotoxicity

Author

Bhuvaneish T. Selvaraj, Matthew R. Livesey, Chen Zhao, Jenna M. Gregory, Owain T. James, Elaine M. Cleary, Amit K. Chouhan, Angus B. Gane, Emma M. Perkins, Owen Dando, Simon G. Lillico, Youn-Bok Lee, Agnes L. Nishimura, Urjana Poreci, Sai Thankamony, Meryll Pray, Navneet A. Vasistha, Dario Magnani, Shyamanga Borooah, Karen Burr, David Story, Alexander McCampbell, Christopher E. Shaw, Peter C. Kind, Timothy J. Aitman, C. Bruce A. Whitelaw, Ian Wilmut, Colin Smith, Gareth B. Miles, Giles E. Hardingham, David J. A. Wyllie, and Siddharthan Chandran

Subjects
Science
Abstract

Repeat expansion mutation in C9ORF72 is the most common cause of familial ALS. Here, the authors generate motor neurons from cells of patients with C9ORF72 mutations, and characterize changes in gene expression in these motor neurons compared to genetically corrected lines, which suggest that glutamate receptor subunit GluA1 is dysregulated in this form of ALS.

Published
2018
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10. Increased Stability and Breakdown of Brain Effective Connectivity During Slow-Wave Sleep: Mechanistic Insights from Whole-Brain Computational Modelling

Author

Beatrice M. Jobst, Rikkert Hindriks, Helmut Laufs, Enzo Tagliazucchi, Gerald Hahn, Adrián Ponce-Alvarez, Angus B. A. Stevner, Morten L. Kringelbach, and Gustavo Deco

Subjects
Medicine, Science
Abstract

Abstract Recent research has found that the human sleep cycle is characterised by changes in spatiotemporal patterns of brain activity. Yet, we are still missing a mechanistic explanation of the local neuronal dynamics underlying these changes. We used whole-brain computational modelling to study the differences in global brain functional connectivity and synchrony of fMRI activity in healthy humans during wakefulness and slow-wave sleep. We applied a whole-brain model based on the normal form of a supercritical Hopf bifurcation and studied the dynamical changes when adapting the bifurcation parameter for all brain nodes to best match wakefulness and slow-wave sleep. Furthermore, we analysed differences in effective connectivity between the two states. In addition to significant changes in functional connectivity, synchrony and metastability, this analysis revealed a significant shift of the global dynamic working point of brain dynamics, from the edge of the transition between damped to sustained oscillations during wakefulness, to a stable focus during slow-wave sleep. Moreover, we identified a significant global decrease in effective interactions during slow-wave sleep. These results suggest a mechanism for the empirical functional changes observed during slow-wave sleep, namely a global shift of the brain’s dynamic working point leading to increased stability and decreased effective connectivity.

Published
2017
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11. The importance of sampling frames in representative historical corpora : a case study of Parisian theater

Author

Angus B. Grieve-Smith

Subjects
Language change, French language, corpus design, sampling, usage-based, type frequency, Philology. Linguistics, P1-1091
Abstract

Cognitive linguistics makes specific claims about language use, and corpora are our most powerful tool to test those claims. Representative sampling (Laplace 1814) is a technique that allows us to study smaller, more manageable corpora, and generalize our results to a broader sampling frame. For a sampled corpus to be relevant to our research questions, its sampling frame must have an understandable connection to the subject of our research question.In my dissertation study (Grieve-Smith 2009) I tested the type frequency hypothesis of analogical extension (Bybee 1995) using the FRANTEXT corpus (CNRTL 2018). In this study I test the theatrical texts in FRANTEXT from 1800-1815 against the new Digital Parisian Stage corpus, sampled from Wicks (1950 et seq.), a catalog of every play that premiered in Paris in the nineteenth century. Declarative sentence negations in the Digital Parisian Stage corpus occurred with ne … pas in 73.9 % of tokens, while in FRANTEXT they only occurred with ne … pas in 50.5 % of tokens. This shows that FRANTEXT is biased in favor of elite literary language. To properly test usage-based theories of language change we will need a representative corpus covering a century or more.

Published
2019
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12. A vesicular Na+/Ca2+ exchanger in coral calcifying cells.

Author

Megan E Barron, Angus B Thies, Jose A Espinoza, Katie L Barott, Amro Hamdoun, and Martin Tresguerres

Subjects
Medicine, Science
Abstract

The calcium carbonate skeletons of corals provide the underlying structure of coral reefs; however, the cellular mechanisms responsible for coral calcification remain poorly understood. In osteoblasts from vertebrate animals, a Na+/Ca2+ exchanger (NCX) present in the plasma membrane transports Ca2+ to the site of bone formation. The aims of this study were to establish whether NCX exists in corals and its localization within coral cells, which are essential first steps to investigate its potential involvement in calcification. Data mining identified genes encoding for NCX proteins in multiple coral species, a subset of which were more closely related to NCXs from vertebrates (NCXA). We cloned NCXA from Acropora yongei (AyNCXA), which, unexpectedly, contained a peptide signal that targets proteins to vesicles from the secretory pathway. AyNCXA subcellular localization was confirmed by heterologous expression of fluorescently tagged AyNCXA protein in sea urchin embryos, which localized together with known markers of intracellular vesicles. Finally, immunolabeling of coral tissues with specific antibodies revealed AyNCXA was present throughout coral tissue. AyNCXA was especially abundant in calcifying cells, where it exhibited a subcellular localization pattern consistent with intracellular vesicles. Altogether, our results demonstrate AyNCXA is present in vesicles in coral calcifying cells, where potential functions include intracellular Ca2+ homeostasis and Ca2+ transport to the growing skeleton as part of an intracellular calcification mechanism.

Published
2018
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13. Soluble adenylyl cyclase coordinates intracellular pH homeostasis and biomineralization in calcifying cells of a marine animal

Author

Chang, William Weijen, Thies, Angus B, Tresguerres, Martin, and Hu, Marian Y

Subjects
Life Below Water, Animals, Biomineralization, Adenylyl Cyclases, Hydrogen-Ion Concentration, Acid-Base Equilibrium, Homeostasis, Sea Urchins, calci fi cation, cAMP, ocean acidi fi cation, primary mesenchyme cells, skeletogenesis, calcification, ocean acidification, Biochemistry and Cell Biology, Physiology, Medical Physiology
Abstract

Biomineralizing cells concentrate dissolved inorganic carbon (DIC) and remove protons from the site of mineral precipitation. However, the molecular regulatory mechanisms that orchestrate pH homeostasis and biomineralization of calcifying cells are poorly understood. Here, we report that the acid-base sensing enzyme soluble adenylyl cyclase (sAC) coordinates intracellular pH (pHi) regulation in the calcifying primary mesenchyme cells (PMCs) of sea urchin larvae. Single-cell transcriptomics, in situ hybridization, and immunocytochemistry elucidated the spatiotemporal expression of sAC during skeletogenesis. Live pHi imaging of PMCs revealed that the downregulation of sAC activity with two structurally unrelated small molecules inhibited pHi regulation of PMCs, an effect that was rescued by the addition of cell-permeable cAMP. Pharmacological sAC inhibition also significantly reduced normal spicule growth and spicule regeneration, establishing a link between PMC pHi regulation and biomineralization. Finally, increased expression of sAC mRNA was detected during skeleton remineralization and exposure to CO2-induced acidification. These findings suggest that transcriptional regulation of sAC is required to promote remineralization and to compensate for acidic stress. This work highlights the central role of sAC in coordinating acid-base regulation and biomineralization in calcifying cells of a marine animal.

Published
2023

15. A Rhesus channel in the coral symbiosome membrane suggests a novel mechanism to regulate NH3 and CO2 delivery to algal symbionts

Author

Thies, Angus B, Quijada-Rodriguez, Alex R, Zhouyao, Haonan, Weihrauch, Dirk, and Tresguerres, Martin

Subjects
1.1 Normal biological development and functioning, Underpinning research, Animals, Anthozoa, Carbon Dioxide, Coral Reefs, Dinoflagellida, Nitrogen, Symbiosis
Abstract

Reef-building corals maintain an intracellular photosymbiotic association with dinoflagellate algae. As the algae are hosted inside the symbiosome, all metabolic exchanges must take place across the symbiosome membrane. Using functional studies in Xenopus oocytes, immunolocalization, and confocal Airyscan microscopy, we established that Acropora yongei Rh (ayRhp1) facilitates transmembrane NH3 and CO2 diffusion and that it is present in the symbiosome membrane. Furthermore, ayRhp1 abundance in the symbiosome membrane was highest around midday and lowest around midnight. We conclude that ayRhp1 mediates a symbiosomal NH4+-trapping mechanism that promotes nitrogen delivery to algae during the day-necessary to sustain photosynthesis-and restricts nitrogen delivery at night-to keep algae under nitrogen limitation. The role of ayRhp1-facilitated CO2 diffusion is less clear, but it may have implications for metabolic dysregulation between symbiotic partners and bleaching. This previously unknown mechanism expands our understanding of symbioses at the immediate animal-microbe interface, the symbiosome.

Published
2022

16. V-type H+-ATPase in the symbiosome membrane is a conserved mechanism for host control of photosynthesis in anthozoan photosymbioses

Author

Barott, Katie L, Thies, Angus B, and Tresguerres, Martin

Subjects
carbon concentrating mechanism, sea anemone, Symbiodiniaceae
Abstract

In reef-building corals (order Scleractinia) and giant clams (phylum Molluca), V-type H+-ATPase (VHA) in host cells is part of a carbon concentrating mechanism (CCM) that regulates photosynthetic rates of their symbiotic algae. Here, we show that VHA plays a similar role in the sea anemone Anemonia majano, a member of the order Actinaria and sister group to the Scleractinia, which in contrast to their colonial calcifying coral relatives is a solitary, soft-bodied taxa. Western blotting and immunofluorescence revealed that VHA was abundantly present in the host-derived symbiosome membrane surrounding the photosymbionts. Pharmacological inhibition of VHA activity in individual anemones resulted in an approximately 80% decrease of photosynthetic O2 production. These results extend the presence of a host-controlled VHA-dependent CCM to non-calcifying cnidarians of the order Actiniaria, suggesting it is widespread among photosymbiosis between aquatic invertebrates and Symbiodiniaceae algae.

Published
2022

17. Development of a dynamic type 2 diabetes risk prediction tool: a UK Biobank study

Author

Dolezalova, Nikola, Cairo, Massimo, Despotovic, Alex, Booth, Adam T. C., Reed, Angus B., Morelli, Davide, and Plans, David

Subjects
Computer Science - Machine Learning
Abstract

Diabetes affects over 400 million people and is among the leading causes of morbidity worldwide. Identification of high-risk individuals can support early diagnosis and prevention of disease development through lifestyle changes. However, the majority of existing risk scores require information about blood-based factors which are not obtainable outside of the clinic. Here, we aimed to develop an accessible solution that could be deployed digitally and at scale. We developed a predictive 10-year type 2 diabetes risk score using 301 features derived from 472,830 participants in the UK Biobank dataset while excluding any features which are not easily obtainable by a smartphone. Using a data-driven feature selection process, 19 features were included in the final reduced model. A Cox proportional hazards model slightly overperformed a DeepSurv model trained using the same features, achieving a concordance index of 0.818 (95% CI: 0.812-0.823), compared to 0.811 (95% CI: 0.806-0.815). The final model showed good calibration. This tool can be used for clinical screening of individuals at risk of developing type 2 diabetes and to foster patient empowerment by broadening their knowledge of the factors affecting their personal risk., Comment: 12 pages

Published
2021

18. Development of an accessible 10-year Digital CArdioVAscular (DiCAVA) risk assessment: a UK Biobank study

Author

Dolezalova, Nikola, Reed, Angus B., Despotovic, Alex, Obika, Bernard Dillon, Morelli, Davide, Aral, Mert, and Plans, David

Subjects
Computer Science - Machine Learning
Abstract

Background: Cardiovascular diseases (CVDs) are among the leading causes of death worldwide. Predictive scores providing personalised risk of developing CVD are increasingly used in clinical practice. Most scores, however, utilise a homogenous set of features and require the presence of a physician. Objective: The aim was to develop a new risk model (DiCAVA) using statistical and machine learning techniques that could be applied in a remote setting. A secondary goal was to identify new patient-centric variables that could be incorporated into CVD risk assessments. Methods: Across 466,052 participants, Cox proportional hazards (CPH) and DeepSurv models were trained using 608 variables derived from the UK Biobank to investigate the 10-year risk of developing a CVD. Data-driven feature selection reduced the number of features to 47, after which reduced models were trained. Both models were compared to the Framingham score. Results: The reduced CPH model achieved a c-index of 0.7443, whereas DeepSurv achieved a c-index of 0.7446. Both CPH and DeepSurv were superior in determining the CVD risk compared to Framingham score. Minimal difference was observed when cholesterol and blood pressure were excluded from the models (CPH: 0.741, DeepSurv: 0.739). The models show very good calibration and discrimination on the test data. Conclusion: We developed a cardiovascular risk model that has very good predictive capacity and encompasses new variables. The score could be incorporated into clinical practice and utilised in a remote setting, without the need of including cholesterol. Future studies will focus on external validation across heterogeneous samples., Comment: 28 pages, 3 figures, 4 tables

Published
2021

19. Machine learning approach to dynamic risk modeling of mortality in COVID-19: a UK Biobank study

Author

Dabbah, Mohammad A., Reed, Angus B., Booth, Adam T. C., Yassaee, Arrash, Despotovic, Alex, Klasmer, Benjamin, Binning, Emily, Aral, Mert, Plans, David, Labrique, Alain B., and Mohan, Diwakar

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

The COVID-19 pandemic has created an urgent need for robust, scalable monitoring tools supporting stratification of high-risk patients. This research aims to develop and validate prediction models, using the UK Biobank, to estimate COVID-19 mortality risk in confirmed cases. From the 11,245 participants testing positive for COVID-19, we develop a data-driven random forest classification model with excellent performance (AUC: 0.91), using baseline characteristics, pre-existing conditions, symptoms, and vital signs, such that the score could dynamically assess mortality risk with disease deterioration. We also identify several significant novel predictors of COVID-19 mortality with equivalent or greater predictive value than established high-risk comorbidities, such as detailed anthropometrics and prior acute kidney failure, urinary tract infection, and pneumonias. The model design and feature selection enables utility in outpatient settings. Possible applications include supporting individual-level risk profiling and monitoring disease progression across patients with COVID-19 at-scale, especially in hospital-at-home settings., Comment: 20 pages, 3 figures

Published
2021

20. A Continuum Manipulator for Open-Source Surgical Robotics Research and Shared Development

Author

Clark, Angus B., Mathivannan, Visakan, and Rojas, Nicolas

Subjects
Computer Science - Robotics
Abstract

Many have explored the application of continuum robot manipulators for minimally invasive surgery, and have successfully demonstrated the advantages their flexible design provides -- with some solutions having reached commercialisation and clinical practice. However, the usual high complexity and closed-nature of such designs has traditionally restricted the shared development of continuum robots across the research area, thus impacting further progress and the solution of open challenges. In order to close this gap, this paper introduces ENDO, an open-source 3-segment continuum robot manipulator with control and actuation mechanism, whose focus is on simplicity, affordability, and accessibility. This robotic system is fabricated from low cost off-the-shelf components and rapid prototyping methods, and its information for implementation (and that of future iterations), including CAD files and source code, is available to the public on the Open Source Medical Robots initiative's repository on GitHub (https://github.com/OpenSourceMedicalRobots), with the control library also available directly from Arduino. Herein, we present details of the robot design and control, validate functionality by experimentally evaluating its workspace, and discuss possible paths for future development., Comment: 4 pages, 6 figures

Published
2021
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22. Design and Workspace Characterisation of Malleable Robots

Author

Clark, Angus B. and Rojas, Nicolas

Subjects
Computer Science - Robotics
Abstract

For the majority of tasks performed by traditional serial robot arms, such as bin picking or pick and place, only two or three degrees of freedom (DOF) are required for motion; however, by augmenting the number of degrees of freedom, further dexterity of robot arms for multiple tasks can be achieved. Instead of increasing the number of joints of a robot to improve flexibility and adaptation, which increases control complexity, weight, and cost of the overall system, malleable robots utilise a variable stiffness link between joints allowing the relative positioning of the revolute pairs at each end of the link to vary, thus enabling a low DOF serial robot to adapt across tasks by varying its workspace. In this paper, we present the design and prototyping of a 2-DOF malleable robot, calculate the general equation of its workspace using a parameterisation based on distance geometry---suitable for robot arms of variable topology, and characterise the workspace categories that the end effector of the robot can trace via reconfiguration. Through the design and construction of the malleable robot we explore design considerations, and demonstrate the viability of the overall concept. By using motion tracking on the physical robot, we show examples of the infinite number of workspaces that the introduced 2-DOF malleable robot can achieve., Comment: 7 Pages, 7 figures, conference

Published
2020
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24. Evolutionary links between intra‐ and extracellular acid–base regulation in fish and other aquatic animals

Author

Tresguerres, Martin, Clifford, Alexander M, Harter, Till S, Roa, Jinae N, Thies, Angus B, Yee, Daniel P, and Brauner, Colin J

Subjects
Underpinning research, 1.1 Normal biological development and functioning, Acid-Base Equilibrium, Animals, Biological Evolution, Fishes, Hydrogen-Ion Concentration, Invertebrates, acid trapping, hypoxia, ocean acidification, oxygen transport, symbiosome
Abstract

The acid-base relevant molecules carbon dioxide (CO2 ), protons (H+ ), and bicarbonate (HCO3 - ) are substrates and end products of some of the most essential physiological functions including aerobic and anaerobic respiration, ATP hydrolysis, photosynthesis, and calcification. The structure and function of many enzymes and other macromolecules are highly sensitive to changes in pH, and thus maintaining acid-base homeostasis in the face of metabolic and environmental disturbances is essential for proper cellular function. On the other hand, CO2 , H+ , and HCO3 - have regulatory effects on various proteins and processes, both directly through allosteric modulation and indirectly through signal transduction pathways. Life in aquatic environments presents organisms with distinct acid-base challenges that are not found in terrestrial environments. These include a relatively high CO2 relative to O2 solubility that prevents internal CO2 /HCO3 - accumulation to buffer pH, a lower O2 content that may favor anaerobic metabolism, and variable environmental CO2 , pH and O2 levels that require dynamic adjustments in acid-base homeostatic mechanisms. Additionally, some aquatic animals purposely create acidic or alkaline microenvironments that drive specialized physiological functions. For example, acidifying mechanisms can enhance O2 delivery by red blood cells, lead to ammonia trapping for excretion or buoyancy purposes, or lead to CO2 accumulation to promote photosynthesis by endosymbiotic algae. On the other hand, alkalinizing mechanisms can serve to promote calcium carbonate skeletal formation. This nonexhaustive review summarizes some of the distinct acid-base homeostatic mechanisms that have evolved in aquatic organisms to meet the particular challenges of this environment.

Published
2020

25. Regulation of coral calcification by the acid-base sensing enzyme soluble adenylyl cyclase

Author

Barott, Katie L, Venn, Alexander A, Thies, Angus B, Tambutté, Sylvie, and Tresguerres, Martin

Subjects
Acid-Base Equilibrium, Adenylyl Cyclase Inhibitors, Adenylyl Cyclases, Alkalies, Animals, Anthozoa, Calcification, Physiologic, Enzyme Inhibitors, Extracellular Matrix, Hydrogen-Ion Concentration, Solubility, Cyclic AMP, Biomineralization, Subcalicoblastic medium, Acid-base, Calicodermis, Coral reef, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Medical Biochemistry and Metabolomics, Biochemistry & Molecular Biology
Abstract

Coral calcification is intricately linked to the chemical composition of the fluid in the extracellular calcifying medium (ECM), which is situated between the calcifying cells and the skeleton. Here we demonstrate that the acid-base sensing enzyme soluble adenylyl cyclase (sAC) is expressed in calcifying cells of the coral Stylophora pistillata. Furthermore, pharmacological inhibition of sAC in coral microcolonies resulted in acidification of the ECM as estimated by the pH-sensitive ratiometric indicator SNARF, and decreased calcification rates, as estimated by calcein labeling of crystal growth. These results indicate that sAC activity modulates some of the molecular machinery involved in producing the coral skeleton, which could include ion-transporting proteins and vesicular transport. To our knowledge this is the first study to directly demonstrate biological regulation of the alkaline pH of the coral ECM and its correlation with calcification.

Published
2020

28. Soluble adenylyl cyclase is an acid‐base sensor in rainbow trout red blood cells that regulates intracellular pH and haemoglobin–oxygen binding.

Author

Harter, Till S., Smith, Emma A., Salmerón, Cristina, Thies, Angus B., Delgado, Bryan, Wilson, Rod W., and Tresguerres, Martin

Subjects
ERYTHROCYTES, ADENYLATE cyclase, RAINBOW trout, RESPIRATORY acidosis, CELL membranes
Abstract

Aim: To identify the physiological role of the acid‐base sensing enzyme, soluble adenylyl cyclase (sAC), in red blood cells (RBC) of the model teleost fish, rainbow trout. Methods: We used: (i) super‐resolution microscopy to determine the subcellular location of sAC protein; (ii) live‐cell imaging of RBC intracellular pH (pHi) with specific sAC inhibition (KH7 or LRE1) to determine its role in cellular acid‐base regulation; (iii) spectrophotometric measurements of haemoglobin–oxygen (Hb‐O2) binding in steady‐state conditions; and (iv) during simulated arterial‐venous transit, to determine the role of sAC in systemic O2 transport. Results: Distinct pools of sAC protein were detected in the RBC cytoplasm, at the plasma membrane and within the nucleus. Inhibition of sAC decreased the setpoint for RBC pHi regulation by ~0.25 pH units compared to controls, and slowed the rates of RBC pHi recovery after an acid‐base disturbance. RBC pHi recovery was entirely through the anion exchanger (AE) that was in part regulated by HCO3−‐dependent sAC signaling. Inhibition of sAC decreased Hb‐O2 affinity during a respiratory acidosis compared to controls and reduced the cooperativity of O2 binding. During in vitro simulations of arterial‐venous transit, sAC inhibition decreased the amount of O2 that is unloaded by ~11%. Conclusion: sAC represents a novel acid‐base sensor in the RBCs of rainbow trout, where it participates in the modulation of RBC pHi and blood O2 transport though the regulation of AE activity. If substantiated in other species, these findings may have broad implications for our understanding of cardiovascular physiology in vertebrates. [ABSTRACT FROM AUTHOR]

Published
2024
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30. A vesicular Na+/Ca2+ exchanger in coral calcifying cells.

Author

Barron, Megan E, Thies, Angus B, Espinoza, Jose A, Barott, Katie L, Hamdoun, Amro, and Tresguerres, Martin

Subjects
Embryo, Nonmammalian, Animals, Anthozoa, Sea Urchins, Calcium Carbonate, Sodium-Calcium Exchanger, Protein Isoforms, Microscopy, Electron, Transmission, Microscopy, Fluorescence, Cloning, Molecular, Phylogeny, Calcification, Physiologic, Embryo, Nonmammalian, Microscopy, Electron, Transmission, Fluorescence, Cloning, Molecular, Calcification, Physiologic, General Science & Technology
Abstract

The calcium carbonate skeletons of corals provide the underlying structure of coral reefs; however, the cellular mechanisms responsible for coral calcification remain poorly understood. In osteoblasts from vertebrate animals, a Na+/Ca2+ exchanger (NCX) present in the plasma membrane transports Ca2+ to the site of bone formation. The aims of this study were to establish whether NCX exists in corals and its localization within coral cells, which are essential first steps to investigate its potential involvement in calcification. Data mining identified genes encoding for NCX proteins in multiple coral species, a subset of which were more closely related to NCXs from vertebrates (NCXA). We cloned NCXA from Acropora yongei (AyNCXA), which, unexpectedly, contained a peptide signal that targets proteins to vesicles from the secretory pathway. AyNCXA subcellular localization was confirmed by heterologous expression of fluorescently tagged AyNCXA protein in sea urchin embryos, which localized together with known markers of intracellular vesicles. Finally, immunolabeling of coral tissues with specific antibodies revealed AyNCXA was present throughout coral tissue. AyNCXA was especially abundant in calcifying cells, where it exhibited a subcellular localization pattern consistent with intracellular vesicles. Altogether, our results demonstrate AyNCXA is present in vesicles in coral calcifying cells, where potential functions include intracellular Ca2+ homeostasis and Ca2+ transport to the growing skeleton as part of an intracellular calcification mechanism.

Published
2018

34. A Scalable Variable Stiffness Revolute Joint Based on Layer Jamming for Robotic Exoskeletons

Author

Shen, Matthew, Clark, Angus B., Rojas, Nicolas, 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, Mohammad, Abdelkhalick, editor, Dong, Xin, editor, and Russo, Matteo, editor

Published
2020
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35. A Passively Compliant Idler Mechanism for Underactuated Dexterous Grippers with Dynamic Tendon Routing

Author

Wang, Jinhong, Lu, Qiujie, Clark, Angus B., Rojas, Nicolas, 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, Mohammad, Abdelkhalick, editor, Dong, Xin, editor, and Russo, Matteo, editor

Published
2020
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36. Immediate effect of the COVID-19 pandemic on patient health, health-care use, and behaviours: results from an international survey of people with rheumatic diseases

Author

Robinson, Philip C., Bhana, Suleman, Liew, Jean W., Sufka, Paul H., Singh, Namrata, Howard, Richard A., Kim, Alfred H.J., Westrich-Robertson, Tiffany, Sirotich, Emily, Tsui, Edmund, Duarte-Garcia, Ali, Sparks, Jeffrey A., Tam, Herman, Jayatilleke, Arundathi, Konig, Maximilian F., Graef, Elizabeth R., Putman, Michael S., Syed, Reema H., Korsten, Peter, Mateus, Elsa, Sattui, Sebastian E., Wallace, Zachary S., Laura, Upton A., Adam, Kilian, Chock, Yu Pei Eugenia, White, Douglas W., Zamora, Geraldine T., Traboco, Lisa S., Patel, Aarat M., Grainger, Rebecca, Ugarte-Gil, Manuel F., Gianfrancesco, Milena A., Amigues, Isabelle, Sanchez-Alvarez, Catalina, Trupin, Laura, Jacobsohn, Lindsay R., Beesley, Richard P., Hoyer, Bimba F., Machado, Pedro M., Makan, Kavita, Gossec, Laure, Priyank, Chaudhary, Leipe, Jan, Wallace, Beth, Angeles-Han, Sheila T., Almaghlouth, Ibrahim A., Katherine, Wysham D., Padula, Anthony S., Berenbaum, Francis, Treemarcki, Erin M., Sinha, Rashmi, Lewandowski, Laura B., Webb, Kate, Young, Kristen J., Bulina, Inita, Herrera Uribe, Sebastian, Rubinstein, Tamar B., Nolan, Marc W., Ang, Elizabeth Y., Venuturupalli, Swamy R., Hausmann, Jonathan S., Dubreuil, Maureen, Pisoni, Cecilia N., Cosatti, Micaela A., Campos, Jose, Simard, Julia F., Conway, Richard, Peterson, Tiffany M., Harrison, Carly O., Felix, Christele, Richards, Dawn P., Proulx, Laurie, Akpabio, Akpabio A., Worthing, Angus B., Laidlaw, Lynn R., Reid, Pankti, Palmerlee, Candace A., Danila, Maria I., Sahar, Lotfi-Emran, Linh, Ngo Q., Agarwal, Arnav, Studenic, Paul, Liew, David F.L., Larche, Maggie J., Mingolla, Serena A.M., Zamora, Erick A., Angevare, Saskya S., Sinha, Rashmi R., Durrant, Karen L.W., Peirce, Andrea, Somers, Emily C., Cappelli, Laura C., Frankel, Brittany A., Kumar, Bharat, Silinsky Krupnikova, Sonia D., Rosario Vega, Jorge A., Frankovich, Jourdan, Fernandez-Ruiz, Ruth, Posada Velásquez, Marcela, Yeoh, Su-Ann, Marino, Maria, Nudel, Michal, Scott, Chrisiaan, Rodríguez, Cecilia, Martín Mancheño, Ana I., Seo, Philip, Gamboa-Cárdenas, Rocío V., Pimentel-Quiroz, Victor R., Reátegui-Sokolova, Cristina, Kihara, Mari, Lin, Chung M.A., Kattula, Dheera, Laila, Girgis, Carmona, Loreto, Wallace, John, Yazdany, Jinoos, Costello, Wendy, Gore-massy, Monique C., Tomasella, Laura-Ann, Kodek, Moré A., Hausmann, Jonathan S, Kennedy, Kevin, Simard, Julia F, Liew, Jean W, Sparks, Jeffrey A, Moni, Tarin T, Harrison, Carly, Larché, Maggie J, Levine, Mitchell, Sattui, Sebastian E, Semalulu, Teresa, Foster, Gary, Surangiwala, Salman, Thabane, Lehana, Beesley, Richard P, Durrant, Karen L, Mateus, Elsa F, Mingolla, Serena, Palmerlee, Candace A, Richards, Dawn P, Liew, David F L, Hill, Catherine L, Machado, Pedro M, Robinson, Philip C, Sufka, Paul, and Wallace, Zachary S

Published
2021
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38. Enhanced axonal response of mitochondria to demyelination offers neuroprotection: implications for multiple sclerosis

Author

Licht-Mayer, Simon, Campbell, Graham R., Canizares, Marco, Mehta, Arpan R., Gane, Angus B., McGill, Katie, Ghosh, Aniket, Fullerton, Alexander, Menezes, Niels, Dean, Jasmine, Dunham, Jordon, Al-Azki, Sarah, Pryce, Gareth, Zandee, Stephanie, Zhao, Chao, Kipp, Markus, Smith, Kenneth J., Baker, David, Altmann, Daniel, Anderton, Stephen M., Kap, Yolanda S., Laman, Jon D., Hart, Bert A.‘t, Rodriguez, Moses, Watzlawick, Ralf, Schwab, Jan M., Carter, Roderick, Morton, Nicholas, Zagnoni, Michele, Franklin, Robin J. M., Mitchell, Rory, Fleetwood-Walker, Sue, Lyons, David A., Chandran, Siddharthan, Lassmann, Hans, Trapp, Bruce D., and Mahad, Don J.

Published
2020
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42. Soluble adenylyl cyclase coordinates intracellular pH homeostasis and biomineralization in calcifying cells of a marine animal

Author

William Weijen Chang, Angus B. Thies, Martin Tresguerres, and Marian Y. Hu

Subjects
Physiology, Cell Biology
Abstract

Biomineralizing cells concentrate dissolved inorganic carbon (DIC) and remove protons from the site of mineral precipitation. However, the molecular regulatory mechanisms that orchestrate pH homeostasis and biomineralization of calcifying cells are poorly understood. Here, we report that the acid-base sensing enzyme soluble adenylyl cyclase (sAC) coordinates intracellular pH (pHi) regulation in the calcifying primary mesenchyme cells (PMCs) of sea urchin larvae. Single-cell transcriptomics, in situ hybridization, and immunocytochemistry elucidated the spatiotemporal expression of sAC during skeletogenesis. Live pHi imaging of PMCs revealed that the downregulation of sAC activity with two structurally unrelated small molecules inhibited pHi regulation of PMCs, an effect that was rescued by the addition of cell-permeable cAMP. Pharmacological sAC inhibition also significantly reduced normal spicule growth and spicule regeneration, establishing a link between PMC pHi regulation and biomineralization. Finally, increased expression of sAC mRNA was detected during skeleton remineralization and exposure to CO2-induced acidification. These findings suggest that transcriptional regulation of sAC is required to promote remineralization and to compensate for acidic stress. This work highlights the central role of sAC in coordinating acid-base regulation and biomineralization in calcifying cells of a marine animal.

Published
2023

43. Lopinavir plus nucleoside reverse-transcriptase inhibitors, lopinavir plus raltegravir, or lopinavir monotherapy for second-line treatment of HIV (EARNEST): 144-week follow-up results from a randomised controlled trial

Author

Agweng, E, Awio, P, Bakeinyaga, G, Isabirye, C, Kabuga, U, Kasuswa, S, Katuramu, M, Kiweewa, F, Kyomugisha, H, Lutalo, E, Mulima, D, Musana, H, Musitwa, G, Musiime, V, Ndigendawan, M, Namata, H, Nkalubo, J, Labejja, P Ocitti, Okello, P, Olal, P, Pimundu, G, Segonga, P, Ssali, F, Tamale, Z, Tumukunde, D, Namala, W, Byaruhanga, R, Kayiwa, J, Tukamushaba, J, Abunyang, S, Eram, D, Denis, O, Lwalanda, R, Mugarura, L, Namusanje, J, Nankya, I, Ndashimye, E, Nabulime, E, Senfuma, O, Bihabwa, G, Buluma, E, Elbireer, A, Kamya, D, Katwere, M, Kiggundu, R, Komujuni, C, Laker, E, Lubwama, E, Mambule, I, Matovu, J, Nakajubi, A, Nakku, J, Nalumenya, R, Namuyimbwa, L, Semitala, F, Wandera, B, Wanyama, J, Mugerwa, H, Ninsiima, E, Ssenkindu, T, Mwebe, S, Atwine, L, William, H, Katemba, C, Acaku, M, Ssebutinde, P, Kitizo, H, Kukundakwe, J, Naluguza, M, Ssegawa, K, Namayanja, Nsibuka, F, Tuhirirwe, P, Fortunate, M, Acen, J, Achidri, J, Amone, A, Chamai, M, Ditai, J, Kemigisa, M, Kiconco, M, Matama, C, Mbanza, D, Nambaziira, F, Odoi, M Owor, Rweyora, A, Tumwebaze, G, Kalanzi, H, Katabaazi, J, Kiyingi, A, Mbidde, M, Mugenyi, M, Okong, P, Senoga, I, Abwola, M, Baliruno, D, Bwomezi, J, Kasede, A, Mudoola, M, Namisi, R, Ssennono, F, Tuhirwe, S, Amone, G, Abach, J, Aciro, I, Arach, B, Kidega, P, Omongin, J, Ocung, E, Odong, W, Philliam, A, Alima, H, Ahimbisibwe, B, Atuhaire, E, Atukunda, F, Bekusike, G, Bulegyeya, A, Kahatano, D, Kamukama, S, Kyoshabire, J, Nassali, A, Mbonye, A, Naturinda, T M, Ndukukire, Nshabohurira, A, Ntawiha, H, Rogers, A, Tibyasa, M, Kiirya, S, Atwongyeire, D, Nankya, A, Draleku, C, Nakiboneka, D, Odoch, D, Lakidi, L, Ruganda, R, Abiriga, R, Mulindwa, M, Balmoi, F, Kafuma, S, Moriku, E, Reid, A, Chidziva, E, Musoro, G, Warambwa, C, Tinago, G, Mutsai, S, Phiri, M, Mudzingwa, S, Bafana, T, Masore, V, Moyo, C, Nhema, R, Chitongo, S, Heyderman, Robert, Kabanga, Lucky, Kaunda, Symon, Kudzala, Aubrey, Lifa, Linly, Mallewa, Jane, Moore, Mike, Mtali, Chrissie, Musowa, George, Mwimaniwa, Grace, Sikwese, Rosemary, Ziwoya, Milton, Chitete, H Chimbaka B, Kamanga, S, Makwakwa, T Kayinga E, Mbiya, R, Mlenga, M, Mphande, T, Mtika, C, Mushani, G, Ndhlovu, O, Ngonga, M, Nkhana, I, Nyirenda, R, Cheruiyot, P, Kwobah, C, Ekiru, W Lokitala, Mokaya, M, Mudogo, A, Nzioka, A, Tanui, M, Wachira, S, Wools-Kaloustian, K, Alipalli, P, Chikatula, E, Kipaila, J, Kunda, I, Lakhi, S, Malama, J, Mufwambi, W, Mulenga, L, Mwaba, P, Mwamba, E, Namfukwe, M, Kerukadho, E, Ngwatu, B, Birungi, J, Boles, J, Burke, A, Castle, L, Ghuman, S, Kendall, L, Tebbs, S, Whittle, J, Wilkes, H, Young, N, Spyer, M, Kapuya, C, Kyomuhendo, F, Kyakundi, D, Mkandawire, N, Mulambo, S, Senyonjo, S, Angus, B, Arenas-Pinto, A, Palfreeman, A, Post, F, Ishola, D, Arribas, J, Colebunders, R, Floridia, M, Giuliano, M, Mallon, P, Walsh, P, De Rosa, M, Rinaldi, E, Weller, I, Gilks, C, Kangewende, A, Luyirika, E, Miiro, F, Ojoo, S, Phiri, S, Wapakabulo, A, Peto, T, Matenga, J, Cloherty, G, van Wyk, J, Norton, M, Lehrman, S, Lamba, P, Malik, K, Rooney, J, Snowden, W, Villacian, J, Hakim, James G, Thompson, Jennifer, Kityo, Cissy, Hoppe, Anne, Kambugu, Andrew, van Oosterhout, Joep J, Lugemwa, Abbas, Siika, Abraham, Mwebaze, Raymond, Mweemba, Aggrey, Abongomera, George, Thomason, Margaret J, Easterbrook, Philippa, Mugyenyi, Peter, Walker, A Sarah, and Paton, Nicholas I

Published
2018
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48. Nucleoside reverse-transcriptase inhibitor cross-resistance and outcomes from second-line antiretroviral therapy in the public health approach: an observational analysis within the randomised, open-label, EARNEST trial

Author

Agweng, E, Awio, P, Bakeinyaga, G, Isabirye, C, Kabuga, U, Kasuswa, S, Katuramu, M, Kityo, C, Kiweewa, F, Kyomugisha, H, Lutalo, E, Mugyenyi, P, Mulima, D, Musana, H, Musitwa, G, Musiime, V, Ndigendawan, M, Namata, H, Nkalubo, J, Labejja, P Ocitti, Okello, P, Olal, P, Pimundu, G, Segonga, P, Ssali, F, Tamale, Z, Tumukunde, D, Namala, W, Byaruhanga, R, Kayiwa, J, Tukamushaba, J, Abunyang, S, Eram, D, Denis, O, Lwalanda, R, Mugarura, L, Namusanje, J, Nankya, I, Ndashimye, E, Nabulime, E, Senfuma, O, Bihabwa, G, Buluma, E, Easterbrook, P, Elbireer, A, Kambugu, A, Kamya, D, Katwere, M, Kiggundu, R, Komujuni, C, Laker, E, Lubwama, E, Mambule, I, Matovu, J, Nakajubi, A, Nakku, J, Nalumenya, R, Namuyimbwa, L, Semitala, F, Wandera, B, Wanyama, J, Mugerwa, H, Lugemwa, A, Ninsiima, E, Ssenkindu, T, Mwebe, S, Atwine, L, William, H, Katemba, C, Acaku, M, Ssebutinde, P, Kitizo, H, Kukundakwe, J, Naluguza, M, Ssegawa, K, Namayanja, Nsibuka, F, Tuhirirwe, P, Fortunate, M, Acen, J, Achidri, J, Amone, A, Chamai, M, Ditai, J, Kemigisa, M, Kiconco, M, Matama, C, Mbanza, D, Nambaziira, F, Odoi, M Owor, Rweyora, A, Tumwebaze, G, Kalanzi, H, Katabaazi, J, Kiyingi, A, Mbidde, M, Mugenyi, M, Mwebaze, R, Okong, P, Senoga, I, Abwola, M, Baliruno, D, Bwomezi, J, Kasede, A, Mudoola, M, Namisi, R, Ssennono, F, Tuhirwe, S, Abongomera, G, Amone, G, Abach, J, Aciro, I, Arach, B, Kidega, P, Omongin, J, Ocung, E, Odong, W, Philliam, A, Alima, H, Ahimbisibwe, B, Atuhaire, E, Atukunda, F, Bekusike, G, Bulegyeya, A, Kahatano, D, Kamukama, S, Kyoshabire, J, Nassali, A, Mbonye, A, Naturinda, T M, Ndukukire, Nshabohurira, A, Ntawiha, H, Rogers, A, Tibyasa, M, Kiirya, S, Atwongyeire, D, Nankya, A, Draleku, C, Nakiboneka, D, Odoch, D, Lakidi, L, Ruganda, R, Abiriga, R, Mulindwa, M, Balmoi, F, Kafuma, S, Moriku, E, Hakim, J, Reid, A, Chidziva, E, Musoro, G, Warambwa, C, Tinago, G, Mutsai, S, Phiri, M, Mudzingwa, S, Bafana, T, Masore, V, Moyo, C, Nhema, R, Chitongo, S, Heyderman, Robert, Kabanga, Lucky, Kaunda, Symon, Kudzala, Aubrey, Lifa, Linly, Mallewa, Jane, Moore, Mike, Mtali, Chrissie, Musowa, George, Mwimaniwa, Grace, Sikwese, Rosemary, van Oosterhout, Joep, Ziwoya, Milton, Chimbaka, H, Chitete, B, Kamanga, S, Makwakwa, T Kayinga E, Mbiya, R, Mlenga, M, Mphande, T, Mtika, C, Mushani, G, Ndhlovu, O, Ngonga, M, Nkhana, I, Nyirenda, R, Cheruiyot, P, Kwobah, C, Ekiru, W Lokitala, Mokaya, M, Mudogo, A, Nzioka, A, Siika, A, Tanui, M, Wachira, S, Wools-Kaloustian, K, Alipalli, P, Chikatula, E, Kipaila, J, Kunda, I, Lakhi, S, Malama, J, Mufwambi, W, Mulenga, L, Mwaba, P, Mwamba, E, Mweemba, A, Namfukwe, M, Kerukadho, E, Ngwatu, B, Birungi, J, Paton, N, Boles, J, Burke, A, Castle, L, Ghuman, S, Kendall, L, Hoppe, A, Tebbs, S, Thomason, M, Thompson, J, Walker, S, Whittle, J, Wilkes, H, Young, N, Spyer, M, Kapuya, C, Kyomuhendo, F, Kyakundi, D, Mkandawire, N, Mulambo, S, Senyonjo, S, Angus, B, Arenas-Pinto, A, Palfreeman, A, Post, F, Ishola, D, Arribas, J, Colebunders, R, Floridia, M, Giuliano, M, Mallon, P, Walsh, P, De Rosa, M, Rinaldi, E, Weller, I, Gilks, C, Kangewende, A, Luyirika, E, Miiro, F, Mwamba, P, Ojoo, S, Phiri, S, van Oosterhout, J, Wapakabulo, A, Peto, T, French, N, Matenga, J, Cloherty, G, van Wyk, J, Norton, M, Lehrman, S, Lamba, P, Malik, K, Rooney, J, Snowden, W, Villacian, J, Paton, Nicholas I, Kityo, Cissy, Thompson, Jennifer, Nankya, Immaculate, Bagenda, Leonard, Hoppe, Anne, Hakim, James, Kambugu, Andrew, van Oosterhout, Joep J, Kiconco, Mary, Bertagnolio, Silvia, Easterbrook, Philippa J, Mugyenyi, Peter, and Walker, A Sarah

Published
2017
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49. Increased Indoleamine-2,3-Dioxygenase Activity Is Associated With Poor Clinical Outcome in Adults Hospitalized With Influenza in the INSIGHT FLU003Plus Study

Author

Pett, Sarah L, Kunisaki, Ken M, Wentworth, Deborah, Griffin, Timothy J, Kalomenidis, Ioannis, Nahra, Raquel, Montejano Sanchez, Rocio, Hodgson, Shane W, Ruxrungtham, Kiat, Dwyer, Dominic, Davey, Richard T, Wendt, Chris H, Lundgren, J, Jansson, P, Pearson, M, Aagaard, B, Hudson, F, Bennet, R, Pacciarini, F, Angus, B, Paton, N, Collaco Moraes, Y, Cooper, D, Pett, S, Emery, S, Courtney-Rogers, D, Robson, R, Gordin, F, Sanchez, A, Standridge, B, Vjecha, M, Moricz, A, Delfino, M, Belloso, W, Losso, M, Tillmann, K, Touloumi, G, Gioukari, V, Anagnostou, O, La Rosa, A, Saenz, M J, Lopez, P, Herrero, P, Portas, B, Avihingsanon, A, Ruxrungtham, K, Kaewon, P, Ubolyam, S, Brekke, K, Campbell, M, Denning, E, DuChene, A, Engen, N, George, M, Harrison, M, Neaton, J D, Nelson, R, Quan, S F, Schultz, T, Wentworth, D, Baxter, J, Brown, S, Hoover, M, Beigel, J, Davey, R T, Jr., Dewar, R, Gover, E, McConnell, R, Metcalf, J, Natarajan, V, Rehman, T, Voell, J, Dwyer, D E, Kok, J, Uyeki, T, Munroe, D, Paez, A, Bertrand, M, Temesgen, Z, Rizza, S, Wolfe, C, Carbonneau, J, Novak, R, Schwarber, M, Polenakovik, H, Clark, L, Patil, N, Riska, P, Omotosho, J, Faber, L, Markowitz, N, Glesby, M, Ham, K, Parenti, D, Simon, G, Baxter, J, Coburn, P, Freiberg, M, Koerbel, G, Dharan, N, Paez-Quinde, M, Gunter, J, Beilke, M, Lu, Z, Gunderson, E, Baker, J, Koletar, S, Harber, H, Hurt, C, Marcus, C, Allen, M, Cummins, S, Uslan, D, Bonam, T, Paez, A, Santiago, F, States, D, Gardner, E, DeHovitz, J, Holman, S, Watson, V, Nixon, D, Dwyer, D, Kabir, M, Pett, S, Kilkenny, F, Elliott, J, Garlick, J, McBride, J, Richmond, S, Barcan, L, Sanchez, M, Lopardo, G, Barcelona, L, Bonvehi, P, Temporiti, E R, Losso, M, Macias, L, Laplume, H, Daciuk, L, Warley, E, Tavella, S, Fernandez Cruz, E, Paño, J, Estrada, V, Lopetegui, P, Gimenez Julvez, T, Ryan, P, Sanz Moreno, J, Knobel, H, Soriano, V, Dalmau, D, Dockrell, D, Angus, B, Price, D, Newport, M, Chadwick, D, Østergaard, L, Yehdego, Y, Pedersen, C, Hergens, L, Joensen, Z, Aagaard, B, Kronborg, G, Collins, P, Nielsen, H, Gerstoft, J, Baadegaard, B, Koulouris, N, Antoniadou, A, Protopappas, K, Polixronopoulos, V, Diamantea, F, Sambatakou, H, Mariolis, I, Vassilopoulos, N, Gerogiannis, A, Pinedo Ramirez, Y, Cornelio Mauricio, E, Vega Bazalar, J, Castillo Cordova, R, Fãtkenhuerer, G, Thomas, E, Bergmann, F, Fõllmer, U, Rockstroh, J, Englehardt, A, Stephan, C, Thomas, E, Bogner, J, Brockmeyer, N, Klinker, H, Chetchotisakd, P, Jumpimai, T, Avihingsanon, A, Ruxrungtham, K, Clumeck, N, Kameya, K, Chu, M Y, Wu, T C, Horban, A, Bakowska, E, Burgmann, H, Tobudic, S, Maagaard, A, Wolff, M, and Allendes, G

Published
2018
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50. The P323L substitution in the SARS-CoV-2 polymerase (NSP12) confers a selective advantage during infection

Author

Goldswain, H, Dong, X, Penrice-Randal, R, Alruwaili, M, Shawli, GT, Prince, T, Williamson, MK, Raghwani, J, Randle, N, Jones, B, Donovan-Banfield, I, Salguero, FJ, Tree, JA, Hall, Y, Hartley, C, Erdmann, M, Bazire, J, Jearanaiwitayakul, T, Semple, MG, Openshaw, PJM, Baillie, JK, Emmett, SR, Digard, P, Matthews, DA, Turtle, L, Darby, AC, Davidson, AD, Carroll, MW, Hiscox, JA, Carson, G, Dunning, J, Horby, PW, Klenerman, P, Mentzer, AJ, Merson, L, Sigfrid, L, Stuart, D, Angus, B, and Investigators, ISARIC4C

Abstract

Background: The mutational landscape of SARS-CoV-2 varies at the dominant viral genome sequence and minor genomic variant population. During the COVID-19 pandemic, an early substitution in the genome was the D614G change in the spike protein, associated with an increase in transmissibility. Genomes with D614G are accompanied by a P323L substitution in the viral polymerase (NSP12). However, P323L is not thought to be under strong selective pressure. Results: Investigation of P323L/D614G substitutions in the population shows rapid emergence during the containment phase and early surge phase during the first wave. These substitutions emerge from minor genomic variants which become dominant viral genome sequence. This is investigated in vivo and in vitro using SARS-CoV-2 with P323 and D614 in the dominant genome sequence and L323 and G614 in the minor variant population. During infection, there is rapid selection of L323 into the dominant viral genome sequence but not G614. Reverse genetics is used to create two viruses (either P323 or L323) with the same genetic background. L323 shows greater abundance of viral RNA and proteins and a smaller plaque morphology than P323. Conclusions: These data suggest that P323L is an important contribution in the emergence of variants with transmission advantages. Sequence analysis of viral populations suggests it may be possible to predict the emergence of a new variant based on tracking the frequency of minor variant genomes. The ability to predict an emerging variant of SARS-CoV-2 in the global landscape may aid in the evaluation of medical countermeasures and non-pharmaceutical interventions.

Published
2023

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