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2,233 results on '"Urbas, A."'

1. Center Direction Network for Grasping Point Localization on Cloths

Author

Tabernik, Domen, Muhovič, Jon, Urbas, Matej, and Skočaj, Danijel

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Object grasping is a fundamental challenge in robotics and computer vision, critical for advancing robotic manipulation capabilities. Deformable objects, like fabrics and cloths, pose additional challenges due to their non-rigid nature. In this work, we introduce CeDiRNet-3DoF, a deep-learning model for grasp point detection, with a particular focus on cloth objects. CeDiRNet-3DoF employs center direction regression alongside a localization network, attaining first place in the perception task of ICRA 2023's Cloth Manipulation Challenge. Recognizing the lack of standardized benchmarks in the literature that hinder effective method comparison, we present the ViCoS Towel Dataset. This extensive benchmark dataset comprises 8,000 real and 12,000 synthetic images, serving as a robust resource for training and evaluating contemporary data-driven deep-learning approaches. Extensive evaluation revealed CeDiRNet-3DoF's robustness in real-world performance, outperforming state-of-the-art methods, including the latest transformer-based models. Our work bridges a crucial gap, offering a robust solution and benchmark for cloth grasping in computer vision and robotics. Code and dataset are available at: https://github.com/vicoslab/CeDiRNet-3DoF, Comment: Accepted for publication in IEEE Robotics and Automation Letters

Published
2024
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2. Analyzing (and Comparing) Policy Mobilities in Federal Education Systems: Potentials of a Topological Lens

Author

Hartong, Sigrid and Urbas, Christopher

Abstract

This contribution takes up and discusses topology as a relational approach to better understand and empirically trace policy mobilities in federal education systems. While topology echoes other relational approaches in its simultaneous focus on ongoing change and the "making" of stabilized forms (e.g., policy scales), it also brings attention to facets of policy mobility research that other approaches have, at least so far, considered to a much lesser extent. Such facets include the systematic integration of a "temporal dimension" (e.g., rhythms of scale- or policy-making) as well as the consideration of "digital/data space-times." Equally, topology reminds us that policy itself is increasingly becoming "topological"--that is to say, policy-making is increasingly ruled by movement spaces, logics of connectedness, and capacities for change, instead of formal authority, position, or transmission. Integrating these different dimensions into a heuristic framework, we illuminate what we see differently when applying a topological lens to policy mobility analysis in federal education systems, using the example of German education policies since the 2000s, particularly transformations induced by the ongoing pandemic, as a case study.

Published
2023

5. All-glass 100 mm Diameter Visible Metalens for Imaging the Cosmos

Author

Park, Joon-Suh, Lim, Soon Wei Daniel, Amirzhan, Arman, Kang, Hyukmo, Karrfalt, Karlene, Kim, Daewook, Leger, Joel, Urbas, Augustine M., Ossiander, Marcus, Li, Zhaoyi, and Capasso, Federico

Subjects
Physics - Optics, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Applied Physics, Physics - Space Physics
Abstract

Metasurfaces, optics made from subwavelength-scale nanostructures, have been limited to millimeter-sizes by the scaling challenge of producing vast numbers of precisely engineered elements over a large area. In this study, we demonstrate an all-glass 100 mm diameter metasurface lens (metalens) comprising 18.7 billion nanostructures that operates in the visible spectrum with a fast f-number (f/1.5, NA=0.32) using deep-ultraviolet (DUV) projection lithography. Our work overcomes the exposure area constraints of lithography tools and demonstrates that large metasurfaces are commercially feasible. Additionally, we investigate the impact of various fabrication errors on the imaging quality of the metalens, several of which are unique to such large area metasurfaces. We demonstrate direct astronomical imaging of the Sun, the Moon, and emission nebulae at visible wavelengths and validate the robustness of such metasurfaces under extreme environmental thermal swings for space applications.

Published
2023

6. Brain in the Dark: Design Principles for Neuro-mimetic Learning and Inference

Author

Bazargani, Mehran H., Urbas, Szymon, and Friston, Karl

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Machine Learning
Abstract

Even though the brain operates in pure darkness, within the skull, it can infer the most likely causes of its sensory input. An approach to modelling this inference is to assume that the brain has a generative model of the world, which it can invert to infer the hidden causes behind its sensory stimuli, that is, perception. This assumption raises key questions: how to formulate the problem of designing brain-inspired generative models, how to invert them for the tasks of inference and learning, what is the appropriate loss function to be optimised, and, most importantly, what are the different choices of mean field approximation (MFA) and their implications for variational inference (VI)., Comment: 7 pages, 2 figures

Published
2023

7. Predicting milk traits from spectral data using Bayesian probabilistic partial least squares regression

Author

Urbas, Szymon, Lovera, Pierre, Daly, Robert, O'Riordan, Alan, Berry, Donagh, and Gormley, Isobel Claire

Subjects
Statistics - Methodology, Statistics - Applications
Abstract

High-dimensional spectral data -- routinely generated in dairy production -- are used to predict a range of traits in milk products. Partial least squares (PLS) regression is ubiquitously used for these prediction tasks. However, PLS regression is not typically viewed as arising from a probabilistic model, and parameter uncertainty is rarely quantified. Additionally, PLS regression does not easily lend itself to model-based modifications, coherent prediction intervals are not readily available, and the process of choosing the latent-space dimension, $\mathtt{Q}$, can be subjective and sensitive to data size. We introduce a Bayesian latent-variable model, emulating the desirable properties of PLS regression while accounting for parameter uncertainty in prediction. The need to choose $\mathtt{Q}$ is eschewed through a nonparametric shrinkage prior. The flexibility of the proposed Bayesian partial least squares (BPLS) regression framework is exemplified by considering sparsity modifications and allowing for multivariate response prediction. The BPLS regression framework is used in two motivating settings: 1) multivariate trait prediction from mid-infrared spectral analyses of milk samples, and 2) milk pH prediction from surface-enhanced Raman spectral data. The prediction performance of BPLS regression at least matches that of PLS regression. Additionally, the provision of correctly calibrated prediction intervals objectively provides richer, more informative inference for stakeholders in dairy production., Comment: 36 pages, 6 figures; Supplement: 19 pages, 12 figures

Published
2023

8. An Analysis of Muon Flux from Angle Variation of the QuarkNet Cosmic Ray Detector

Author

Venterea, Ricco and Ekka, Urbas

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics, Nuclear Experiment, Physics - Instrumentation and Detectors
Abstract

We present one of the first cosmic ray muon flux-angle variation experiments on the QuarkNet Cosmic Ray Detector (QNCRD). We first describe QNCRD and its calibration. The main focus is then quantifying muon flux decrease as a function of angle from the zenith. The angle of counters of QNCRD were incremented 15 degrees on average every $3.1$ days over the range of 0 degrees to 90 degrees for a period of approximately one month. Results showed that as the angle of the detector increased from the zenith, muon flux decreased, which agrees with previous studies. An estimate for the flux based on the model $I(\theta)=I_0cos(\theta)^n$ had an exponent value of $n=1.39 \pm 0.01$ for $\theta < 75$ degrees, an underestimate of values in other literature. These findings provided a reasonable, although not entirely accurate, estimate for the value of $n$ considering the duration of the study and sensitivity of the instrument. Our results constrain the accuracy of QNCRD and provide a source for future long-term experiments. This study also demonstrates the feasibility of conducting science experiments in high school classrooms, increasing science accessibility., Comment: 6 pages, 5 figures, 4 tables

Published
2023
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9. Wafer‐Scale Replication of Plasmonic Nanostructures via Microbubbles for Nanophotonics

Author

Jehwan Hwang, Yue Zhang, Bongjoong Kim, Jinheon Jeong, Jonghun Yi, Dong Rip Kim, Young L. Kim, Augustine Urbas, Gamini Ariyawansa, Baoxing Xu, Zahyun Ku, and Chi Hwan Lee

Subjects
metamaterials, microbubbles, nanophotonics, nano‐transfer printing, plasmonic nanostructures, Science
Abstract

Abstract Quasi‐3D plasmonic nanostructures are in high demand for their ability to manipulate and enhance light‐matter interactions at subwavelength scales, making them promising building blocks for diverse nanophotonic devices. Despite their potential, the integration of these nanostructures with optical sensors and imaging systems on a large scale poses challenges. Here, a robust technique for the rapid, scalable, and seamless replication of quasi‐3D plasmonic nanostructures is presented straight from their production wafers using a microbubble process. This approach not only simplifies the integration of quasi‐3D plasmonic nanostructures into a wide range of standard and custom optical imaging devices and sensors but also significantly enhances their imaging and sensing performance beyond the limits of conventional methods. This study encompasses experimental, computational, and theoretical investigations, and it fully elucidates the operational mechanism. Additionally, it explores a versatile set of options for outfitting nanophotonic devices with custom‐designed plasmonic nanostructures, thereby fulfilling specific operational criteria.

Published
2024
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10. Dynamics of an Eccentric Crank-Slider Mechanism with a Flexible Drive and Frictional Joints

Author

Urbaś, Andrzej, Stadnicki, Jacek, Ceccarelli, Marco, Series Editor, Corves, Burkhard, Advisory Editor, Glazunov, Victor, Advisory Editor, Hernández, Alfonso, Advisory Editor, Huang, Tian, Advisory Editor, Jauregui Correa, Juan Carlos, Advisory Editor, Takeda, Yukio, Advisory Editor, Agrawal, Sunil K., Advisory Editor, Beran, Jaroslav, editor, Bílek, Martin, editor, Václavík, Miroslav, editor, and Žabka, Petr, editor

Published
2024
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14. On inductive and inverse limits of systems of compact metric spaces and applications

Author

Urbaś, Kamil

Subjects
Mathematics - General Topology
Abstract

The aim of this paper is to prove the existence of inductive and inverse limits of direct and inverse systems in a certain category of compact metric spaces as well as of compact metric groups. Some applications are presented., Comment: 22 pages, 4 figures

Published
2022

15. Nijmegen breakage syndrome: 25-year experience of diagnosis and treatment in Ukraine

Author

Oksana Boyarchuk, Larysa Kostyuchenko, Hayane Akopyan, Anastasiia Bondarenko, Alla Volokha, Anna Hilfanova, Ihor Savchak, Liliia Nazarenko, Nataliia Yarema, Olha Urbas, Iryna Hrabovska, Oleksandr Lysytsia, Andrii Budzyn, Oksana Tykholaz, Mariana Ivanchuk, Olha Bastanohova, Erika Patskun, Nataliia Vasylenko, Yuriy Stepanovskyy, Liudmyla Chernyshova, and Halyna Makukh

Subjects
Nijmegen breakage syndrome, NBN gene, c.657_661del5 variant, malignancies, diagnosis, incidence, Immunologic diseases. Allergy, RC581-607
Abstract

IntroductionNijmegen breakage syndrome (NBS) is an autosomal recessive disorder, characterized by microcephaly, immunodeficiency, and impaired DNA repair. NBS is most prevalent among Slavic populations, including Ukraine. Our study aimed to comprehensively assess the prevalence, diagnosis, clinical data, immunological parameters, and treatment of NBS patients in Ukraine.MethodsWe conducted a retrospective review that included 84 NBS patients from different regions of Ukraine who were diagnosed in 1999-2023. Data from the Ukrainian Registry of NBS and information from treating physicians, obtained using a developed questionnaire, were utilized for analysis.ResultsAmong 84 NBS patients, 55 (65.5%) were alive, 25 (29.8%) deceased, and 4 were lost to follow-up. The median age of patients was 11 years, ranging from 1 to 34 years. Most patients originate from western regions of Ukraine (57.8%), although in recent years, there has been an increase in diagnoses from central and southeastern regions, expanding our knowledge of NBS prevalence. The number of diagnosed patients per year averaged 3.4 and increased from 2.7 to 4.8 in recent years. The median age of NBS diagnosis was 4.0 years (range 0.1-16) in 1999-2007 and decreased to 2.7 in the past 6 years. Delayed physical development was observed in the majority of children up to the age of ten years. All children experienced infections, and 41.3% of them had recurrent infections. Severe infections were the cause of death in 12%. The second most common clinical manifestation of NBS was malignancies (37.5%), with the prevalence of lymphomas (63.3%). Malignancies have been the most common cause of death in NBS patients (72% of cases). Decreased levels of CD4+ and CD19+ were observed in 89.6%, followed by a reduction of CD3+ (81.8%) and CD8+ (62.5%). The level of NK cells was elevated at 62.5%. IgG concentration was decreased in 72.9%, and IgA - in 56.3%. Immunoglobulin replacement therapy was administered to 58.7% of patients. Regular immunoglobulin replacement therapy has helped reduce the frequency and severity of severe respiratory tract infections.ConclusionImprovements in diagnosis, including prenatal screening, newborn screening, monitoring, and expanding treatment options, will lead to better outcomes for NBS patients.

Published
2024
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18. Simulational investigation of self-aligned bilayer linear grating enabling highly enhanced responsivity of MWIR InAs/GaSb type-II superlattice (T2SL) photodetector

Author

Minseok Lee, Zahyun Ku, Seungjin Jeong, Jehwan Hwang, Junghyun Lee, Junoh Kim, Sang-Woo Kang, Augustine Urbas, Hagyoul Bae, and Bongjoong Kim

Subjects
Medicine, Science
Abstract

Abstract Linear gratings polarizers provide remarkable potential to customize the polarization properties and tailor device functionality via dimensional tuning of configurations. Here, we extensively investigate the polarization properties of single- and double-layer linear grating, mainly focusing on self-aligned bilayer linear grating (SABLG), serving as a wire grid polarizer in the mid-wavelength infrared (MWIR) region. Computational analyses revealed the polarization properties of SABLG, highlighting enhancement in TM transmission and reduction in TE transmission compared to single-layer linear gratings (SLG) due to optical cavity effects. As a result, the extinction ratio is enhanced by approximately 2724-fold in wavelength 3–6 μm. Furthermore, integrating the specially designed SABLG with an MWIR InAs/GaSb Type-II Superlattice (T2SL) photodetector yields a significantly enhanced spectral responsivity. The TM-spectral responsivity of SABLG is enhanced by around twofold than the bare device. The simulation methodology and analytical analysis presented herein provide a versatile route for designing optimized polarimetric structures integrated into infrared imaging devices, offering superior capabilities to resolve linear polarization signatures.

Published
2024
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19. The Apogee to Apogee Path Sampler

Author

Sherlock, Chris, Urbas, Szymon, and Ludkin, Matthew

Subjects
Statistics - Computation, Statistics - Methodology
Abstract

Amongst Markov chain Monte Carlo algorithms, Hamiltonian Monte Carlo (HMC) is often the algorithm of choice for complex, high-dimensional target distributions; however, its efficiency is notoriously sensitive to the choice of the integration-time tuning parameter, $T$. When integrating both forward and backward in time using the same leapfrog integration step as HMC, the set of local maxima in the potential along a path, or apogees, is the same whatever point (position and momentum) along the path is chosen to initialise the integration. We present the Apogee to Apogee Path Sampler (AAPS), which utilises this invariance to create a simple yet generic methodology for constructing a path, proposing a point from it and accepting or rejecting that proposal so as to target the intended distribution. We demonstrate empirically that AAPS has a similar efficiency to HMC but is much more robust to the setting of its equivalent tuning parameter, the number of apogees that the path crosses., Comment: 44 pages, 10 figures

Published
2021

22. Bayesian inference and prediction for the inhomogeneous Poisson process, and a robust competitor to Hamiltonian Monte Carlo

Author

Urbas, Szymon

Abstract

Modern Bayesian statistical methods utilise a plethora of mathematical and computational techniques to tackle real-world problems. The probabilistic formulation of a given model and its parameters can be used for making reliable predictions about future observations whilst accounting for parameter uncertainty. This, however, comes at a cost where the posterior distribution of the model parameters is not always tractable. To overcome intractability, computationally-intensive methods for Bayesian inference are employed; often, these need to be picked on a case-by-case basis, with algorithms themselves requiring careful tuning of the respective tuning parameters. This thesis explores three separate problems in Bayesian modelling and inference. In all three parts, the proposed solutions are based on computational methods relying on the simulation of particular stochastic processes. The first contribution tackles the problem of modelling and predicting recruitment to clinical trials. Phase III trials usually involve large recruitment drives across hundreds of centres to enrol a target number of patients in a prespecified period. It is crucial to accurately monitor the recruitment process at interim points of a study. Early detection of poor recruitment can inform trial organisers when making changes III to the protocol. We introduce a new flexible hierarchical model for multi-centre recruitment based on the inhomogeneous Poisson process. The simple, yet flexible, form of the model allows for efficient and user-friendly inference carried out in the Bayesian paradigm. The proposed framework outperforms state-of-the-art methods for recruitment prediction and is robust to model misspecifications. The second contribution is in the area of exact Cox process inference. A Cox process is a Poisson point process where the intensity itself is stochastic. Bayesian inference for Cox process models is an inherently difficult problem as the likelihood function of the intensity given observed data is not available in a closed form; this is known as a doubly-intractable problem. We introduce a novel unbiased estimator of the Cox process likelihood for processes with bounded intensity. The estimator can be implemented inside a random-weight particle filter to carry out exact inference (in a Monte Carlo sense) on the intensity function. In addition, it allows for efficient inference of the model hyperparameters through the pseudo-marginal Metropolis-Hastings algorithm. The third contribution is a competitor to the Hamiltonian Monte Carlo (HMC) algorithm. HMC is commonly used for problems in computational physics and Bayesian inference. It is a gradient-based algorithm, ideal for sampling from complex and high-dimensional targets. The main caveat, however, is the algorithm's sensitivity to one of the tuning parameters. In this thesis, we introduce a new algorithm, the Apogee to Apogee Path Sampler, which is based on HMC and thus benefits from many of its desirable properties. We show it has comparable efficiency to HMC but is much more robust to the misspecification of its tuning parameters.

Published
2022
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26. Hardware Implementation of an OPC UA Server for Industrial Field Devices

Author

Bauer, Heiner, Höppner, Sebastian, Iatrou, Chris, Charania, Zohra, Hartmann, Stephan, Rehman, Saif-Ur, Dixius, Andreas, Ellguth, Georg, Walter, Dennis, Uhlig, Johannes, Neumärker, Felix, Berthel, Marc, Stolba, Marco, Kelber, Florian, Urbas, Leon, and Mayr, Christian

Subjects
Computer Science - Hardware Architecture
Abstract

Industrial plants suffer from a high degree of complexity and incompatibility in their communication infrastructure, caused by a wild mix of proprietary technologies. This prevents transformation towards Industry 4.0 and the Industrial Internet of Things. Open Platform Communications Unified Architecture (OPC UA) is a standardized protocol that addresses these problems with uniform and semantic communication across all levels of the hierarchy. However, its adoption in embedded field devices, such as sensors and actors, is still lacking due to prohibitive memory and power requirements of software implementations. We have developed a dedicated hardware engine that offloads processing of the OPC UA protocol and enables realization of compact and low-power field devices with OPC UA support. As part of a proof-of-concept embedded system we have implemented this engine in a 22 nm FDSOI technology. We measured performance, power consumption, and memory footprint of our test chip and compared it with a software implementation based on open62541 and a Raspberry Pi 2B. Our OPC UA hardware engine is 50 times more energy efficient and only requires 36 KiB of memory. The complete chip consumes only 24 mW under full load, making it suitable for low-power embedded applications., Comment: 5 pages, 6 figures, 2 tables

Published
2021
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32. Two-Eyed Seeing and Scientific Holism in A New Science|Environment|Health Pedagogy

Author

Zeyer, Albert, Álvaro, Nuria, Claussen, Christina, Enzingmüller, Carolin, Gavidia, Valentín, Malmberg, Claes, Mayoral, Olga, Parchmann, Ilka, Urbas, Anders, Kremer, Kerstin, Welzel-Breuer, Manuela, Editor-in-Chief, Constantinou, Costas K., Editorial Board Member, Gericke, Niklas, Editorial Board Member, Levrini, Olivia, Editorial Board Member, Martins, Isabel, Editorial Board Member, Martin, Sonya, Editorial Board Member, Millar, Robin, Editorial Board Member, Stuchlíková, Iva, Editorial Board Member, Vesterinen, Veli-Matti, Editorial Board Member, Zeyer, Albert, Editorial Board Member, Carvalho, Graça S., editor, Afonso, Ana Sofia, editor, and Anastácio, Zélia, editor

Published
2023
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35. All femtosecond optical pump and X-ray probe: holey-axicon for free electron laser

Author

Anand, V., Maksimovic, J., Katkus, T., Ng, S. H., Ulcinas, O., Mikutis, M., Baltrukonis, J., Urbas, A., Slekys, G., Ogura, H., Sagae, D., Pikuz, T., Somekawa, T., Ozaki, N., Vailionis, A., Seniutinas, G., Mizeikis, V., Glazebrook, K., Brodie, J. P., Stoddart, P. R., Rapp, L., Rode, A. V., Gamaly, E. G., and Juodkazis, S.

Subjects
Physics - Optics, High Energy Physics - Experiment
Abstract

We put forward a co-axial pump(optical)-probe(X-rays) experimental concept and show performance of the optical component. A Bessel beam generator with a central 100 micrometers-diameter hole (on the optical axis) was fabricated using femtosecond (fs) laser structuring inside a silica plate. This flat-axicon optical element produces a needle-like axial intensity distribution which can be used for the optical pump pulse. The fs-X-ray free electron laser (X-FEL) beam of sub-1 micrometer diameter can be introduced through the central hole along the optical axis onto a target as a probe. Different realisations of optical pump are discussed. Such optical elements facilitate alignment of ultra-short fs-pulses in space and time and can be used in light-matter interaction experiments at extreme energy densities on the surface and in the volume of targets. Full advantage of ultra-short 10 fs X-FEL probe pulses with fs-pump(optical) opens an unexplored temporal dimension of phase transitions and the fastest laser-induced rates of material heating and quenching. A wider field of applications of fs-laser-enabled structuring of materials and design of specific optical elements for astrophotonics is presented.

Published
2020

36. Guided Mode Resonances in Flexible 2D THz Photonic Crystals

Author

Kyaw, C., Yahiaoui, R., Chase, Z. A., Tran, V., Baydin, A., Tay, F., Kono, J., Manjappa, M., Singh, R., Abeysinghe, D. C., Urbas, A. M., and Searles, T. A.

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

In terahertz (THz) photonics, there is an ongoing effort to develop thin, compact devices such as dielectric photonic crystal (PhC) slabs with desirable light matter interactions. However, previous works in THz PhC slabs are limited to rigid substrates with thicknesses $\sim$ 100s of micrometers. Dielectric PhC slabs have been shown to possess in-plane modes that are excited by external radiation to produce sharp guided mode resonances with minimal absorption for applications in sensors, optics and lasers. Here, we confirm the existence of guided resonances in a membrane-type THz PhC slab with subwavelength ($\lambda_{0}$/6 - $\lambda_{0}$/12) thicknesses of flexible dielectric polyimide films. The transmittance of the guided resonances was measured for different structural parameters of the unit cell. Furthermore, we exploited the flexibility of the samples to modulate the linewidth of the guided modes down to 1.5 GHz for bend angle of $\theta$ $\geq 5^{\circ}$; confirmed experimentally by the suppression of these modes. The mechanical flexibility of the device allows for an additional degree of freedom in system design for optical components for high-speed communications, soft wearable photonics and implantable medical devices., Comment: 5 pages, 4 figures

Published
2020

39. Клінічний випадок маніфестації первинного імунодефіциту з лімфоми Беркіта

Author

O.V. Urbas, Z.V. Vovk, O.A. Holodnykh, U.I. Alekseieva, and A.L. Ivanenko

Subjects
лімфома, первинний імунодефіцит, клінічні особливості, діагностика, Pediatrics, RJ1-570
Abstract

Лімфома - це група неопластичних захворювань, що характеризуються клональною проліферацією лімфоїдних клітин, яке проявляється відповіддю різних стадій диференціації нормальних В-лімфоцитів, рідше Т-лімфоцитів або природних кілерів. Етіологія більшості лімфом не відома. Одним із доказових причинно-наслідкових факторів є вірусні інфекції та імунодефіцитні стани. Мета - на підставі даних клінічного випадку привернути увагу лікарів не імунологів до особливостей виявлення первинних імунодефіцитів (ПІД) та проблеми їхньої пізньої діагностики. Клінічний випадок. Наведено клінічне спостереження тяжкого не диференційованого генетично ПІД. Виділено скринінгові ознаки ПІД у вигляді рецидивного інфекційного синдрому дихальних шляхів та частого тривалого застосування антибактеріальних препаратів, які мають насторожити лікарів щодо клініко-імунологічних маркерів первинного імунодефіциту. Наявність у хлопчика лімфоми Беркіта також не виключає можливості прояву імунодефіцитного стану, як вторинного на тлі медикаментозного лікування лімфоми, так і первинного, який може проявитись у пубертатному віці. Загальний варіабельний імунодефіцит є одним із тих ПІД, які «стартують» із лімфоми Беркіта. Висновки. Проблема низького виявлення ймовірного ПІД у дітей в Україні є актуальною. Лікарі первинної ланки є першими, які мають змогу частково вирішити цю проблему, дослідивши інфекційний анамнез та лабораторні скринінгові аналізи. Існує неповна обізнаність суміжних медичних спеціальностей щодо ознак ПІД при лімфопроліферативному синдромі в дітей. Цей клінічний випадок показує ознаки ПІД у ранньому віці. Низьке виявлення також пов’язане із задовільною спроможністю і якістю та/або відсутністю імунологічних лабораторних обстежень, особливо в державних закладах. Дослідження виконано відповідно до принципів Гельсінської декларації. На проведення досліджень отримано інформовану згоду батьків дитини. Автори заявляють про відсутність конфлікту інтересів.

Published
2023
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40. Promoting thinking in terms of causal structures: Impact on performance in solving complex problems

Author

Kessler, Franziska, Proske, Antje, Goldwater, Micah, Urbas, Leon, Greiff, Samuel, and Narciss, Susanne

Subjects
cognitive science
Abstract

Goldwater and Gentner (2015) showed that the sensitivity for causal structures can be promoted with an intervention combining explication of causal models and guided structural alignment of situations from disparate fields with the same underlying causal model. We extended this intervention with inference questions and combined it with a subsequent complex problem-solving (CPS) task, in order to investigate whether enhanced sensitivity for causal structures results in better performance in CPS. This study (N = 108) compares the CPS performance indicators knowledge acquisition and knowledge application among three experimental groups (intervention, intervention extended with inference questions, control group) and reveals the following results: 1) The effectiveness of the intervention in increasing the sensitivity for causal structures was replicated. 2) Sensitivity for causal structures and CPS performance indicators were significantly positively correlated. 3) There is no direct effect of the intervention on CPS performance, but an indirect-only effect via enhanced sensitivity.

Published
2021

42. Interim recruitment prediction for multi-centre clinical trials

Author

Urbas, Szymon, Sherlock, Chris, and Metcalfe, Paul

Subjects
Statistics - Methodology, Statistics - Applications
Abstract

We introduce a general framework for monitoring, modelling, and predicting the recruitment to multi-centre clinical trials. The work is motivated by overly optimistic and narrow prediction intervals produced by existing time-homogeneous recruitment models for multi-centre recruitment. We first present two tests for detection of decay in recruitment rates, together with a power study. We then introduce a model based on the inhomogeneous Poisson process with monotonically decaying intensity, motivated by recruitment trends observed in oncology trials. The general form of the model permits adaptation to any parametric curve-shape. A general method for constructing sensible parameter priors is provided and Bayesian model averaging is used for making predictions which account for the uncertainty in both the parameters and the model. The validity of the method and its robustness to misspecification are tested using simulated datasets. The new methodology is then applied to oncology trial data, where we make interim accrual predictions, comparing them to those obtained by existing methods, and indicate where unexpected changes in the accrual pattern occur., Comment: 36 pages, 23 figures

Published
2019

50. Introduction

Author

Salimi, Fabienne-Fariba, primary, Safavi, Ali Akbar, additional, Urbas, Leonhard, additional, and Salimi, Frederic, additional

Published
2023
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