Your search keyword '"Grams A"' showing total 8,636 results

1. SYMPOL: Symbolic Tree-Based On-Policy Reinforcement Learning

Author

Marton, Sascha, Grams, Tim, Vogt, Florian, Lüdtke, Stefan, Bartelt, Christian, and Stuckenschmidt, Heiner

Subjects

Computer Science - Machine Learning

Abstract

Reinforcement learning (RL) has seen significant success across various domains, but its adoption is often limited by the black-box nature of neural network policies, making them difficult to interpret. In contrast, symbolic policies allow representing decision-making strategies in a compact and interpretable way. However, learning symbolic policies directly within on-policy methods remains challenging. In this paper, we introduce SYMPOL, a novel method for SYMbolic tree-based on-POLicy RL. SYMPOL employs a tree-based model integrated with a policy gradient method, enabling the agent to learn and adapt its actions while maintaining a high level of interpretability. We evaluate SYMPOL on a set of benchmark RL tasks, demonstrating its superiority over alternative tree-based RL approaches in terms of performance and interpretability. To the best of our knowledge, this is the first method, that allows a gradient-based end-to-end learning of interpretable, axis-aligned decision trees within existing on-policy RL algorithms. Therefore, SYMPOL can become the foundation for a new class of interpretable RL based on decision trees. Our implementation is available under: https://github.com/s-marton/SYMPOL

Published

2024

2. Quantifying intra-regime weather variability for energy applications

Author

Gerighausen, Judith, Dorrington, Joshua, Osman, Marisol, and Grams, Christian M.

Subjects

Physics - Atmospheric and Oceanic Physics

Abstract

Weather regimes describe the large-scale atmospheric circulation in the mid-latitudes in terms of a few circulation states that modulate regional surface weather. Subseasonal forecasts of prevailing weather regimes have proven skillful and valuable to energy applications. Previous studies have mainly focused on the mean surface weather associated with a regime. However, we show in this paper that variability of surface weather within a regime cannot be ignored. These intra-regime variations, caused by different `subflavors' of the same regime, can be captured by continuous regime indices and allow a refined application of weather regimes. Here we discuss wintertime temperature and wind speed regime anomalies for four selected countries, and provide guidance on the operational use and interpretation of regime forecasts. In an accompanying supplementary dataset we provide similar analysis for all European countries, seasons and key energy variables, useful as an applied reference., Comment: 13 pages, 4 figures, supplement in SI.pdf. Submitted to Geophysical Research Letters

Published

2024

3. A lightweight residual network for unsupervised deformable image registration

Author

Siyal, Ahsan Raza, Grams, Astrid Ellen, and Haltmeier, Markus

Subjects

Computer Science - Computer Vision and Pattern Recognition, Mathematics - Numerical Analysis

Abstract

Accurate volumetric image registration is highly relevant for clinical routines and computer-aided medical diagnosis. Recently, researchers have begun to use transformers in learning-based methods for medical image registration, and have achieved remarkable success. Due to the strong global modeling capability, Transformers are considered a better option than convolutional neural networks (CNNs) for registration. However, they use bulky models with huge parameter sets, which require high computation edge devices for deployment as portable devices or in hospitals. Transformers also need a large amount of training data to produce significant results, and it is often challenging to collect suitable annotated data. Although existing CNN-based image registration can offer rich local information, their global modeling capability is poor for handling long-distance information interaction and limits registration performance. In this work, we propose a CNN-based registration method with an enhanced receptive field, a low number of parameters, and significant results on a limited training dataset. For this, we propose a residual U-Net with embedded parallel dilated-convolutional blocks to enhance the receptive field. The proposed method is evaluated on inter-patient and atlas-based datasets. We show that the performance of the proposed method is comparable and slightly better than transformer-based methods by using only $\SI{1.5}{\percent}$ of its number of parameters.

Published

2024

4. Multivariate post-processing of probabilistic sub-seasonal weather regime forecasts

Author

Mockert, Fabian, Grams, Christian M., Lerch, Sebastian, Osman, Marisol, and Quinting, Julian

Subjects

Physics - Atmospheric and Oceanic Physics

Abstract

Reliable forecasts of quasi-stationary, recurrent, and persistent large-scale atmospheric circulation patterns (weather regimes) are crucial for various socio-economic sectors. Despite steady progress, probabilistic weather regime predictions still exhibit biases in the exact timing and amplitude of weather regimes. This study thus aims at advancing probabilistic weather regime predictions in the North Atlantic-European region through ensemble post-processing. Here, we focus on the representation of seven year-round weather regimes in the sub-seasonal to seasonal reforecasts of the European Centre for Medium-Range Weather Forecasts. The manifestation of each of the seven regimes can be expressed by a continuous weather regime index, representing the projection of the instantaneous 500-hPa geopotential height anomalies (Z500A) onto the respective mean regime pattern. We apply a two-step ensemble post-processing involving first univariate ensemble model output statistics and second ensemble copula coupling, which restores the multivariate dependency structure. Compared to current forecast calibration practices, which rely on correcting the Z500 field by the lead time dependent mean bias, our approach extends the forecast skill horizon for daily/instantaneous regime forecasts moderately by 1.2 days to 14.5 days. Additionally, to our knowledge our study is the first to systematically evaluate the multivariate aspects of forecast quality for weather regime forecasts. Our method outperforms current practices in the multivariate aspect, as measured by the energy and variogram score. Still our study shows, that even with advanced post-processing weather regime prediction becomes difficult beyond 14 days, which likely points towards intrinsic limits of predictability for daily/instantaneous regime forecasts. The proposed method can easily be applied to operational weather regime forecasts., Comment: submitted to Quarterly Journal of the Royal Meteorological Society (QJRMS)

Published

2024

5. Early postoperative outcomes following bariatric surgery in the United States: Are racial disparities improving?

Author

Mustian, Margaux N., Naik, Gurudatta, Wood, Lauren, Wong, Kristen, Stahl, Richard, Grams, Jayleen, and Chu, Daniel I.

Published

2024

6. Mid-life plasma proteins associated with late-life prefrailty and frailty: a proteomic analysis

Author

Liu, Fangyu, Schrack, Jennifer A., Walston, Jeremy, Mathias, Rasika A., Windham, B. Gwen, Grams, Morgan E., Coresh, Josef, and Walker, Keenan A.

Published

2024

7. Improving forecasts of precipitation extremes over Northern and Central Italy using machine learning

Author

Grazzini, Federico, Dorrington, Joshua, Grams, Christian M., Craig, George C., Magnusson, Linus, and Vitart, Frederic

Subjects

Physics - Atmospheric and Oceanic Physics

Abstract

The accurate prediction of intense precipitation events is one of the main objectives of operational weather services. This task is even more relevant nowadays, with the rapid progression of global warming which intensifies these events. Numerical weather prediction models have improved continuously over time, providing uncertainty estimation with dynamical ensembles. However, direct precipitation forecasting is still challenging. Greater availability of machine learning tools paves the way to a hybrid forecasting approach, with the optimal combination of physical models, event statistics, and user-oriented post-processing. Here we describe a specific chain, based on a random forest pipeline, specialised in recognizing favourable synoptic conditions leading to precipitation extremes and subsequently classifying extremes into predefined types. The application focuses on Northern and Central Italy, taken as a testbed region, but is seamlessly extensible to other regions and timescales. The system is called MaLCoX (Machine Learning model predicting Conditions for eXtreme precipitation) and is running daily at the Italian regional weather service of ARPAE Emilia-Romagna. MalCoX has been trained with the ARCIS gridded high-resolution precipitation dataset as the target truth, using the last 20 years of the ECMWF re-forecast dataset as input predictors. We show that, with a long enough training period, the optimal blend of larger-scale information with direct model output improves the probabilistic forecast accuracy of extremes in the medium range. In addition, with specific methods, we provide a useful diagnostic to convey to forecasters the underlying physical storyline which makes a meteorological event extreme., Comment: 18 pages, 13 figures

Published

2024

8. Effects of dilute neutron matter on the neutron star crust equation of state

Author

Grams, Guilherme and Margueron, Jerome

Subjects

Nuclear Theory, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We develop a compressible liquid-drop model to describe the crust of neutron stars for which the role of the nuclear clusters, the neutron gas, and the electrons are clearly identified. The novelty relies on the contribution of the neutron gas, which is qualitatively adjusted to reproduce 'ab initio' predictions in dilute neutron matter. We relate the properties of dilute neutron matter to the ones of neutron stars crust and we compare the mean-field approximation to an improved approach that better describes dilute neutron matter. The latter is quite sensitive to the unitary limit, a universal feature of Fermi systems having a large value of the scattering length and a small interaction range. While the impact of the accurate description of dilute neutron matter is important in uniform matter (up to 30\% corrections with respect to a mean-field calculations), we find a reduction of this impact in the context of the crust of neutron stars due to the additional matter components (nuclear clusters and electrons). In agreement with our previous works, dilute neutron matter is however a necessary ingredient for accurate predictions of the properties of the crust of neutron stars.

Published

2024

9. Magnetic-field-induced critical dynamics in magnetoelectric TbPO$_4$

Author

Grams, Christoph P., Grüninger, Markus, and Hemberger, Joachim

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report on the magnetoelectric dynamics in the linear magnetoelectric antiferromagnet TbPO$_4$ studied by broadband dielectric spectroscopy. For the phase transition into the magnetoelectric antiferromagnetic phase at $T_{N} \approx 2.3$ K, a finite magnetic field $H$ induces critical behavior in the quasi-static permittivity $\varepsilon'$. Plotting the corresponding anomaly as function of $T/T_N(H)$, we observe the scaling behavior $\Delta \varepsilon' \propto H^2$, a clear fingerprint of linear magnetoelectric antiferromagnets. Above the phase transition, we find a critical slowing down of the ferroic fluctuations in finite magnetic field. This behaviour can be understood via a magnetic-field-induced relaxational response that resembles the soft-mode behaviour in canonical ferroelectrics and multiferroics.

Published

2023

10. Dihydropyridine Calcium Channel Blockers and Kidney Outcomes

Author

Blum, Matthew F., Surapaneni, Aditya, Chang, Alexander, Inker, Lesley A., Chen, Teresa K., Appel, Lawrence J., Shin, Jung-Im, and Grams, Morgan E.

Published

2024

11. Drought acclimation of beech seedlings depends largely on their rooting patterns and less on the fungal communities in soils

Author

Danzberger, Jasmin, Hikino, Kyohsuke, Landhäusser, Simon M., Hesse, Benjamin D., Meyer, Sophie, Buegger, Franz, Weikl, Fabian, Grams, Thorsten E. E., and Pritsch, Karin

Published

2024

12. Precursors and pathways: dynamically informed extreme event forecasting demonstrated on the historic Emilia-Romagna 2023 flood

Author

J. Dorrington, M. Wenta, F. Grazzini, L. Magnusson, F. Vitart, and C. M. Grams

Subjects

Environmental technology. Sanitary engineering, TD1-1066, Geography. Anthropology. Recreation, Environmental sciences, GE1-350, Geology, QE1-996.5

Abstract

The ever-increasing complexity and data volumes of numerical weather prediction demand innovations in the analysis and synthesis of operational forecast data. Here we show how dynamical thinking can offer directly applicable forecast information, taking as a case study the extreme northern Italy flooding of May 2023. We compare this event with long-lasting historical northern Italy rainfall events in order to determine (a) why it was so extreme, (b) how well it was predicted, and (c) how we may improve our predictions of such extremes. Lagrangian analysis shows, in line with previous work, that 48-hourly extreme rainfall in Italy can be caused by moist air masses originating from the North Atlantic; North Africa; and, to a lesser extent, eastern Europe, with compounding moisture contributions from all three regions driving the May 2023 event. We identify the large-scale precursors of typical northern Italy rainfall extremes based on geopotential height and integrated vapour transport fields. We show in European Centre for Medium-Range Weather Forecasts (ECMWF) operational forecasts that a precursor perspective was able to identify the growing possibility of the Emilia-Romagna extreme event 8 d beforehand – 4 d earlier than the direct precipitation forecast. Such dynamical precursors prove to be well suited for identifying and interpreting predictability barriers and could help build forecasters' understanding of unfolding extreme scenarios in the medium range. We conclude by discussing the broader implications and operational potential of dynamically rooted metrics for understanding and predicting extreme events, both in retrospect and in real time.

Published

2024

13. Standards of anesthesiology practice during neuroradiological interventions

Author

Lederer Wolfgang, Grams Astrid, Helbok Raimund, Stichlberger Martina, Bale Reto, and Wiedermann Franz J.

Subjects

anesthesia guidelines, anesthesia management, interventional neuroradiology, standard operating procedures, Medicine

Abstract

Interventional radiology is a rapidly growing discipline with an expanding variety of indications and techniques in pediatric and adult patients. Accordingly, the number of procedures during which monitoring either under sedation or under general anesthesia is needed is increasing. In order to ensure high-quality care as well as patient comfort and safety, implementation of anes-thesiology practice guidelines in line with institutional radiology practice guidelines is paramount [1]. However, practice guidelines are no substitute for lack of communi-cation between specialties.

Published

2016

14. Production and immunological characterization of scFv specific to epitope of opisthorchis viverrini rhophilin-associated tail protein 1-like (OvROPN1L)

Author

Geadkaew-Krenc, Amornrat, Krenc, Dawid, Thanongsaksrikul, Jeeraphong, Grams, Rudi, Phadungsil, Wansika, Glab-Ampai, Kittirat, Chantree, Pathanin, and Martviset, Pongsakorn

Published

2023

15. Skyrme-Hartree-Fock-Bogoliubov mass models on a 3D mesh: III. From atomic nuclei to neutron stars

Author

Grams, Guilherme, Ryssens, Wouter, Scamps, Guillaume, Goriely, Stephane, and Chamel, Nicolas

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

We present BSkG3, the latest entry in the Brussels-Skyrme-on-a-grid series of large-scale models of nuclear structure based on an energy density functional. Compared to its predecessors, the new model offers a more realistic description of nucleonic matter at the extreme densities relevant to neutron stars. This achievement is made possible by incorporating a constraint on the infinite nuclear matter properties at high densities in the parameter adjustment, ensuring in this way that the predictions of BSkG3 for the nuclear Equation of State are compatible with the observational evidence for heavy pulsars with $M > 2 M_{\odot}$. Instead of the usual phenomenological pairing terms, we also employ a more microscopically founded treatment of nucleon pairing, resulting in extrapolations to high densities that are in line with the predictions of advanced many-body methods and are hence more suited to the study of superfluidity in neutron stars. By adopting an extended form of the Skyrme functional, we are able to reconcile the description of matter at high densities and at saturation density: the new model further refines the description of atomic nuclei offered by its predecessors. A qualitative improvement is our inclusion of ground state reflection asymmetry, in addition to the spontaneous breaking of rotational, axial, and time-reversal symmetry. Quantitatively, the model offers lowered root-mean-square deviations on 2457 masses (0.631 MeV), 810 charge radii (0.0237 fm) and an unmatched accuracy with respect to 45 primary fission barriers of actinide nuclei (0.33 MeV). Reconciling the complexity of neutron stars with those of atomic nuclei establishes BSkG3 as a tool of choice for applications to nuclear structure, the nuclear equation of state and nuclear astrophysics in general.

Published

2023

16. Domino: A new framework for the automated identification of weather event precursors, demonstrated for European extreme rainfall

Author

Dorrington, Joshua, Grams, Christian, Grazzini, Federico, Magnusson, Linus, and Vitart, Frederic

Subjects

Physics - Atmospheric and Oceanic Physics, Physics - Data Analysis, Statistics and Probability

Abstract

A number of studies have investigated the large-scale drivers and upstream-precursors of extreme weather events, making it clear that the earliest warning signs of extreme events can be remote in both time and space from the impacted region. Integrating and leveraging our understanding of dynamical precursors provides a new perspective on ensemble forecasting for extreme events, focused on building story-lines of possible event evolution. This then acts as a tool for raising awareness of the conditions conducive to high-impact weather, and providing early warning of their possible development. However, operational applications of this developing knowledge-base is limited so far, perhaps for want of a clear framework for doing so. Here, we present such a framework, supported by open software tools, designed for identifying large-scale precursors of categorical weather events in an automated fashion, and for reducing them to scalar indices suitable for statistical prediction, forecast interpretation, and model validation. We demonstrate this framework by systematically analysing the precursor circulations of daily rainfall extremes across 18 regional- to national-scale European domains. We discuss the precursor rainfall dynamics for three disparate regions, and show our findings are consistent with, and extend, previous work. We provide an estimate of the predictive utility of these precursors across Europe based on logistic regression, and show that large-scale precursors can usefully predict heavy rainfall between two and six days ahead, depending on region and season. We further show how for more continental-scale applications the regionally-specific precursors can be synthesised into a minimal set of indices that drive heavy precipitation. We then provide comments and guidance for generalisation and application of our demonstrated approach to new variables, timescales and regions., Comment: 3 figure SI, 22 manuscript pages, 10 figures, submitted to QJRMS

Published

2023

17. Dynamic Interval Restrictions on Action Spaces in Deep Reinforcement Learning for Obstacle Avoidance

Author

Grams, Tim

Subjects

Computer Science - Machine Learning, Computer Science - Robotics

Abstract

Deep reinforcement learning algorithms typically act on the same set of actions. However, this is not sufficient for a wide range of real-world applications where different subsets are available at each step. In this thesis, we consider the problem of interval restrictions as they occur in pathfinding with dynamic obstacles. When actions that lead to collisions are avoided, the continuous action space is split into variable parts. Recent research learns with strong assumptions on the number of intervals, is limited to convex subsets, and the available actions are learned from the observations. Therefore, we propose two approaches that are independent of the state of the environment by extending parameterized reinforcement learning and ConstraintNet to handle an arbitrary number of intervals. We demonstrate their performance in an obstacle avoidance task and compare the methods to penalties, projection, replacement, as well as discrete and continuous masking from the literature. The results suggest that discrete masking of action-values is the only effective method when constraints did not emerge during training. When restrictions are learned, the decision between projection, masking, and our ConstraintNet modification seems to depend on the task at hand. We compare the results with varying complexity and give directions for future work., Comment: Master Thesis

Published

2023

18. Investigation of Fasciola gigantica in freshwater snail Radix (Lymnaea) spp. In the highly parasite-prevalent area of Nakhon Ratchasima Province, Thailand

Author

Pongsakorn Martviset, Pathanin Chantree, Amornrat Geadkaew-Krenc, Pantip Piyatadsananon, Ruttiroj Jirojwong, Chompunoot Wangboon, Mantana Jamklang, Sirilak Chumkiew, Rawipreeya Poomkhokrak, Nanthawat Kosa, Salisa Chaimon, Bumpenporn Sanannam, Rudi Grams, and Wansika Phadungsil

Subjects

Fasciola gigantica, Lymnaea (Radix) spp, freshwater snail, Thailand, Veterinary medicine, SF600-1100

Abstract

This study investigates the distribution of the Lymnaea (Radix) spp. in Pak Chong district, Nakhon Ratchasima province, northeast Thailand, where a vast cattle farming area is located and has a high prevalence of Fasciola spp. in the cattle. By random selection, 1,414 snails were collected from the natural and man-made ponds. The snails were recorded for morphology and processed for DNA isolation. The snail species were investigated by conventional PCR using a 16S rDNA-specific primer. The result demonstrated that all collected snails were R. (L.) rubiginosa. Moreover, the infection of Fasciola gigantica in the snails was investigated by PCR using a cytochrome c oxidase I (COX1)-specific primer. The results illustrated that the overall prevalence was 22.5% (318/1414), with the highest prevalence in the Nong Sa Rai subdistrict at 73.6% (81/110), which is the highest prevalence of Fasciola gigantica in the snail host that has ever been reported. The lowest prevalence existed in the Pong Ta Long subdistrict at 3.7% (4/109). Our results corresponded to the previous report on the Fasciola spp. infection in the cattle from this area, and the geographical analysis revealed that the most suspected factor would be the earth dam located in these subdistricts, where many animals live freely during the day. Our findings could be helpful for further parasite control and could trigger the study of the biology and associated factors in the future.

Published

2024

19. Plasma proteomics of acute tubular injury

Author

Schmidt, Insa M., Surapaneni, Aditya L., Zhao, Runqi, Upadhyay, Dhairya, Yeo, Wan-Jin, Schlosser, Pascal, Huynh, Courtney, Srivastava, Anand, Palsson, Ragnar, Kim, Taesoo, Stillman, Isaac E., Barwinska, Daria, Barasch, Jonathan, Eadon, Michael T., El-Achkar, Tarek M., Henderson, Joel, Moledina, Dennis G., Rosas, Sylvia E., Claudel, Sophie E., Verma, Ashish, Wen, Yumeng, Lindenmayer, Maja, Huber, Tobias B., Parikh, Samir V., Shapiro, John P., Rovin, Brad H., Stanaway, Ian B., Sathe, Neha A., Bhatraju, Pavan K., Coresh, Josef, Rhee, Eugene P., Grams, Morgan E., and Waikar, Sushrut S.

Published

2024

20. Comparative CKD risk prediction using homocitrulline and carbamylated albumin: two circulating markers of protein carbamylation

Author

Awwad, Aya, Rhee, Eugene P., Grams, Morgan, Choles, Hernan Rincon, Sondheimer, James, He, Jiang, Chen, Jing, Hsu, Chi-yuan, Vasan, Ramachandran S, Kimmel, Paul L., Wulczyn, Kendra, Berg, Anders, Lash, Jim, Tang, Mengyao, and Kalim, Sahir

Published

2024

21. Glucagon-like peptide-1 receptor agonists and the risk of atrial fibrillation in adults with diabetes: a real-world study

Author

Xu, Yunwen, Boyle, Thomas A., Lyu, Beini, Ballew, Shoshana H., Selvin, Elizabeth, Chang, Alexander R., Inker, Lesley A., Grams, Morgan E., and Shin, Jung-Im

Published

2024

22. Clonal hematopoiesis of indeterminate potential is associated with acute kidney injury

Author

Vlasschaert, Caitlyn, Robinson-Cohen, Cassianne, Chen, Jianchun, Akwo, Elvis, Parker, Alyssa C., Silver, Samuel A., Bhatraju, Pavan K., Poisner, Hannah, Cao, Shirong, Jiang, Ming, Wang, Yinqiu, Niu, Aolei, Siew, Edward, Van Amburg, Joseph C., Kramer, Holly J., Kottgen, Anna, Franceschini, Nora, Psaty, Bruce M., Tracy, Russell P., Alonso, Alvaro, Arking, Dan E., Coresh, Josef, Ballantyne, Christie M., Boerwinkle, Eric, Grams, Morgan, Zhang, Ming-Zhi, Kestenbaum, Bryan, Lanktree, Matthew B., Rauh, Michael J., Harris, Jr, Raymond C., and Bick, Alexander G.

Published

2024

23. Plasma proteomics of acute tubular injury

Author

Insa M. Schmidt, Aditya L. Surapaneni, Runqi Zhao, Dhairya Upadhyay, Wan-Jin Yeo, Pascal Schlosser, Courtney Huynh, Anand Srivastava, Ragnar Palsson, Taesoo Kim, Isaac E. Stillman, Daria Barwinska, Jonathan Barasch, Michael T. Eadon, Tarek M. El-Achkar, Joel Henderson, Dennis G. Moledina, Sylvia E. Rosas, Sophie E. Claudel, Ashish Verma, Yumeng Wen, Maja Lindenmayer, Tobias B. Huber, Samir V. Parikh, John P. Shapiro, Brad H. Rovin, Ian B. Stanaway, Neha A. Sathe, Pavan K. Bhatraju, Josef Coresh, the Kidney Precision Medicine Project, Eugene P. Rhee, Morgan E. Grams, and Sushrut S. Waikar

Subjects

Science

Abstract

Abstract The kidney tubules constitute two-thirds of the cells of the kidney and account for the majority of the organ’s metabolic energy expenditure. Acute tubular injury (ATI) is observed across various types of kidney diseases and may significantly contribute to progression to kidney failure. Non-invasive biomarkers of ATI may allow for early detection and drug development. Using the SomaScan proteomics platform on 434 patients with biopsy-confirmed kidney disease, we here identify plasma biomarkers associated with ATI severity. We employ regional transcriptomics and proteomics, single-cell RNA sequencing, and pathway analysis to explore biomarker protein and gene expression and enriched biological pathways. Additionally, we examine ATI biomarker associations with acute kidney injury (AKI) in the Kidney Precision Medicine Project (KPMP) (n = 44), the Atherosclerosis Risk in Communities (ARIC) study (n = 4610), and the COVID-19 Host Response and Clinical Outcomes (CHROME) study (n = 268). Our findings indicate 156 plasma proteins significantly linked to ATI with osteopontin, macrophage mannose receptor 1, and tenascin C showing the strongest associations. Pathway analysis highlight immune regulation and organelle stress responses in ATI pathogenesis.

Published

2024

24. Towards a process-oriented understanding of the impact of stochastic perturbations on the model climate

Author

M. Deinhard and C. M. Grams

Subjects

Meteorology. Climatology, QC851-999

Abstract

Stochastic parametrisation techniques have been used by operational weather centres for decades to produce ensemble forecasts and to represent uncertainties in the forecast model. Their use has been demonstrated to be highly beneficial, as it increases the reliability of the forecasting system and reduces systematic biases. Despite the random nature of the perturbation techniques, the response of the model can be nonlinear, and the mean state of the model can change. In this study, we attempt to provide a process-based understanding of how stochastic model perturbations affect the model climate. Previous work has revealed sensitivities of the occurrence of diabatically driven, rapidly ascending airstreams to the stochastically perturbed parametrisation tendencies (SPPT) scheme. Such strongly ascending airstreams are linked to different weather phenomena, such as precipitation and upper-tropospheric ridge building in the midlatitudes, which raises the question of whether these processes are also influenced by stochastic perturbations. First, we analyse if rapidly ascending airstreams also show sensitivities to a different perturbation technique – the stochastically perturbed parametrisations (SPP) scheme, which directly represents parameter uncertainty in parametrisations and has recently been developed at the European Centre for Medium-Range Weather Forecasts (ECMWF). By running a set of sensitivity experiments with the Integrated Forecasting System (IFS) and by employing a Lagrangian detection of ascending airstreams, we show that SPP results in a systematic increase in the occurrence of ascending air parcel trajectories compared to simulations with unperturbed model physics. This behaviour is very similar to that of SPPT, although some regional differences are apparent. The one-sided response to the stochastic forcing is also observed when only specific parametrisations are perturbed (only convection parametrisation and all parametrisations but convection), and we hypothesise that the effect cannot be attributed to a single process. Thereafter, we link the frequency changes in ascending airstreams to closely related weather phenomena. While the signal of increased ascending motion is directly transmitted to global precipitation sums for all analysed schemes, changes to the amplitude of the upper-level Rossby wave pattern are more subtle. In agreement with the trajectory analysis, both SPPT and SPP increase the waviness of the upper-level flow and thereby reduce a systematic bias in the model, even though the magnitude is small. Our study presents a coherent process chain that enables us to understand how stochastic perturbations systematically affect the model climate. We argue that weather systems which are characterised by threshold behaviour on the one hand and that serve as a dynamical hinge between spatial scales on the other hand can convert zero-mean perturbations into an asymmetric response and project it onto larger scales.

Published

2024

25. Proteomic Assessment of the Risk of Secondary Cardiovascular Events among Individuals with CKD

Author

Deo, Rajat, Dubin, Ruth F., Ren, Yue, Wang, Jianqiao, Feldman, Harold, Shou, Haochang, Coresh, Josef, Grams, Morgan E., Surapaneni, Aditya L., Cohen, Jordana B., Kansal, Mayank, Rahman, Mahboob, Dobre, Mirela, He, Jiang, Kelly, Tanika, Go, Alan S., Kimmel, Paul L., Vasan, Ramachandran S., Segal, Mark R., Li, Hongzhe, and Ganz, Peter

Published

2024

26. Meteorological conditions during Dunkelflauten in Germany: Characteristics, the role of weather regimes and impacts on demand

Author

Mockert, Fabian, Grams, Christian M., Brown, Tom, and Neumann, Fabian

Subjects

Physics - Atmospheric and Oceanic Physics

Abstract

Renewable generation from wind and solar power is strongly weather-dependent. To plan future sustainable energy systems that are robust to this variability, a better understanding of why and when periods of low wind and solar power output occur is valuable. We call such periods of low wind and solar power output `Dunkelflauten', the German word for dark wind lulls. In this article, we analyse the meteorological conditions during Dunkelflauten in Germany by applying the concept of weather regimes. Weather regimes are quasi-stationary, recurrent, and persistent large-scale circulation patterns which explain multi-day atmospheric variability (5-15 days). We use a regime definition that allows us to distinguish four different types of blocked regimes, characterised by high pressure situations in the North Atlantic-European region. We find that in Germany, Dunkelflauten mainly occur in winter when the solar power output is anyway low and when the wind power output drops for several consecutive days. A high-pressure system over Germany, associated with the European Blocking regime, is responsible for most of the Dunkelflauten. Dunkelflauten during the Greenland Blocking regime are associated with colder temperatures than usual, causing higher electricity demand and presenting a particular challenge as space heating demand electrifies in future. Furthermore, we show that Dunkelflauten occur predominantly when a weather regime is well-established and persists longer than usual. Our study provides novel insight on the occurrence and meteorological characteristics of Dunkelflauten, which is essential for planning resilient energy systems and supporting grid operators to prepare for potential shortages in supply., Comment: 20pages, 11figures, submitted to "Meteorological Applications" by Royal Meteorological Society (https://rmets.onlinelibrary.wiley.com/journal/14698080)

Published

2022

27. PREVENT Risk Score and Use of Cardioprotective Agents in Type 2 Diabetes: An Analysis of NHANES 2013 to 2020

Author

Lucas A. Mavromatis, Dan Wang, Elizabeth Selvin, Jeffery S. Berger, Morgan E. Grams, and Jung‐Im Shin

Subjects

diabetes, GLP‐1RA, NHANES, PREVENT risk score, SGLT2i, Diseases of the circulatory (Cardiovascular) system, RC666-701

Published

2024

28. Estimated GFR in the Korean and US Asian Populations Using the 2021 Creatinine-Based GFR Estimating Equation Without Race

Author

Jimin Hwang, Kwanghyun Kim, Josef Coresh, Lesley A. Inker, Morgan E. Grams, and Jung-Im Shin

Subjects

Asian, chronic kidney disease, estimated glomerular filtration rate, health equity, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Rationale & Objective: In 2021, the new Chronic Kidney Disease Epidemiology Collaboration (CKD-EPI) updated the creatinine-based estimated glomerular filtration rate (eGFR) equation and removed the coefficient for race. The development and validation of this equation involved binarizing race into African American and non-African American, involving few Asian participants. This study aimed to examine the difference between the 2021 equation and the previous 2009 equation on CKD prevalence estimates in 2 Asian populations. Study Design: Observational study using 2 national surveys. Setting & Participants: Participants from the 2019 Korea National Health and Nutrition Survey and participants self-reported as Asian from the 2011-2020 US National Health and Nutrition Survey. Exposure: eGFR using 2009 and 2021 CKD-EPI creatinine equation. Outcomes: Prevalence of CKD (eGFR

Published

2024

29. CKD Prevalence and Incidence in Older Adults Using Estimated GFR With Different Filtration Markers: The Atherosclerosis Risk in Communities Study

Author

Carina M. Flaherty, Aditya Surapaneni, Jesse C. Seegmiller, Josef Coresh, Morgan E. Grams, and Shoshana H. Ballew

Subjects

Chronic kidney disease, aging, eGFR, creatinine, cystatin C, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Rationale & Objective: The prevalence of chronic kidney disease (CKD) is known to increase with age; however, creatinine may be a less reliable filtration marker in older adults. Few studies have investigated the prevalence and progression of CKD using different filtration markers for estimating glomerular filtration rate (GFR). Study Design: A prospective observational cohort study. Setting & Participants: 6,393 White and African American participants aged 65-100 years from the Atherosclerosis Risk in Communities Study (ARIC) at Visit 5, followed longitudinally at Visits 6 and 7. Exposure and Outcome: The eGFR was estimated either by creatinine (eGFRcr), cystatin C (eGFRcys), creatinine and cystatin C (eGFRcr-cys), or using creatinine, cystatin C, and β-2-microglobulin (eGFRcr-cys-b2m). CKD progression was defined as 30% decline in eGFR at follow-up visits. Analytical Approach: Logistic regression models, adjusted for sex, race and study center, diabetes, blood pressure, body mass index, prevalent cardiovascular disease, and heart failure. Results: At Visit 5, the mean age in the study population was 75.8 years, and the mean eGFR ranged from 71.2 to 61.2 mL/min/1.73m2 using eGFRcr or eGFRcys, respectively. The proportion with eGFR

Published

2024

30. DRAMA at the PettingZoo: Dynamically Restricted Action Spaces for Multi-Agent Reinforcement Learning Frameworks.

Author

Michael Oesterle, Tim Grams, and Christian Bartelt

Published

2024

31. RAISE the Bar: Restriction of Action Spaces for Improved Social Welfare and Equity in Traffic Management.

Author

Michael Oesterle, Tim Grams, Christian Bartelt, and Heiner Stuckenschmidt

Published

2024

32. Dielectric responses of spin-density wave in La1.67Sr0.33NiO4 single crystal.

Author

Akbar, Mochammad Yan Pandu, Salam, Syafitra, Grams, Cristoph P., Diantoro, Markus, Prijamboedi, Bambang, Hemberger, Joachim, and Nugroho, Agustinus Agung

Subjects

TRANSITION metal oxides, SINGLE crystals, PERMITTIVITY, DIELECTRICS, SPECTROMETRY

Abstract

The dynamics of spin and charge-ordered phases in La1.67Sr0.33NiO4 single crystal have been investigated using high-frequency dielectric spectroscopy. The measurements were carried out in frequencies between 0.156 and 316 MHz and temperatures from 50 to 320 K. The intrinsic part of the response by excluding the Maxwell–Wagner relaxation region is obtained below TSDW ∼ 120 K. The intrinsic frequency-dependent real dielectric constant ɛ′ and conductivity σ′ can be well described in terms of the constant phase element revealing a complex charge-hopping process. Our results are in agreement with the spin-density-wave puddles' picture observed by the scanning micro-x-ray diffraction technique. These demonstrate that high-frequency dielectric spectroscopy can be utilized for investigating the various order phases in other transition metal oxides by considering their intrinsic responses. [ABSTRACT FROM AUTHOR]

Published

2024

33. New Pen & Old Ink: XRF Analysis of a Unique Archive from 1st c. BCE Tebtunis

Author

Packard Grams, Leah

Subjects

papyri, X-Ray, XRF, geochemistry

Abstract

This study examines the ink used in an archive of >50 bilingual papyri (in Greek and Demotic) written by a single scribe that were found in two crocodile mummies excavated from Tebtunis by B.P. Grenfell and A.S. Hunt in 1900.

Published

2023

34. The mass of odd-odd nuclei in microscopic mass models

Author

Ryssens, W., Scamps, G., Grams, G., Kullmann, I., Bender, M., and Goriely, S.

Subjects

Nuclear Theory

Abstract

Accurate estimates of the binding energy of nuclei far from stability that cannot be produced in the laboratory are crucial to our understanding of nuclear processes in astrophysical scenarios. Models based on energy density functionals have shown that they are capable of reproducing all known masses with root-mean-square error better than 800 keV, while retaining a firm microscopic foundation. However, it was recently pointed out in [M. Hukkanen et al., arXiv:2210.10674] that the recent BSkG1 model fails to account for a contribution to the binding energy that is specific to odd-odd nuclei, and which can be studied by using appropriate mass difference formulas. We analyse here the (lacking) performance of three recent microscopic mass models with respect to such formulas and examine possibilities to remedy this deficiency in the future., Comment: 6 pages, 2 figures; Contribution to the proceedings of INPC 2022, Cape Town, South Africa

Published

2022

35. Progress on Brussels-Skyrme atomic mass models on a grid: stiff neutron matter equation of state

Author

Grams, Guilherme, Ryssens, Wouter, Scamps, Guillaume, Goriely, Stephane, and Chamel, Nicolas

Subjects

Nuclear Theory

Abstract

We report here the current developments on the Brussels-Skyrme-on-a-Grid (BSkG) atomic mass models. In comparison with our previous models, BSkG3 improves the infinite nuclear matter (INM) properties which opens its applications to neutron stars. The results presented here show that BSkG3 preserve the excellent agreement with experimental nuclear masses and radii, together with fission barriers of actinides obtained by BSkG1 and BSkG2, while the nuclear matter properties are considerably improved., Comment: 3 pages, 2 figures

Published

2022

36. Phosphorylation regulates viral biomolecular condensates to promote infectious progeny production

Author

Grams, Nicholas, Charman, Matthew, Halko, Edwin, Lauman, Richard, Garcia, Benjamin A, and Weitzman, Matthew D

Published

2024

37. A synopsis of the SAGES ADOPT course for foregut surgery and its positive impact on surgeons’ confidence levels

Author

Wong, Kristen, Grams, Jayleen, Schwarz, Erin, Wood, Lauren, Dort, Jonathan, and Reinke, Caroline

Published

2024

38. Comparative CKD risk prediction using homocitrulline and carbamylated albumin: two circulating markers of protein carbamylation

Author

Aya Awwad, Eugene P. Rhee, Morgan Grams, Hernan Rincon Choles, James Sondheimer, Jiang He, Jing Chen, Chi-yuan Hsu, Ramachandran S Vasan, Paul L. Kimmel, Kendra Wulczyn, Anders Berg, Jim Lash, Mengyao Tang, Sahir Kalim, and the CRIC Study Investigators

Subjects

Biomarker, Carbamylation, Carbamylated albumin, Chronic kidney disease, Homocitrulline, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Abstract Background Protein carbamylation, a post-translational protein modification primarily driven by urea, independently associates with adverse clinical outcomes in patients with CKD. Biomarkers used to quantify carbamylation burden have mainly included carbamylated albumin (C-Alb) and homocitrulline (HCit, carbamylated lysine). In this study, we aimed to compare the prognostic utility of these two markers in order to facilitate comparisons of existing studies employing either marker alone, and to inform future carbamylation studies. Methods Both serum C-Alb and free HCit levels were assayed from the same timepoint in 1632 individuals with CKD stages 2–4 enrolled in the prospective Chronic Renal Insufficiency Cohort (CRIC) study. Adjusted Cox proportional hazard models were used to assess risks for the outcomes of death (primary) and end stage kidney disease (ESKD) using each marker. C-statistics, net reclassification improvement, and integrated discrimination improvement were used to compare the prognostic value of each marker. Results Participant demographics included mean (SD) age 59 (11) years; 702 (43%) females; 700 (43%) white. C-Alb and HCit levels were positively correlated with one another (Pearson correlation coefficient 0.64). Higher C-Alb and HCit levels showed similar increased risk of death (e.g., the adjusted hazard ratio [HR] for death in the 4th carbamylation quartile compared to the 1st was 1.90 (95% confidence interval [CI] 1.35–2.66) for C-Alb, and 1.89 [1.27–2.81] for HCit; and on a continuous scale, the adjusted HR for death using C-Alb was 1.24 [1.11 to 1.39] per standard deviation increase, and 1.27 [1.10–1.46] using HCit). Both biomarkers also had similar HRs for ESKD. The C-statistics were similar when adding each carbamylation biomarker to base models (e.g., for mortality models, the C-statistic was 0.725 [0.707–0.743] with C-Alb and 0.725 [0.707–0.743] with HCit, both compared to a base model 0.723). Similarities were also observed for the net reclassification improvement and integrated discrimination improvement metrics. Conclusions C-Alb and HCit had similar performance across multiple prognostic assessments. The markers appear readily comparable in CKD epidemiological studies.

Published

2024

39. Microscopic and molecular epidemiology of gastrointestinal nematodes in dairy and beef cattle in Pak Chong district, Nakhon Ratchasima province, Thailand

Author

Chompunoot Wangboon, Pongsakorn Martviset, Mantana Jamklang, Sirilak Chumkiew, Watsana Penkhrue, Sainamthip Rangdist, Ruttiroj Jirojwong, Wansika Phadungsil, Pathanin Chantree, Rudi Grams, Dawid Krenc, Pantip Piyatadsananon, and Amornrat Geadkaew-Krenc

Subjects

beef cattle, dairy cattle, gastrointestinal nematode, strongyle nematodes, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Background and Aim: Gastrointestinal (GI) nematode infection remains an important problem in livestock, particularly cattle. The infection may lead to serious health complications and affect animal products. The objective of this study was to investigate GI nematode infection and its associated risk factors in dairy and beef cattle farmed in Pak Chong District of Nakhon Ratchasima Province, northeast Thailand. Materials and Methods: Fecal specimens were collected from 101 dairy cattle and 100 beef cattle. Formalin-ethyl acetate concentration techniques were used to process the samples and the samples were observed under a light microscope. Samples were subjected to molecular identification of specific genera using conventional polymerase chain reaction and DNA sequencing. Results: The overall prevalence of GI nematode infection was 33.3%. The strongyle nematode was the most significant GI nematode in this area with a prevalence of 28.4%. The prevalence of strongyle nematodes was 58.0% in beef cattle and only 7.9% in dairy cattle. Trichuris spp. was another nematode found in both types of cattle with an overall prevalence of 5.0% with 9.0% in beef cattle and 1.0% in dairy cattle. The results of the epidemiological study indicate that the age of cattle, food, water sources, farming system, and housing floor are the most important risk factors. Among the strongyle nematodes, Ostertagia spp. was the most prevalent (82.0%), followed by Haemonchus spp. (62.3%) and Trichostrongylus spp. (8.2%), respectively. Conclusion: Infection with GI nematodes still exists in this area, particularly in beef cattle. Our reported data may benefit local parasitic control policies in the future.

Published

2024

40. Life cycle dynamics of Greenland blocking from a potential vorticity perspective

Author

S. Hauser, F. Teubler, M. Riemer, P. Knippertz, and C. M. Grams

Subjects

Meteorology. Climatology, QC851-999

Abstract

Blocking over Greenland stands out in comparison to blocking in other regions, as it favors accelerated Greenland Ice Sheet melting and has substantial impacts on surface weather in adjacent regions, particularly in Europe and North America. Climate models notoriously underestimate the frequency of blocking over Greenland in historical periods, but the reasons for this are not entirely clear, as we are still lacking a full dynamical understanding of Greenland blocking from formation through maintenance to decay. This study investigates the dynamics of blocking life cycles over Greenland based on ERA5 reanalysis data from 1979–2021. A year-round weather regime definition allows us to identify Greenland blocking as consistent life cycles with an objective onset, maximum, and decay stage. By applying a new quasi-Lagrangian potential vorticity (PV) perspective, following the negative, upper-tropospheric PV anomalies (PVAs−) associated with the block, we examine and quantify the contribution from different physical processes, including dry and moist dynamics, to the evolution of the PVA− amplitude. We find that PVAs− linked to blocking do not form locally over Greenland but propagate into the region along two distinct pathways (termed “upstream” and “retrogression”) during the days before the onset. The development of PVAs− differs more between the pathways than between seasons. Moist processes play a key role in the amplification of PVAs− before the onset and are linked to midlatitude warm conveyor belts. Interestingly, we find moist processes supporting the westward propagation of retrograding PVAs− from Europe, too, previously thought to be a process dominated by dry-barotropic Rossby wave propagation. After onset, moist processes remain the main contribution to PVA− amplification and maintenance. However, moist processes weaken markedly after the maximum stage, and dry processes, i.e., barotropic, nonlinear wave dynamics, dominate the decay of the PVAs− accompanied by a general decrease in blocking area. Our results corroborate the importance of moist processes in the formation and maintenance of Greenland blocking and suggest that a correct representation of moist processes might help reduce forecast errors linked to blocking in numerical weather prediction models and blocking biases in climate models.

Published

2024

41. Quasimolecular electronic structure of the spin-liquid candidate Ba$_3$InIr$_2$O$_9$

Author

Revelli, A., Sala, M. Moretti, Monaco, G., Magnaterra, M., Attig, J., Peterlini, L., Dey, T., Tsirlin, A. A., Gegenwart, P., Fröhlich, T., Braden, M., Grams, C., Hemberger, J., Becker, P., van Loosdrecht, P. H. M., Khomskii, D. I., Brink, J. van den, Hermanns, M., and Grüninger, M.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The mixed-valent iridate Ba3InIr2O9 has been discussed as a promising candidate for quantum spin-liquid behavior. The compound exhibits Ir$^{4.5+}$ ions in face-sharing IrO6 octahedra forming Ir2O9 dimers with three t2g holes per dimer. Our results establish Ba3InIr2O9 as a cluster Mott insulator. Strong intra-dimer hopping delocalizes the three t2g holes in quasi-molecular dimer states while inter-dimer charge fluctuations are suppressed by Coulomb repulsion. The magnetism of Ba3InIr2O9 emerges from spin-orbit entangled quasi-molecular moments with yet unexplored interactions, opening up a new route to unconventional magnetic properties of 5d compounds. Using single-crystal x-ray diffraction we find the monoclinic space group C2/c already at room temperature. Dielectric spectroscopy shows insulating behavior. Resonant inelastic x-ray scattering (RIXS) reveals a rich excitation spectrum below 1.5 eV with a sinusoidal dynamical structure factor that unambiguously demonstrates the quasi-molecular character of the electronic states. Below 0.3 eV, we observe a series of excitations. According to exact diagonalization calculations, such low-energy excitations reflect the proximity of Ba3InIr2O9 to a hopping-induced phase transition based on the condensation of a quasi-molecular spin-orbit exciton. The dimer ground state roughly hosts two holes in a bonding j=1/2 orbital and the third hole in a bonding j=3/2 orbital., Comment: 14 pages, 10 figures, V2: published version, minor changes

Published

2022

42. Nuclear incompressibility and sound speed in uniform matter and finite nuclei

Author

Grams, Guilherme, Somasundaram, Rahul, Margueron, Jerome, and Khan, Elias

Subjects

Nuclear Theory

Abstract

We have extended the compressible liquid-drop model (CLDM) with a density-dependent surface term (eCLDM), which allows for a unified description of both the nuclear ground state energies and the incompressibility modulus in finite nuclei $K_A$. We analyse the role of the nuclear empirical parameters, e.g., $K_{sat}$, $Q_{sat}$, $L_{sym}$ and $K_{sym}$, which contribute to the bulk properties, as well as the role of the finite size contributions. For the bulk properties, the density and isospin dependencies of the nuclear incompressibility in infinite matter are characterized by introducing new empirical parameters, and two new constraints for the value of $K_{sym}$ are suggested. For finite nuclei, we employ a Bayesian approach coupled to a Markov-Chain Monte-Carlo (MCMC) exploration of the parameter space to confront the model predictions of $K_A$ in Zr, Sn and Pb isotopes to the experimental data. We show that $Q_{sat}\approx -950\pm 200$~MeV describes the experimental measurements of $K_A$ in these isotopes. This value is different from the ones deduced from phenomenological nuclear energy density functionals, suggesting a possible explanation of their difficulty to accurately describe Zr, Sn and Pb data all together. In addition we explore the impact of a fictitious measurement of the Giant Monopole Resonance energy in $^{132}$Sn. We show that this measurement, provided it is accurate enough, will allow to better determine $K_{sym}$ and $K_{\tau}$. Finally we explore the properties of the sound speed around saturation density and show the important role of finite size terms in finite nuclei since they reduce the sound speed to approximately half compared to nuclear matter., Comment: 21 pages, 12 figures

Published

2022

43. Serum and Urine Metabolites and Kidney Function

Author

Yeo, Wan-Jin, Surapaneni, Aditya L., Hasson, Denise, Schmidt, Insa M., Sekula, Peggy, Köttgen, Anna, Eckardt, Kai-Uwe, Rebholz, Casey M., Yu, Bing, Waikar, Sushrut S., Rhee, Eugene P., Schrauben, Sarah J., Feldman, Harold I., Vasan, Ramachandran S., Kimmel, Paul L., Coresh, Josef, Grams, Morgan E., and Schlosser, Pascal

Published

2024

44. Including measures of chronic kidney disease to improve cardiovascular risk prediction by SCORE2 and SCORE2-OP.

Author

Matsushita, Kunihiro, Kaptoge, Stephen, Hageman, Steven, Sang, Yingying, Ballew, Shoshana, Grams, Morgan, Surapaneni, Aditya, Sun, Luanluan, Arnlov, Johan, Bozic, Milica, Brenner, Hermann, Brunskill, Nigel, Chang, Alex, Chinnadurai, Rajkumar, Cirillo, Massimo, Correa, Adolfo, Ebert, Natalie, Eckardt, Kai-Uwe, Gansevoort, Ron, Gutierrez, Orlando, Hadaegh, Farzad, He, Jiang, Hwang, Shih-Jen, Jafar, Tazeen, Jassal, Simerjot, Kayama, Takamasa, Kovesdy, Csaba, Landman, Gijs, Levey, Andrew, Lloyd-Jones, Donald, Major, Rupert, Miura, Katsuyuki, Muntner, Paul, Nadkarni, Girish, Nowak, Christoph, Ohkubo, Takayoshi, Pena, Michelle, Polkinghorne, Kevan, Sairenchi, Toshimi, Schaeffner, Elke, Schneider, Markus, Shalev, Varda, Shlipak, Michael, Solbu, Marit, Stempniewicz, Nikita, Tollitt, James, Valdivielso, José, van der Leeuw, Joep, Wang, Angela, Wen, Chi-Pang, Woodward, Mark, Yamagishi, Kazumasa, Yatsuya, Hiroshi, Zhang, Luxia, Dorresteijn, Jannick, Di Angelantonio, Emanuele, Visseren, Frank, Pennells, Lisa, and Coresh, Josef

Subjects

Cardiovascular disease, Chronic kidney disease, Meta-analysis, Risk prediction, Humans, Aged, Aged, 80 and over, Cardiovascular Diseases, Risk Factors, Creatinine, Renal Insufficiency, Chronic, Albuminuria, Glomerular Filtration Rate, Heart Disease Risk Factors

Abstract

AIMS: The 2021 European Society of Cardiology (ESC) guideline on cardiovascular disease (CVD) prevention categorizes moderate and severe chronic kidney disease (CKD) as high and very-high CVD risk status regardless of other factors like age and does not include estimated glomerular filtration rate (eGFR) and albuminuria in its algorithms, systemic coronary risk estimation 2 (SCORE2) and systemic coronary risk estimation 2 in older persons (SCORE2-OP), to predict CVD risk. We developed and validated an Add-on to incorporate CKD measures into these algorithms, using a validated approach. METHODS: In 3,054 840 participants from 34 datasets, we developed three Add-ons [eGFR only, eGFR + urinary albumin-to-creatinine ratio (ACR) (the primary Add-on), and eGFR + dipstick proteinuria] for SCORE2 and SCORE2-OP. We validated C-statistics and net reclassification improvement (NRI), accounting for competing risk of non-CVD death, in 5,997 719 participants from 34 different datasets. RESULTS: In the target population of SCORE2 and SCORE2-OP without diabetes, the CKD Add-on (eGFR only) and CKD Add-on (eGFR + ACR) improved C-statistic by 0.006 (95%CI 0.004-0.008) and 0.016 (0.010-0.023), respectively, for SCORE2 and 0.012 (0.009-0.015) and 0.024 (0.014-0.035), respectively, for SCORE2-OP. Similar results were seen when we included individuals with diabetes and tested the CKD Add-on (eGFR + dipstick). In 57 485 European participants with CKD, SCORE2 or SCORE2-OP with a CKD Add-on showed a significant NRI [e.g. 0.100 (0.062-0.138) for SCORE2] compared to the qualitative approach in the ESC guideline. CONCLUSION: Our Add-ons with CKD measures improved CVD risk prediction beyond SCORE2 and SCORE2-OP. This approach will help clinicians and patients with CKD refine risk prediction and further personalize preventive therapies for CVD.

Published

2023

45. Risk of Major Bleeding, Stroke/Systemic Embolism, and Death Associated With Different Oral Anticoagulants in Patients With Atrial Fibrillation and Severe Chronic Kidney Disease

Author

Yunwen Xu, Shoshana H. Ballew, Alexander R. Chang, Lesley A. Inker, Morgan E. Grams, and Jung‐Im Shin

Subjects

atrial fibrillation, chronic renal insufficiency, embolism, paradoxical, factor Xa inhibitors, hemorrhage, P2Y12, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background Patients with atrial fibrillation and severe chronic kidney disease have higher risks of bleeding, thromboembolism, and mortality. However, optimal anticoagulant choice in these high‐risk patients remains unclear. Methods and Results Using deidentified electronic health records from the Optum Labs Data Warehouse, adults with atrial fibrillation and severe chronic kidney disease (estimated glomerular filtration rate

Published

2024

46. Recovery of balance and walking in people with ataxia after acute cerebral stroke: study protocol for a prospective, monocentric, single-blinded, randomized controlled trial

Author

Patricia Meier, Lukas Mayer-Suess, Stefan Kiechl, Ulrike Pachmann, Raphaela Greimann, Markus Kofler, Christian Brenneis, Astrid Grams, Ruth Steiger, and Barbara Seebacher

Subjects

ataxia, acute stroke, coordination exercises, postural control, balance, walking, Medicine

Abstract

IntroductionPosterior circulation stroke can lead to ataxia, manifesting in a loss of coordination and balance. Patients experience difficulty in activities of daily living and an increased risk of falling, both profoundly affecting quality of life. In individuals with neurodegenerative diseases, coordination exercises have been shown to lead to a reduction in ataxic symptoms. There is, however, limited evidence on the effect of physical therapy, specifically coordination exercises in patients with stroke-related ataxia. We therefore present a study protocol for a prospective trial.MethodsThe purpose of this trial is to investigate the effects of coordination exercises compared to standard physiotherapy on balance and walking in ataxic stroke patients. Therefore, a prospective, single-blinded randomized controlled trial is currently ongoing at the Clinical Department of Neurology, Medical University of Innsbruck, Austria, in collaboration with two local rehabilitation facilities in Austria, Hochzirl Hospital and the Clinic for Rehabilitation Münster. Balance is the primary outcome of the study as assessed using the Berg Balance Scale. Secondary outcomes are concerned with walking, risk and number of falls, independence in daily life, and quality of life, rated using appropriate scales and scores. Patients are allocated applying a 1:1 ratio and a stratified block randomization. In both groups recruited individuals undergo five 45-min treatment sessions per week, totaling 20 sessions of coordination exercises (IG) or standard physiotherapy (CG) over the course of 4 weeks. Data is collected at the baseline (T0), after the 4-week supervised practice (T1), and after another 8 weeks of independent home-based training (T2).DiscussionThis is the first randomized controlled trial investigating the effects of coordination exercises on balance and walking in people with stroke-related ataxia. As stroke guidelines emphasize the limited evidence of treatment for ataxic symptoms, this study aims to contribute further knowledge regarding tailored interventions for these patients.Clinical Trial RegistrationGerman Clinical Trials Registry (drks.de). Identifier: DRKS00020825.

Published

2024

47. Flow‐Dependence of Ensemble Spread of Subseasonal Forecasts Explored via North Atlantic‐European Weather Regimes

Author

J. Spaeth, P. Rupp, M. Osman, C. M. Grams, and T. Birner

Subjects

subseasonal, predictability, weather regimes, ensemble spread, stratosphere‐troposphere coupling, polar vortex, Geophysics. Cosmic physics, QC801-809

Abstract

Abstract Atmospheric prediction at 2–6 weeks lead time (so‐called subseasonal‐to‐seasonal timescales) entails large forecast uncertainty. Here we investigate the flow‐dependence of this uncertainty during Boreal winter. We categorize the large‐scale flow using North Atlantic‐European weather regimes. First, we show that forecast uncertainty of near‐surface geopotential height (Z1000) and temperature (T2m) are strongly sensitive to the prevailing regime. Specifically, forecast uncertainty of Z1000 reduces over northern Europe following Greenland Blocking (enhanced predictability) due to a southward shifting eddy‐driven jet. However, due to strong temperature gradients and variable flow patterns, Greenland blocking is linked to increased forecast uncertainty of T2m over Europe (reduced predictability). Second, we show that forecast uncertainty of weather regimes is modulated via the stratospheric polar vortex. Weak polar vortex states tend to reduce regime‐uncertainty, for example, due to more frequent predicted occurrence of Greenland blocking. These regime changes are associated with increased T2m uncertainty over Europe.

Published

2024

48. Students’ Perspective of the Advantages and Disadvantages of ChatGPT Compared to Reference Librarians

Author

Mary-Kathleen Grams

Subjects

Bibliography. Library science. Information resources

Abstract

A Review of: Adetayo, A. J. (2023). ChatGPT and librarians for reference consultations. Internet Reference Services Quarterly, 27(3), 131–147. https://doi.org/10.1080/10875301.2023.2203681 Objective – To investigate students’ use of ChatGPT and its potential advantages and disadvantages compared to reference librarians at a university library. Design – Survey research. Setting – A university library in Nigeria. Subjects – Students familiar with ChatGPT (n=54) who were enrolled in a library users’ education course. Methods – A survey was conducted in a sample of undergraduate students enrolled in a library users’ education course, who had previously used ChatGPT. Participants were asked questions based on six categories that reflected frequency of use, types of inquiries, frequency of reference consultations, desire to consult reference librarians despite the availability of ChatGPT, and potential advantages and disadvantages of ChatGPT compared to reference librarians. A 4-point Likert scale was used to measure the responses from often to never, strongly agree to strongly disagree, and rarely to frequently. Main Results – The sample of students who participated (n=54) were a diverse group whose age varied from below 20 (35.2%) to above 30 years (31.5%) and represented a variety of fields of study, such as engineering, business and social sciences, arts, law, sciences, basic and medical sciences. Regarding frequency of use, the author reported that 40.7% of participants occasionally used ChatGPT, and 26.1% and 16.7% used it frequently or very frequently, respectively. Of the five options that represented types of inquiries (religious, political, academic, entertainment, and work), academic and work-related inquiries were topics most often searched in ChatGPT. Participants indicated that they consulted reference librarians occasionally (40.8%), frequently (37%), or rarely (22.2%). Most students (87%) would continue to consult reference librarians despite the availability of ChatGPT. For questions that compared ChatGPT to reference librarians, four options were provided to describe potential advantages and four options were provided to describe potential disadvantages. Most students agreed or strongly agreed that ChatGPT is more user friendly (83.4%), that it includes a broad knowledge base (90.7%), is easily accessible (83.3%), and saves time by responding to questions quickly (98%) compared to reference librarians. Fewer than half of the students agreed or strongly agreed that ChatGPT’s knowledge base is not up to date (47.2%). Most agreed or strongly agreed that it cannot comprehend some questions (72.3%), that it cannot read emotions as a librarian would (74.1%), and that responses to questions may be incorrect (66.6%). The potential advantage with the strongest response score was that ChatGPT saves time by responding to questions quickly (mean 3.52). The potential disadvantage with the strongest response score was ChatGPT could not read emotions as a librarian would (mean 2.91). Conclusion – Students from an academic institution acknowledged the potential advantages and disadvantages of ChatGPT over reference librarians, yet the majority of students would continue to utilize reference librarian services. The author suggests that ChatGPT is a versatile and useful tool as a supplement rather than a replacement for knowledgeable and personable reference librarians. Based on the results of the study, the author emphasizes the importance of interpersonal skills and enhanced accessibility of reference librarians outside of typical work hours.

Published

2024

49. Neutron star crust properties: comparison between the compressible liquid-drop model and the extended Thomas-Fermi approach

Author

Grams, Guilherme, Margueron, Jerome, Somasundaram, Rahul, Chamel, Nicolas, and Goriely, Stephane

Subjects

Nuclear Theory

Abstract

We present a detailed analysis of three models predicting the properties of non-uniform matter in the crust of neutron stars: the compressible liquid-drop model, the fourth order Extended Thomas Fermi (ETF) method, and ETF plus Strutinsky integral (ETFSI) correction. The former treats the nuclear clusters as uniform hard spheres, the second takes into account the density distribution which can be different for neutrons and protons, and the last one includes the proton shell effects within the Strutinsky approach. The purpose of this work is to understand the importance of the improvements in the nuclear modeling and to analyze the quantities which are the most sensitive to them. We find that thermodynamic quantities such as pressure, energy and chemical potential, as well as the electron fraction, are in very good agreement among the three models. This confirms previous results where we have shown that the improvement in the finite-size description of the nuclear clusters has a small impact on these quantities, since they are mainly constrained by the bulk properties. The refinements in the finite-size modeling are shown to impact mostly the composition of the nuclear clusters ($Z_{cl}$, $N_{cl}$) in an ordering which ranks according to the leptodermous expansion. This analysis is performed considering both the r-cluster and the e-cluster representations. The proton shell effects are shown to stabilize $Z_{cl}$, which consequently impacts the neutron number $N_{cl}$ as well., Comment: 8 pages, 4 figures

Published

2022

50. Confronting a set of Skyrme and $\chi_{EFT}$ predictions for the crust of neutron stars

Author

Grams, Guilherme, Margueron, Jérôme, Somasundaram, Rahul, and Reddy, Sanjay

Subjects

Nuclear Theory, Astrophysics - High Energy Astrophysical Phenomena

Abstract

With the improved accuracy of neutron star observational data, it is necessary to derive new equation of state where the crust and the core are consistently calculated within a unified approach. For this purpose we describe non-uniform matter in the crust of neutron stars employing a compressible liquid-drop model, where the bulk and the neutron fluid terms are given from the same model as the one describing uniform matter present in the core. We then generate a set of fifteen unified equations of state for cold catalyzed neutron stars built on realistic modelings of the nuclear interaction, which belongs to two main groups: the first one derives from the phenomenological Skyrme interaction and the second one from $\chi_{EFT}$ Hamiltonians. The confrontation of these model predictions allows us to investigate the model dependence for the crust properties, and in particular the effect of neutron matter at low density. The new set of unified equations of state is available at the CompOSE repository.

Published

2022