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1,706 results on '"Anders, Christian"'

1. Chirality-Driven Orbital Angular Momentum and Circular Dichroism in CoSi

Author

Brinkman, Stefanie Suzanne, Tan, Xin Liang, Brekke, Bjørnulf, Mathisen, Anders Christian, Finnseth, Øyvind, Schenk, Richard Justin, Hagiwara, Kenta, Huang, Meng-Jie, Buck, Jens, Kalläne, Matthias, Hoesch, Moritz, Rossnagel, Kai, Yang, Kui-Hon Ou, Lin, Minn-Tsong, Shu, Guo-Jiun, Chen, Ying-Jiun, Tusche, Christian, and Bentmann, Hendrik

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Chiral crystals and molecules were recently predicted to form an intriguing platform for unconventional orbital physics. Here, we report the observation of chirality-driven orbital textures in the bulk electronic structure of CoSi, a prototype member of the cubic B20 family of chiral crystals. Using circular dichroism in soft X-ray angle-resolved photoemission, we demonstrate the formation of a bulk orbital-angular-momentum texture and monopole-like orbital-momentum locking that depends on crystal handedness. We introduce the intrinsic chiral circular dichroism, icCD, as a differential photoemission observable and a natural probe of chiral electron states. Our findings render chiral crystals promising for spin-orbitronics applications., Comment: To be published in Physical Review Letters

Published
2024

2. Sophia: The Female Aspect of Christ in Origen of Alexandria

Author

Jacobsen Anders-Christian

Subjects
origen, sophia. christology, feminine, emanation, Religion (General), BL1-50
Abstract

This article examines the feminine aspect of Sophia, a significant title for Christ in Origen of Alexandria’s theology. It investigates whether Origen recognized and utilized Sophia’s femininity to develop a Christology that incorporates female elements or if he downplayed this aspect to counter Gnostic interpretations, particularly those of the Valentinians, who sexualized the divine. The analysis begins with an overview of the Wisdom figure in Prov 8:22-25 and its representation in Valentinian Gnosticism, highlighting Origen’s reliance on biblical texts as foundational to his theological framework. Key passages from Origen’s “On First Principles” and “Commentary on the Gospel of John” are explored to reveal his understanding of Sophia as both a mediator in creation and an integral part of Christ’s identity. The article concludes that while Origen acknowledges Sophia’s femininity, he strategically avoids sexualized language and imagery, likely to prevent misinterpretation among simpler Christians and to distance himself from Gnostic thought. Ultimately, this nuanced approach reflects Origen’s complex engagement with the feminine in his theological discourse.

Published
2024
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5. Demonstration of Thermal Images Captured by a Backside Illuminated Transition Edge Bolometer

Author

Moahjeri, Roya, Mirzaei, Seyed Iman, Nazifi, Rana, Wulff, Anders Christian, Grivel, Jean-Claude, and Fardmanesh, Mehdi

Subjects
Physics - Instrumentation and Detectors, Condensed Matter - Superconductivity
Abstract

A high temperature superconducting detector was fabricated to capture the thermal images in room temperature background. The detector was made of YBa2Cu3O7-{\delta} (YBCO) superconducting thin film deposited on an Yttria Stabilized Zirconia (YSZ) substrate, structurally modified for high responsivity performance. A very thin absorber layer was implemented on the backside of the detector to increase the absorption of the device at infrared (IR) range of frequencies. To capture thermal images, a movable off-axis parabolic mirror on XY plane was used for focusing the incoming IR radiation including the thermal signal of the objects onto the device surface. The captured thermal images belong to the objects within the temperature range between 300K and 400K, which correspond to our imaging optics., Comment: Will be submitted in "superconductor science and technology" journal

Published
2021

6. Diagnostic test accuracy in longitudinal study settings: theoretical approaches with use cases from clinical practice

Author

Bode, Louisa, Mast, Marcel, Wulff, Antje, Marschollek, Michael, Schamer, Sven, Rathert, Henning, Jack, Thomas, Beerbaum, Philipp, Rübsamen, Nicole, Böhnke, Julia, Karch, André, Das, Pronaya Prosun, Wiese, Lena, Groszweski-Anders, Christian, Haller, Andreas, Frank, Torsten, Zapf, Antonia, Kramer, Katharina, and Weber, Philipp

Published
2024
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7. High Current Density Operation of a Proton Exchange Membrane Fuel Cell with Varying Inlet Relative Humidity—A Modeling Study

Author

Wei Liu, Anders Christian Olesen, Vincenzo Liso, and Torsten Berning

Subjects
PEMFC, high current density, CFD, CFX, Technology
Abstract

This paper focuses on proton exchange membrane fuel cell (PEMFC) operation at current densities in the order of 6 A/cm2. Such high current densities are conceivable when the traditional carbon fiber papers are replaced with perforated metal plates as the gas diffusion layer to enhance waste heat removal, and at the same time the relative humidity inside the fuel cell is kept below 100% by applying appropriate operating conditions as was found in previous one-dimensional modeling work. In the current paper, we applied a three-dimensional, multi-phase computational fluid dynamics model based on Ansys-CFX to obtain additional insight into the underlying physics. The calculated pressure drops are in very good agreement with previous one-dimensional modeling work, and the current densities in all case studies are in the order of 5–6 A/cm2, but different from the previous one-dimensional study, the results suggest that the relative humidity is very close to 100% throughout the entire channel length when the inlet relative humidity is 100%, ensuring best hydration cell conditions and hence best performance. Importantly, the model results suggest that fuel cell performance at a high current density in conjunction with relatively low stoichiometric flow ratios around 1.5–2 is possible.

Published
2024
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8. Electrophysiological signals for closed-loop deep brain stimulation in Parkinson's disease

Author

Meidahl, Anders Christian, Sharott, Andrew, and Brown, Peter

Subjects
616.8
Abstract

Continuous high-frequency deep brain stimulation (DBS) in the subthalamic nucleus (STN) is an established treatment for Parkinson’s disease (PD). Current developments focus on trying to widen the therapeutic window of such treatments. Closed-loop DBS, where stimulation is dynamically controlled by feedback from biomarkers of pathological brain circuit activity, is one such development. Numerous electrophysiological signals extracted from local field potentials (LFPs) or electrocorticography (ECoG) in the basal ganglia-thalamo-cortical circuit relate to symptom severity and have consequently been proposed as real-time biomarkers. These signals include phase-amplitude coupling, beta-oscillatory bursts, single neuronal firing patterns, and features of waveform morphology. The neuronal basis and interdependency of these signals, however, are poorly understood. To address this a two-fold approach was taken. First, subthalamic macro- and micro electrode recordings of LFPs and single unit activity were studied in human PD patients undergoing DBS-surgery. Simultaneously recorded ECoGs were analysed in order to relate previously proposed cortical biomarkers to subthalamic neuronal activity. Second, selective optogenetic stimulation of basal-ganglia or cerebellar receiving thalamus was deployed in rodents to investigate if cortical electrophysiological signals observed in PD could be generated from driving inputs to motor thalamus. In human PD patients, phase-amplitude coupling in the STN was found to reflect the locking of spiking activity to network beta oscillations and this coupling increased progressively with beta-burst duration, suggesting subthalamic beta bursts to capture higher levels of input-output synchronisation. Furthermore, cortical beta bursts were associated with several other cortical and subthalamic biomarkers and cortical waveform sharpness was linked to subthalamic neuronal synchronisation. In rodents, cortical phase-amplitude coupling in the ECoG could be produced by driving basal-ganglia, but not cerebellar recipient thalamus. Thus, providing experimental evidence to a theory of a basal-ganglia-thalamic origin of cortical phase-amplitude coupling in PD. Overall, this thesis gives novel insights into the neuronal basis of electrophysiological biomarkers in PD with direct implications for future closed-loop DBS trials.

Published
2020

9. Non-uniform recovery guarantees for binary measurements and infinite-dimensional compressed sensing

Author

Thesing, Laura and Hansen, Anders Christian

Subjects
Mathematics - Numerical Analysis, Computer Science - Information Theory, 42C10, 42C40, 94A12, 94A20
Abstract

Due to the many applications in Magnetic Resonance Imaging (MRI), Nuclear Magnetic Resonance (NMR), radio interferometry, helium atom scattering etc., the theory of compressed sensing with Fourier transform measurements has reached a mature level. However, for binary measurements via the Walsh transform, the theory has been merely non-existent, despite the large number of applications such as fluorescence microscopy, single pixel cameras, lensless cameras, compressive holography, laser-based failure-analysis etc. Binary measurements are a mainstay in signal and image processing and can be modelled by the Walsh transform and Walsh series that are binary cousins of the respective Fourier counterparts. We help bridging the theoretical gap by providing non-uniform recovery guarantees for infinite-dimensional compressed sensing with Walsh samples and wavelet reconstruction. The theoretical results demonstrate that compressed sensing with Walsh samples, as long as the sampling strategy is highly structured and follows the structured sparsity of the signal, is as effective as in the Fourier case. However, there is a fundamental difference in the asymptotic results when the smoothness and vanishing moments of the wavelet increase. In the Fourier case, this changes the optimal sampling patterns, whereas this is not the case in the Walsh setting.

Published
2019
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10. Linear reconstructions and the analysis of the stable sampling rate

Author

Thesing, Laura and Hansen, Anders Christian

Subjects
Computer Science - Information Theory
Abstract

The theory of sampling and the reconstruction of data has a wide range of applications and a rich collection of techniques. For many methods a core problem is the estimation of the number of samples needed in order to secure a stable and accurate reconstruction. This can often be controlled by the Stable Sampling Rate (SSR). In this paper we discuss the SSR and how it is crucial for two key linear methods in sampling theory: generalized sampling and the recently developed Parametrized Background Data Weak (PBDW) method. Both of these approaches rely on estimates of the SSR in order to be accurate. In many areas of signal and image processing binary samples are crucial and such samples, which can be modelled by Walsh functions, are the core of our analysis. As we show, the SSR is linear when considering binary sampling with Walsh functions and wavelet reconstruction. Moreover, for certain wavelets it is possible to determine the SSR exactly, allowing sharp estimates for the performance of the methods.

Published
2019

11. On the stable sampling rate for binary measurements and wavelet reconstruction

Author

Hansen, Anders Christian and Thesing, Laura

Subjects
Mathematics - Numerical Analysis, Computer Science - Information Theory
Abstract

This paper is concerned with the problem of reconstructing an infinite-dimensional signal from a limited number of linear measurements. In particular, we show that for binary measurements (modelled with Walsh functions and Hadamard matrices) and wavelet reconstruction the stable sampling rate is linear. This implies that binary measurements are as efficient as Fourier samples when using wavelets as the reconstruction space. Powerful techniques for reconstructions include generalized sampling and its compressed versions, as well as recent methods based on data assimilation. Common to these methods is that the reconstruction quality depends highly on the subspace angle between the sampling and the reconstruction space, which is dictated by the stable sampling rate. As a result of the theory provided in this paper, these methods can now easily use binary measurements and wavelet reconstruction bases.

Published
2019
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14. Promoter hypermethylation of SFRP1 as a prognostic and potentially predictive blood-based biomarker in patients with localized pancreatic ductal adenocarcinoma

Author

Benjamin Emil Stubbe, Anders Christian Larsen, Poul Henning Madsen, Henrik Bygum Krarup, Inge Søkilde Pedersen, Søren Lundbye-Christensen, Carsten Palnæs Hansen, Jane Preuss Hasselby, Astrid Zedlitz Johansen, Ole Thorlacius-Ussing, Julia Sidenius Johansen, and Stine Dam Henriksen

Subjects
biomarker, pancreatic cancer, survival, epigenetic, DNA methylation, personalized therapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

IntroductionCurrent prognostic blood-based biomarkers for pancreatic adenocarcinoma (PDAC) are limited. Recently, promoter hypermethylation of SFRP1 (phSFRP1) has been linked to poor prognosis in patients with gemcitabine-treated stage IV PDAC. This study explores the effects of phSFRP1 in patients with lower stage PDAC.MethodsBased on a bisulfite treatment process, the promoter region of the SFRP1 gene was analyzed with methylation-specific PCR. Kaplan-Meier curves, log-rank tests, and generalized linear regression analysis were used to assess restricted mean survival time survival at 12 and 24 months.ResultsThe study included 211 patients with stage I-II PDAC. The median overall survival of patients with phSFRP1 was 13.1 months, compared to 19.6 months in patients with unmethylated SFRP1 (umSFRP1). In adjusted analysis, phSFRP1 was associated with a loss of 1.15 months (95%CI -2.11, -0.20) and 2.71 months (95%CI -2.71, -0.45) of life at 12 and 24 months, respectively. There was no significant effect of phSFRP1 on disease-free or progression-free survival. In stage I-II PDAC, patients with phSFRP1 have worse prognoses than patients with umSFRP1.DiscussionResults could indicate that the poor prognosis may be caused by reduced benefit from adjuvant chemotherapy. SFRP1 may help guide the clinician and be a possible target for epigenetically modifying drugs.

Published
2023
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15. Breeding schemes with optimum-contribution selection or truncation selection for beef cattle destined for use on dairy females

Author

Line Hjortø, Trine Andersen, Morten Kargo, and Anders Christian Sørensen

Subjects
beef × dairy, breeding scheme, optimum-contribution selection, multiple ovulation, embryo transfer, Dairy processing. Dairy products, SF250.5-275, Dairying, SF221-250
Abstract

ABSTRACT: We tested the hypothesis that the size of a beef cattle population destined for use on dairy females is smaller under optimum-contribution selection (OCS) than under truncation selection (TRS) at the same genetic gain (ΔG) and the same rate of inbreeding (ΔF). We used stochastic simulation to estimate true ΔG realized at a 0.005 ΔF in breeding schemes with OCS or TRS. The schemes for the beef cattle population also differed in the number of purebred offspring per dam and the total number of purebred offspring per generation. Dams of the next generation were exclusively selected among the one-year-old heifers. All dams were donors for embryo transfer and produced a maximum of 5 or 10 offspring. The total number of purebred offspring per generation was: 400, 800, 1,600 or 4,000 calves, and it was used as a measure of population size. Rate of inbreeding was predicted and controlled using pedigree relationships. Each OCS (TRS) scheme was simulated for 10 discrete generations and replicated 100 (200) times. The OCS scheme and the TRS scheme with a maximum of 10 offspring per dam required approximately 783 and 1,257 purebred offspring per generation to realize a true ΔG of €14 and a ΔF of 0.005 per generation. Schemes with a maximum of 5 offspring per dam required more purebred offspring per generation to realize a similar true ΔG and a similar ΔF. Our results show that OCS and multiple ovulation and embryo transfer act on selection intensity through different mechanisms to achieve fewer selection candidates and fewer selected sires and dams than under TRS at the same ΔG and a fixed ΔF. Therefore, we advocate the use of a breeding scheme with OCS and multiple ovulation and embryo transfer for beef cattle destined for use on dairy females because it is favorable both from an economic perspective and a carbon footprint perspective.

Published
2022
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17. Chirality-Driven Orbital Angular Momentum and Circular Dichroism in CoSi

Author

Brinkman, Stefanie Suzanne, primary, Tan, Xin Liang, additional, Brekke, Bjørnulf, additional, Mathisen, Anders Christian, additional, Finnseth, Øyvind, additional, Schenk, Richard Justin, additional, Hagiwara, Kenta, additional, Huang, Meng-Jie, additional, Buck, Jens, additional, Kalläne, Matthias, additional, Hoesch, Moritz, additional, Rossnagel, Kai, additional, Ou Yang, Kui-Hon, additional, Lin, Minn-Tsong, additional, Shu, Guo-Jiun, additional, Chen, Ying-Jiun, additional, Tusche, Christian, additional, and Bentmann, Hendrik, additional

Published
2024
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18. Diagnostic test accuracy in longitudinal study settings: theoretical approaches with use cases from clinical practice

Author

Böhnke, Julia, primary, Zapf, Antonia, additional, Kramer, Katharina, additional, Weber, Philipp, additional, Bode, Louisa, additional, Mast, Marcel, additional, Wulff, Antje, additional, Marschollek, Michael, additional, Schamer, Sven, additional, Rathert, Henning, additional, Jack, Thomas, additional, Beerbaum, Philipp, additional, Rübsamen, Nicole, additional, Böhnke, Julia, additional, Karch, André, additional, Das, Pronaya Prosun, additional, Wiese, Lena, additional, Groszweski-Anders, Christian, additional, Haller, Andreas, additional, and Frank, Torsten, additional

Published
2024
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19. Pre-selection against a lethal recessive allele in breeding schemes with optimum-contribution selection or truncation selection

Author

Line Hjortø, Mark Henryon, Huiming Liu, Peer Berg, Jørn Rind Thomasen, and Anders Christian Sørensen

Subjects
Animal culture, SF1-1100, Genetics, QH426-470
Abstract

Abstract Background We tested the hypothesis that breeding schemes with a pre-selection step, in which carriers of a lethal recessive allele (LRA) were culled, and with optimum-contribution selection (OCS) reduce the frequency of a LRA, control rate of inbreeding, and realise as much genetic gain as breeding schemes without a pre-selection step. Methods We used stochastic simulation to estimate true genetic gain realised at a 0.01 rate of true inbreeding (ΔFtrue) by breeding schemes that combined one of four pre-selection strategies with one of three selection strategies. The four pre-selection strategies were: (1) no carriers culled, (2) male carriers culled, (3) female carriers culled, and (4) all carriers culled. Carrier-status was known prior to selection. The three selection strategies were: (1) OCS in which $$\Delta {\text{F}}_{{{\text{true}}}}$$ Δ F true was predicted and controlled using pedigree relationships (POCS), (2) OCS in which $$\Delta {\text{F}}_{{{\text{true}}}}$$ Δ F true was predicted and controlled using genomic relationships (GOCS), and (3) truncation selection of parents. All combinations of pre-selection strategies and selection strategies were tested for three starting frequencies of the LRA (0.05, 0.10, and 0.15) and two linkage statuses with the locus that has the LRA being on a chromosome with or without loci affecting the breeding goal trait. The breeding schemes were simulated for 10 discrete generations (t = 1, …, 10). In all breeding schemes, ΔFtrue was calibrated to be 0.01 per generation in generations t = 4, …, 10. Each breeding scheme was replicated 100 times. Results We found no significant difference in true genetic gain from generations t = 4, …, 10 between breeding schemes with or without pre-selection within selection strategy. POCS and GOCS schemes realised similar true genetic gains from generations t = 4, …, 10. POCS and GOCS schemes realised 12% more true genetic gain from generations t = 4, …, 10 than truncation selection schemes. Conclusions We advocate for OCS schemes with pre-selection against the LRA that cause animal suffering and high costs. At LRA frequencies of 0.10 or lower, OCS schemes in which male carriers are culled reduce the frequency of LRA, control rate of inbreeding, and realise no significant reduction in true genetic gain compared to OCS schemes without pre-selection against LRA.

Published
2021
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21. High Current Density Operation of a Proton Exchange Membrane Fuel Cell with Varying Inlet Relative Humidity—A Modeling Study.

Author

Liu, Wei, Olesen, Anders Christian, Liso, Vincenzo, and Berning, Torsten

Subjects
*COMPUTATIONAL fluid dynamics, *WASTE heat, *HUMIDITY, *FUEL cells, *CARBON paper, *PROTON exchange membrane fuel cells
Abstract

This paper focuses on proton exchange membrane fuel cell (PEMFC) operation at current densities in the order of 6 A/cm2. Such high current densities are conceivable when the traditional carbon fiber papers are replaced with perforated metal plates as the gas diffusion layer to enhance waste heat removal, and at the same time the relative humidity inside the fuel cell is kept below 100% by applying appropriate operating conditions as was found in previous one-dimensional modeling work. In the current paper, we applied a three-dimensional, multi-phase computational fluid dynamics model based on Ansys-CFX to obtain additional insight into the underlying physics. The calculated pressure drops are in very good agreement with previous one-dimensional modeling work, and the current densities in all case studies are in the order of 5–6 A/cm2, but different from the previous one-dimensional study, the results suggest that the relative humidity is very close to 100% throughout the entire channel length when the inlet relative humidity is 100%, ensuring best hydration cell conditions and hence best performance. Importantly, the model results suggest that fuel cell performance at a high current density in conjunction with relatively low stoichiometric flow ratios around 1.5–2 is possible. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Bias in estimates of variance components in populations undergoing genomic selection: a simulation study

Author

Hongding Gao, Per Madsen, Gert Pedersen Aamand, Jørn Rind Thomasen, Anders Christian Sørensen, and Just Jensen

Subjects
Single-step, Imputation error, Genetic variance, Marker variance, Bayesian regression, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background After the extensive implementation of genomic selection (GS), the choice of the statistical model and data used to estimate variance components (VCs) remains unclear. A primary concern is that VCs estimated from a traditional pedigree-based animal model (P-AM) will be biased due to ignoring the impact of GS. The objectives of this study were to examine the effects of GS on estimates of VC in the analysis of different sets of phenotypes and to investigate VC estimation using different methods. Data were simulated to resemble the Danish Jersey population. The simulation included three phases: (1) a historical phase; (2) 20 years of conventional breeding; and (3) 15 years of GS. The three scenarios based on different sets of phenotypes for VC estimation were as follows: (1) Pheno1: phenotypes from only the conventional phase (1–20 years); (2) Pheno1 + 2: phenotypes from both the conventional phase and GS phase (1–35 years); (3) Pheno2: phenotypes from only the GS phase (21–35 years). Single-step genomic BLUP (ssGBLUP), a single-step Bayesian regression model (ssBR), and P-AM were applied. Two base populations were defined: the first was the founder population referred to by the pedigree-based relationship (P-base); the second was the base population referred to by the current genotyped population (G-base). Results In general, both the ssGBLUP and ssBR models with all the phenotypic and genotypic information (Pheno1 + 2) yielded biased estimates of additive genetic variance compared to the P-base model. When the phenotypes from the conventional breeding phase were excluded (Pheno2), P-AM led to underestimation of the genetic variance of P-base. Compared to the VCs of G-base, when phenotypes from the conventional breeding phase (Pheno2) were ignored, the ssBR model yielded unbiased estimates of the total genetic variance and marker-based genetic variance, whereas the residual variance was overestimated. Conclusions The results show that neither of the single-step models (ssGBLUP and ssBR) can precisely estimate the VCs for populations undergoing GS. Overall, the best solution for obtaining unbiased estimates of VCs is to use P-AM with phenotypes from the conventional phase or phenotypes from both the conventional and GS phases.

Published
2019
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34. Cluster-induced crater formation

Author

Anders, Christian, Ziegenhain, Gerolf, Zimmermann, Steffen, and Urbassek, Herbert M.

Subjects
Condensed Matter - Materials Science
Abstract

Using molecular-dynamics simulation, we study the crater volumes induced by energetic impacts ($v= 1- 250$ km/s) of projectiles containing up to N=1000 atoms. We find that for Lennard-Jones bonded material the crater volume depends solely on the total impact energy $E$. Above a threshold $\Eth$, the volume rises linearly with $E$. Similar results are obtained for metallic materials. By scaling the impact energy $E$ to the target cohesive energy $U$, the crater volumes become independent of the target material. To a first approximation, the crater volume increases in proportion with the available scaled energy, $V=aE/U$. The proportionality factor $a$ is termed the cratering efficiency and assumes values of around 0.5., Comment: 9 pages

Published
2008
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35. Synchronised spiking activity underlies phase amplitude coupling in the subthalamic nucleus of Parkinson's disease patients

Author

Anders Christian Meidahl, Christian K.E. Moll, Bernadette C.M. van Wijk, Alessandro Gulberti, Gerd Tinkhauser, Manfred Westphal, Andreas K. Engel, Wolfgang Hamel, Peter Brown, and Andrew Sharott

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Both phase-amplitude coupling (PAC) and beta-bursts in the subthalamic nucleus have been significantly linked to symptom severity in Parkinson's disease (PD) in humans and emerged independently as competing biomarkers for closed-loop deep brain stimulation (DBS). However, the underlying nature of subthalamic PAC is poorly understood and its relationship with transient beta burst-events has not been investigated. To address this, we studied macro- and micro electrode recordings of local field potentials (LFPs) and single unit activity from 15 hemispheres in 10 PD patients undergoing DBS surgery. PAC between beta phase and high frequency oscillation (HFO) amplitude was compared to single unit firing rates, spike triggered averages, power spectral densities, inter spike intervals and phase-spike locking, and was studied in periods of beta-bursting. We found a significant synchronisation of spiking to HFOs and correlation of mean firing rates with HFO-amplitude when the latter was coupled to beta phase (i.e. in the presence of PAC). In the presence of PAC, single unit power spectra displayed peaks in the beta and HFO frequency range and the HFO frequency was correlated with that in the LFP. Furthermore, inter spike interval frequencies peaked in the same frequencies for which PAC was observed. Finally, PAC significantly increased with beta burst-duration. Our findings offer new insight in the pathology of Parkinson's disease by providing evidence that subthalamic PAC reflects the locking of spiking activity to network beta oscillations and that this coupling progressively increases with beta-burst duration. These findings suggest that beta-bursts capture periods of increased subthalamic input/output synchronisation in the beta frequency range and have important implications for therapeutic closed-loop DBS. Significance statement: Identifying biomarkers for closed-loop deep brain stimulation (DBS) has become an increasingly important issue in Parkinson's Disease (PD) research. Two such biomarkers, phase-amplitude coupling (PAC) and beta-bursts, recorded from the implanted electrodes in subthalamic nucleus in PD patients, correlate with motor impairment. However, the physiological basis of PAC, and it relationship to beta bursts, is unclear. We provide multiple lines of evidence that PAC in the human STN reflects the locking of spiking activity to network beta oscillations and that this coupling progressively increases with the duration of beta-bursts. This suggests that beta-bursts capture increased subthalamic input/output synchronisation and provides new insights in PD pathology with direct implications for closed-loop DBS therapy strategies.

Published
2019
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36. A Multi-Fluid Model for Water and Methanol Transport in a Direct Methanol Fuel Cell

Author

Anders Christian Olesen, Søren Knudsen Kær, and Torsten Berning

Subjects
direct-methanol fuel cells (DMFC), multi-phase flow, fuel cells, computational fluid dynamics (CFD), limiting current density, reactant cross-over, Technology
Abstract

Direct-methanol fuel cell (DMFC) systems are comparatively simple, sometimes just requiring a fuel cartridge and a fuel cell stack with appropriate control devices. The key challenge in these systems is the accurate determination and control of the flow rates and the appropriate mixture of methanol and water, and fundamental understanding can be gained by computational fluid dynamics. In this work, a three-dimensional, steady-state, two-phase, multi-component and non-isothermal DMFC model is presented. The model is based on the Eulerian approach, and it can account for gas and liquid transport in porous media subject to mixed wettability, i.e., the simultaneous presence of hydrophilic and hydrophobic pores. Other phenomena considered are variations in surface tension due to water–methanol mixing and the capillary pressure at the gas diffusion layer–channel interface. Another important aspect of DMFC modeling is the transport of methanol and water across the membrane. In this model, non-equilibrium sorption–desorption, diffusion and electro-osmotic drag of both species are included. The DMFC model is validated against experimental measurements, and it is used to study the interaction between volume porosity of the anode gas diffusion layer and the capillary pressure boundary condition at the anode, and how it affects performance and limiting current density.

Published
2022
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39. Van Loon, H., De Nie, G., Op de Coul, M., Van Egmond, P. (eds.) (2018). Prayer and the Transformation of the Self in Early Christian Mystagogy

Author

Anders-Christian Jacobsen

Subjects
Religions of the world, BL74-99
Abstract

VAN LOON, HANS, DE NIE, GISELLE, OP DE COUL, MICHIEL, and VAN EGMOND, PETER (eds.) (2018). Prayer and the Transformation of the Self in Early Christian Mystagogy, Late Antique History and Religion, 18. Leuven: Peeters. 482 pp., 123,63€ [ISBN 978-9-0429-3611-9] [Book review]

Published
2020
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40. Strategies Using Genomic Selection to Increase Genetic Gain in Breeding Programs for Wheat

Author

Biructawit Bekele Tessema, Huiming Liu, Anders Christian Sørensen, Jeppe Reitan Andersen, and Just Jensen

Subjects
wheat, genetic gain, genomic selection, stochastic simulation, genetic correlation, Genetics, QH426-470
Abstract

Conventional wheat-breeding programs involve crossing parental lines and subsequent selfing of the offspring for several generations to obtain inbred lines. Such a breeding program takes more than 8 years to develop a variety. Although wheat-breeding programs have been running for many years, genetic gain has been limited. However, the use of genomic information as selection criterion can increase selection accuracy and that would contribute to increased genetic gain. The main objective of this study was to quantify the increase in genetic gain by implementing genomic selection in traditional wheat-breeding programs. In addition, we investigated the effect of genetic correlation between different traits on genetic gain. A stochastic simulation was used to evaluate wheat-breeding programs that run simultaneously for 25 years with phenotypic or genomic selection. Genetic gain and genetic variance of wheat-breeding program based on phenotypes was compared to the one with genomic selection. Genetic gain from the wheat-breeding program based on genomic estimated breeding values (GEBVs) has tripled compared to phenotypic selection. Genomic selection is a promising strategy for improving genetic gain in wheat-breeding programs.

Published
2020
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41. Phenotypically Selective Genotyping Realizes More Genetic Gains in a Rainbow Trout Breeding Program in the Presence of Genotype-by-Environment Interactions

Author

Thinh Tuan Chu, Anders Christian Sørensen, Mogens Sandø Lund, Kristian Meier, Torben Nielsen, and Guosheng Su

Subjects
selective genotyping, genomic selection, breeding program design, genotype-by-environment interactions, rainbow trout, fish, Genetics, QH426-470
Abstract

Selective genotyping of phenotypically superior animals may lead to bias and less accurate genomic breeding values (GEBV). Performing selective genotyping based on phenotypes measured in the breeding environment (B) is not necessarily a good strategy when the aim of a breeding program is to improve animals’ performance in the commercial environment (C). Our simulation study compared different genotyping strategies for selection candidates and for fish in C in a breeding program for rainbow trout in the presence of genotype-by-environment interactions when the program had limited genotyping resources and unregistered pedigrees of individuals. For the reference population, selective genotyping of top and bottom individuals in C based on phenotypes measured in C led to the highest genetic gains, followed by random genotyping and then selective genotyping of top individuals in C. For selection candidates, selective genotyping of top individuals in B based on phenotypes measured in B led to the highest genetic gains, followed by selective genotyping of top and bottom individuals and then random genotyping. Selective genotyping led to bias in predicting GEBV. However, in scenarios that used selective genotyping of top fish in B and random genotyping of fish in C, predictions of GEBV were unbiased, with genetic correlations of 0.2 and 0.5 between traits measured in B and C. Estimates of variance components were sensitive to genotyping strategy, with an overestimation of the variance with selective genotyping of top and bottom fish and an underestimation of the variance with selective genotyping of top fish. Unbiased estimates of variance components were obtained when fish in B and C were genotyped at random. In conclusion, we recommend phenotypic genotyping of top and bottom fish in C and top fish in B for the purpose of selecting breeding animals and random genotyping of individuals in B and C for the purpose of estimating variance components when a genomic breeding program for rainbow trout aims to improve animals’ performance in C.

Published
2020
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42. Genomic Breeding Programs Realize Larger Benefits by Cooperation in the Presence of Genotype × Environment Interaction Than Conventional Breeding Programs

Author

Lu Cao, Huiming Liu, Han A. Mulder, Mark Henryon, Jørn Rind Thomasen, Morten Kargo, and Anders Christian Sørensen

Subjects
joint genetic evaluation, across-environment selection of sires, stochastic simulation, genetic gain, rate of inbreeding, long-term cooperation, Genetics, QH426-470
Abstract

Genotype × environment interaction (G × E) is of increasing importance for dairy cattle breeders due to international multiple-environment selection of animals as well as the differentiation of production environments within countries. This theoretical simulation study tested the hypothesis that genomic selection (GS) breeding programs realize larger genetic benefits by cooperation in the presence of G × E than conventional pedigree-based selection (PS) breeding programs. We simulated two breeding programs each with their own cattle population and environment. Two populations had either equal or unequal population sizes. Selection of sires was done either across environments (cooperative) or within their own environment (independent). Four scenarios, (GS/PS) × (cooperative/independent), were performed. The genetic correlation (rg) between the single breeding goal trait expressed in two environments was varied between 0.5 and 0.9. We compared scenarios for genetic gain, rate of inbreeding, proportion of selected external sires, and the split-point rg that is the lowest value of rg for long-term cooperation. Between two equal-sized populations, cooperative GS breeding programs achieved a maximum increase of 19.3% in genetic gain and a maximum reduction of 24.4% in rate of inbreeding compared to independent GS breeding programs. The increase in genetic gain and the reduction in rate of inbreeding realized by GS breeding programs with cooperation were respectively at maximum 9.7% and 24.7% higher than those realized by PS breeding programs with cooperation. Secondly, cooperative GS breeding programs allowed a slightly lower split-point rg than cooperative PS breeding programs (0.85∼0.875 vs ≥ 0.9). Between two unequal-sized populations, cooperative GS breeding programs realized higher increase in genetic gain and showed greater probability for long-term cooperation than cooperative PS breeding programs. Secondly, cooperation using GS were more beneficial to the small population while also beneficial but much less to the large population. In summary, by cooperation in the presence of G × E, GS breeding programs realize larger improvements in terms of the genetic gain and rate of inbreeding, and have greater possibility of long-term cooperation than conventional PS breeding programs. Therefore, we recommend cooperative GS breeding programs in situations with mild to moderate G × E, depending on the sizes of two populations.

Published
2020
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43. The Effect of Using Organic or Conventional Sires on Genetic Gain in Organic Pigs: A Simulation Study

Author

Roos Marina Zaalberg, Hanne Marie Nielsen, Anders Christian Sørensen, Thinh T. Chu, Just Jensen, and Trine Michelle Villumsen

Subjects
breeding plan, organic pig production, GxE, genetic improvement, economic value, Veterinary medicine, SF600-1100, Zoology, QL1-991
Abstract

Current organic pig-breeding programs use pigs from conventional breeding populations. However, there are considerable differences between conventional and organic production systems. This simulation study aims to evaluate how the organic pig sector could benefit from having an independent breeding program. Two organic pig-breeding programs were simulated: one used sires from a conventional breeding population (conventional sires), and the other used sires from an organic breeding population (organic sires). For maintaining the breeding population, the conventional population used a conventional breeding goal, whereas the organic population used an organic breeding goal. Four breeding goals were simulated: one conventional breeding goal, and three organic breeding goals. When conventional sires were used, genetic gain in the organic population followed the conventional breeding goal, even when an organic breeding goal was used to select conventional sires. When organic sires were used, genetic gain followed the organic breeding goal. From an economic point of view, using conventional sires for breeding organic pigs is best, but only if there are no genotype-by-environment interactions. However, these results show that from a biological standpoint, using conventional sires biologically adapts organic pigs for a conventional production system.

Published
2022
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44. Balanced selection on purebred and crossbred performance increases gain in crossbreds

Author

Hadi Esfandyari, Peer Berg, and Anders Christian Sørensen

Subjects
Animal culture, SF1-1100, Genetics, QH426-470
Abstract

Abstract Background Genomic selection can be applied to select purebreds for crossbred performance (CP). The average performance of crossbreds can be considered as the summation of two components, i.e. the breed average (BA) of the parental breeds and heterosis (H) present in crossbreds. Selection of pure breeds for CP based on genomic estimated breeding values for crossbred performance (GEBV-C) or for purebred performance (GEBV-P) may differ in their ability to exploit BA and H and can affect the merit of crossbreds in both the short and long term. Selection based on GEBV-C is beneficial for CP, because H in crossbreds is efficiently exploited, whereas selection on GEBV-P results in more genetic progress in pure breeds, which increases the BA component of CP. To investigate the outcome of selection on GEBV-C and GEBV-P in both the short and long term, a two-way crossbreeding program was simulated to test the following hypotheses: (1) does selection on GEBV-P result in higher long-term CP compared to selection on GEBV-C and (2) does selection on a combination of GEBV-P and GEBV-C lead to more long-term gain in CP than selection on either separately. Methods We investigated the performance of crossbreds in a two-way crossbreeding program across 40 generations and considered different criteria to select purebred parents that ranged from selection on purebred performance to selection for CP with different weights on genomic evaluations based on purebred and CP. These criteria were compared under three genetic models to investigate the effects of the amount of dominance variance, absence of over-dominance, and the structure of the reference population on CP, both in the short and long term. Results and conclusions Although beneficial in the short to medium term, genomic selection in pure breeds on a criterion that specifically targets CP was inferior to selection for purebred performance in the long term. A selection criterion that maximizes a combination of short- and long-term responses in CP, should improve the components that define crossbred merit (i.e., BA and H) simultaneously.

Published
2018
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48. Understanding the Role of Trapezoids in Honeycomb Self‐Assembly—Pathways between a Columnar Liquid Quasicrystal and its Liquid‐Crystalline Approximants.

Author

Cao, Yu, Scholte, Alexander, Prehm, Marko, Anders, Christian, Chen, Changlong, Song, Jiangxuan, Zhang, Lei, He, Gang, Tschierske, Carsten, and Liu, Feng

Abstract

Quasiperiodic patterns and crystals—having long range order without translational symmetry—have fascinated researchers since their discovery. In this study, we report on new p‐terphenyl‐based T‐shaped facial polyphiles with two alkyl end chains and a glycerol‐based hydrogen‐bonded side group that self‐assemble into an aperiodic columnar liquid quasicrystal with 12‐fold symmetry and its periodic liquid‐crystalline approximants with complex superstructures. All represent honeycombs formed by the self‐assembly of the p‐terphenyls, dividing space into prismatic cells with polygonal cross‐sections. In the perspective of tiling patterns, the presence of unique trapezoidal tiles, consisting of three rigid sides formed by the p‐terphenyls and one shorter, incommensurate, and adjustable side by the alkyl end chains, plays a crucial role for these phases. A delicate temperature‐dependent balance between conformational, entropic and space‐filling effects determines the role of the alkyl chains, either as network nodes or trapezoid walls, thus resulting in the order‐disorder transitions associated with emergence of quasiperiodicity. In‐depth analysis suggests a change from a quasiperiodic tiling involving trapezoids to a modified one with a contribution of trapezoid pair fusion. This work paves the way for understanding quasiperiodicity emergence and develops fundamental concepts for its generation by chemical design of non‐spherical molecules, aggregates, and frameworks based on dynamic reticular chemistry. [ABSTRACT FROM AUTHOR]

Published
2024
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