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1. Encrypted distributed state estimation via affine averaging

Author

Schlüter, N., Binfet, P., Kim, J., and Darup, M. Schulze

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Distributed state estimation arises in many applications such as position estimation in robot swarms, clock synchronization for processor networks, and data fusion. One characteristic is that agents only have access to noisy measurements of deviations between their own and neighboring states. Still, estimations of their actual state can be obtained in a fully distributed manner using algorithms such as affine averaging. However, running this algorithm, requires that the agents exchange their current state estimations, which can be a privacy issue (since they eventually reveal the actual states). To counteract this threat, we propose an encrypted version of the affine averaging algorithm in this paper. More precisely, we use homomorphic encryption to realize an encrypted implementation, where only one ``leader'' agent has access to its state estimation in plaintext. One main challenge (which often arises for recursive encrypted computations) is to prevent overflow w.r.t.~the bounded message space of the cryptosystem. We solve this problem by periodically resetting the agents' states with the help of the leader. We study the resulting system dynamics with respect to different reset strategies and support our findings with extensive numerical simulations.

Published
2022

2. Secure learning-based MPC via garbled circuit

Author

Tjell, K., Schlüter, N., Binfet, P., and Darup, M. Schulze

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Encrypted control seeks confidential controller evaluation in cloud-based or networked systems. Many existing approaches build on homomorphic encryption (HE) that allow simple mathematical operations to be carried out on encrypted data. Unfortunately, HE is computationally demanding and many control laws (in particular non-polynomial ones) cannot be efficiently implemented with this technology. We show in this paper that secure two-party computation using garbled circuits provides a powerful alternative to HE for encrypted control. More precisely, we present a novel scheme that allows to efficiently implement (non-polynomial) max-out neural networks with one hidden layer in a secure fashion. These networks are of special interest for control since they allow, in principle, to exactly describe piecewise affine control laws resulting from, e.g., linear model predictive control (MPC). However, exact fits require high-dimensional preactivations of the neurons. Fortunately, we illustrate that even low-dimensional learning-based approximations are sufficiently accurate for linear MPC. In addition, these approximations can be securely evaluated using garbled circuit in less than 100~ms for our numerical example. Hence, our approach opens new opportunities for applying encrypted control.

Published
2021

3. Encrypted dynamic control with unlimited operating time via FIR filters

Author

Schlüter, N., Neuhaus, M., and Darup, M. Schulze

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Encrypted control enables confidential controller evaluations in cloud-based or networked control systems. From a technical point of view, an encrypted controller is a modified control algorithm that is capable of computing encrypted control actions based on encrypted system outputs. Unsurprisingly, encrypted implementations of controllers using, e.g., homomorphic cryptosystems entail new design challenges. For instance, in order to avoid overflow or high computational loads, only a finite number of operations should be carried out on encrypted data. Clearly, this guideline is hard to satisfy for dynamic controllers due to their recursive nature. To enable an unlimited operating time, existing implementations thus rely on external refreshments of the controller state, internal refreshments using bootstrapping, or recurring controller resets. We show in this paper that simple FIR filter-based controllers allow overcoming many drawbacks of the existing approaches. In fact, since FIR filters consider only a finite amount of the most recent input data, the recursion issue is immediately solved and controller refreshments or resets are no longer required. Moreover, well-designed FIR filters are often less complex than and equally effective as IIR controllers.

Published
2021

20. Versorgung kindlicher Opfer sexualisierter Gewalt an der Charité

Author

Heimann, A, Schlüter, N, Rothe, K, and Märzheuser, S

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

Einleitung: Seit dem 01.02.2010 existiert eine Verfahrensregelung zur einheitlichen Versorgung kindlicher Opfer sexualisierter Gewalt an der Charité. In der Kindernotaufnahme der Charité werden seither regelmäßig Patienten in Begleitung der Kriminalpolizei vorgestellt, nach dem[zum vollständigen Text gelangen Sie über die oben angegebene URL], 133. Kongress der Deutschen Gesellschaft für Chirurgie

Published
2016
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21. Metaphysäre Verletzungen bei Battered Child Syndrome

Author

Schlüter, N, König, C, Rothe, K, and Märzheuser, S

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

Einleitung: Frakturen sind Verletzungen, die sowohl als Folge eines Unfalls als auch als Konsequenz aus einer Kindesmisshandlung beobachtet werden. Im klinischen Alltag ist es nicht immer leicht zu entscheiden, ob es sich um eine akzidentelle oder beabsichtigte Verletzung handelt. Entscheidende Indizien[zum vollständigen Text gelangen Sie über die oben angegebene URL], 133. Kongress der Deutschen Gesellschaft für Chirurgie

Published
2016
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23. Epidemiologie der Binge-Eating-Störung bei Jugendlichen

Author

Schlüter, N, Schmidt, R, Tetzlaff, A, Kittel, R, Brauhardt, A, and Hilbert, A

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

Hintergrund: Etwa 20% aller Jugendlichen zeigen Essstörungssymptome. Diese sowie klinisch relevante Essstörungen zeigen eine Erstmanifestation insbesondere im Jugendalter. Zur Epidemiologie der Binge-Eating-Störung (BED) liegen bisher nur wenige Befunde an Jugendlichen in Deutschland[for full text, please go to the a.m. URL], 4. Wissenschaftlicher Kongress der Deutschen Gesellschaft für Essstörungen

Published
2014
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27. Microrna MIR-352 in early liver regeneration: What role?

Author

Lisboa, SL, primary, Raschzok, N, additional, Leder, A, additional, Schlüter, N, additional, Jörres, M, additional, Kolano, S, additional, Butter, A, additional, Lippert, S, additional, Werner, W, additional, Neuhaus, P, additional, and Sauer, IM, additional

Published
2013
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30. Silica-Based Micron-Sized Iron Oxide Particles for Detection and Loco-Regional Stimulation of Transplanted Liver Cells

Author

Raschzok, N., primary, Leder, A., additional, Schmidt, C., additional, Lerche, K. H., additional, Langer, C. M., additional, Butter, A., additional, Schlüter, N. B., additional, Werner, W., additional, Lippert, S., additional, Kolano, S., additional, Bednarek, R., additional, Teichgräber, U. K., additional, Neuhaus, P., additional, and Sauer, I. M., additional

Published
2012
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38. From data to discovery: AI-guided analysis of disease-relevant molecules in spinal muscular atrophy (SMA).

Author

Tapken I, Kuhn D, Hoffmann N, Detering NT, Schüning T, Billaud JN, Tugendreich S, Schlüter N, Green J, Krämer A, and Claus P

Subjects
Animals, Mice, Humans, Survival of Motor Neuron 1 Protein genetics, Survival of Motor Neuron 1 Protein metabolism, Machine Learning, Algorithms, Gene Expression Regulation genetics, Muscular Atrophy, Spinal genetics, Muscular Atrophy, Spinal metabolism, Disease Models, Animal, Artificial Intelligence, Computational Biology methods
Abstract

Spinal Muscular Atrophy is caused by partial loss of survival of motoneuron (SMN) protein expression. The numerous interaction partners and mechanisms influenced by SMN loss result in a complex disease. Current treatments restore SMN protein levels to a certain extent, but do not cure all symptoms. The prolonged survival of patients creates an increasing need for a better understanding of SMA. Although many SMN-protein interactions, dysregulated pathways, and organ phenotypes are known, the connections among them remain largely unexplored. Monogenic diseases are ideal examples for the exploration of cause-and-effect relationships to create a network describing the disease-context. Machine learning tools can utilize such knowledge to analyze similarities between disease-relevant molecules and molecules not described in the disease so far. We used an artificial intelligence-based algorithm to predict new genes of interest. The transcriptional regulation of 8 out of 13 molecules selected from the predicted set were successfully validated in an SMA mouse model. This bioinformatic approach, using the given experimental knowledge for relevance predictions, enhances efficient targeted research in SMA and potentially in other disease settings., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published
2024
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39. Predicting the Topological and Transport Properties in Porous Transport Layers for Water Electrolyzers.

Author

Liu J, Kerner F, Schlüter N, and Schröder D

Abstract

The porous transport layer (PTL) in polymer electrolyte membrane (PEM) electrolyzers governs the overall efficiency. Its structural, thermal, and electronic properties determine how effortlessly the gases can be produced and can exit the PEM electrolyzer. In this study, we apply a stochastic reconstruction method for titanium felt-based PTLs to generate PTLs with different porosity, fiber radii, and anisotropy parameters. The morphology and topology of these PTLs are numerically characterized, and transport properties, such as gas diffusion coefficients and electrical and thermal conductivity, are computed via pore-scale modeling. Customized graded PTLs are proposed, exhibiting the optimal topology and bulk structure for the removal of gases, the conductance of electrons, and the transport of heat. The results indicate that the surface and transport properties of PTLs can be tailored by certain morphology parameters: PTLs with lower porosity and smaller fiber radii feature a more sufficient interfacial contact and superior electrical and thermal conductivity. Lowering the anisotropy parameters of PTLs results in a slight loss of interfacial contact but a substantial increase in the electrical and thermal conductivity in the through-plane direction. We outline that the design of PTLs should be differentiated depending on the operating conditions of electrolyzers. For nonstarvation conditions, PTLs should feature low porosity and small fiber radii, whereas for starvation conditions, PTLs should feature high porosity, low anisotropy parameters, and small fiber radii. Furthermore, graded PTLs with enhanced structural and transport properties can be developed by customizing the porosity, fiber radius, and fiber orientation.

Published
2023
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40. Tailored Porous Transport Layers for Optimal Oxygen Transport in Water Electrolyzers: Combined Stochastic Reconstruction and Lattice Boltzmann Method.

Author

Liu J, Li M, Yang Y, Schlüter N, Mimic D, and Schröder D

Abstract

The porous transport layer (PTL) plays an integral role for the mass transport in polymer electrolyte membrane (PEM) electrolyzers. In this work, a stochastic reconstruction method of titanium felt-based PTLs is applied and combined with the Lattice Boltzmann method (LBM). The aim is to parametrically investigate the impact of different PTL structures on the transport of oxygen. The structural characteristics of a reconstructed PTL agree well with experimental investigations. Moreover, the impact of PTL porosity, fiber radius, and anisotropy parameter on the structural characteristics of PTLs are analyzed, and their impact on oxygen transport are elucidated by LBM. Eventually, a customized graded PTL is reconstructed, exhibiting almost optimal mass transport performance for the removal of oxygen. The results show that a higher porosity, larger fiber radius, and smaller anisotropy parameter facilitate the formation of oxygen propagation pathways. By tailoring the fiber characteristics and thus optimizing the PTLs, guidelines for the optimal design and manufacturing can be obtained for large-scale PTLs for electrolyzers., (© 2023 The Authors. ChemPhysChem published by Wiley-VCH GmbH.)

Published
2023
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41. A 104-Ma record of deep-sea Atelostomata (Holasterioda, Spatangoida, irregular echinoids) - a story of persistence, food availability and a big bang.

Author

Wiese F, Schlüter N, Zirkel J, Herrle JO, and Friedrich O

Subjects
Oceans and Seas, Biomass, Water, Biological Evolution, Fossils, Extinction, Biological
Abstract

Deep-sea macrobenthic body fossils are scarce due to the lack of deep-sea sedimentary archives in onshore settings. Therefore, hypothesized migrations of shallow shelf taxa into the deep-sea after phases of mass extinction (onshore-offshore pattern in the literature) due to anoxic events is not constrained by the fossil record. To resolve this conundrum, we investigated 1,475 deep-sea sediment samples from the Atlantic, Pacific and Southern oceans (water depth ranging from 200 to 4,700 m), providing 41,460 spine fragments of the crown group Atelostomata (Holasteroida, Spatangoida). We show that the scarce fossil record of deep-sea echinoids is in fact a methodological artefact because it is limited by the almost exclusive use of onshore fossil archives. Our data advocate for a continuous record of deep-sea Atelostomata back to at least 104 Ma (late early Cretaceous), and literature records suggest even an older age (115 Ma). A gradual increase of different spine tip morphologies from the Albian to the Maastrichtian is observed. A subsequent, abrupt reduction in spine size and the loss of morphological inventory in the lowermost Paleogene is interpreted to be an expression of the "Lilliput Effect", related to nourishment depletion on the sea floor in the course of the Cretaceous-Paleogene (K-Pg) Boundary Event. The recovery from this event lasted at least 5 Ma, and post-K-Pg Boundary Event assemblages progress-without any further morphological breaks-towards the assemblages observed in modern deep-sea environments. Because atelostomate spine morphology is often species-specific, the variations in spine tip morphology trough time would indicate species changes taking place in the deep-sea. This observation is, therefore, interpreted to result from in-situ evolution in the deep-sea and not from onshore-offshore migrations. The calculation of the "atelostomate spine accumulation rate" (ASAR) reveals low values in pre-Campanian times, possibly related to high remineralization rates of organic matter in the water column in the course of the mid-Cretaceous Thermal Maximum and its aftermath. A Maastrichtian cooling pulse marks the irreversible onset of fluctuating but generally higher atelostomate biomass that continues throughout the Cenozoic., Competing Interests: The authors have declared that no competing interests exist, (Copyright: © 2023 Wiese et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2023
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42. Introducing Alternative Algorithms for the Determination of the Distribution of Relaxation Times.

Author

Bergmann TG and Schlüter N

Subjects
Electric Impedance, Algorithms
Abstract

Impedance spectroscopy is a powerful characterization method to evaluate the performance of electrochemical systems. However, overlapping signals in the resulting impedance spectra oftentimes cause misinterpretation of the data. The distribution of relaxation times (DRT) method overcomes this problem by transferring the impedance data from the frequency domain into the time domain, which yields DRT spectra with an increased resolution. Unfortunately, the determination of the DRT is an ill-posed problem, and appropriate mathematical regularizations become inevitable to find suitable solutions. The Tikhonov algorithm is a widespread method for computing DRT data, but it leads to unlikely spectra due to necessary boundaries. Therefore, we introduce the application of three alternative algorithms (Gold, Richardson Lucy, Sparse Spike) for the determination of stable DRT solutions and compare their performances. As the promising Sparse Spike deconvolution has a limited scope when using one single regularization parameter, we furthermore replaced the scalar regularization parameter with a vector. The resulting method is able to calculate well-resolved DRT spectra., (© 2022 The Authors. ChemPhysChem published by Wiley-VCH GmbH.)

Published
2022
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43. Geometric morphometric analysis of morphologic disparity, intraspecific variation and ontogenetic allometry of beyrichitine ammonoids.

Author

Bischof EA, Schlüter N, and Lehmann J

Subjects
Animals, Crustacea anatomy & histology, Crustacea classification, Extinction, Biological, Gene Ontology, Nevada, Species Specificity, Biological Evolution, Crustacea genetics, Fossils, Genetic Variation
Abstract

Beyrichitine ammonoids of NV Nevada reveal a high taxonomic diversity of Anisian (Middle Triassic). This diversity is, however, in contrast to their relatively low morphologic disparity. Depending on the exact definition, morphologic disparity of a data set is a direct consequence of the sum of all ontogenetic changes. In the past, however, the interplay of both morphological processes has only rarely been addressed. Using geometric morphometric methods, this study aims at a quantification of allometric processes and the morphologic disparity of beyrichitine ammonoids. The multivariate statistical analysis revealed that morphologic disparity, intraspecific variation respectively, within and between the studied species seems to be the result of deviations in the ontogenetic allometric growth pattern (i.e. heterochrony). During deposition of the studied stratigraphic sequence, a general progressive pedomorphism (juvenilization) was observed. The intraspecific variability pattern coincides with the total morphologic disparity of the analyzed species, which suggests that intraspecific variability facilitated morphologic disparity. The comparison of ontogenetic allometric patterns and changes in intraspecific variation and morphologic disparity are likely to refine our understanding of the intrinsic factors influencing the speciation of this group., Competing Interests: There are no competing interests.

Published
2022
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44. Bidirectional electroactive microbial biofilms and the role of biogenic sulfur in charge storage and release.

Author

Izadi P, Gey MN, Schlüter N, and Schröder U

Abstract

The formation of combined electrogenic/electrotrophic biofilms from marine sediments for the development of microbial energy storage systems was studied. Sediment samples from the German coasts of the Baltic and the North Sea were used as inocula for biofilm formation. Anodic biofilm cultivation was applied for a fast and reproducible biofilm formation. North-Sea- and Baltic-Sea-derived biofilms yielded comparable anodic current densities of about 7.2 A m -2 . The anodic cultivation was followed by a potential reversal regime, transitioning the electrode potential from 0.2 V to -0.8 V every 2 h to switch between anodic and cathodic conditions. The charge-discharge behavior was studied, revealing an electrochemical conversion of biogenic elemental sulfur as major charge-discharge mechanism. The microbial sequencing revealed strong differences between North- and Baltic-Sea-derived biofilms; however with a large number of known sulfur-converting and electrochemically active bacteria in both biofilms., Competing Interests: The authors declare no competing interests., (© 2021 The Author(s).)

Published
2021
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45. Ontogeny of highly variable ceratitid ammonoids from the Anisian (Middle Triassic).

Author

Bischof EA, Schlüter N, Korn D, and Lehmann J

Abstract

Ammonoids reached their greatest diversity during the Triassic period. In the early Middle Triassic (Anisian) stage, ammonoid diversity was dominated by representatives of the family Ceratitidae. High taxonomic diversity can, however, be decoupled from their morphologic disparity. Due to its high phenotypic variability, the high diversity of ceratitids of the Anisian of Nevada was initially assumed to be caused by artificial over-splitting. This study aims to contribute data to settle this issue by applying geometric morphometrics methods, using landmarks and semi-landmarks, in the study of ontogenetic cross-sections of ammonoids for the first time. The results reveal that alterations in ontogenetic trajectories, linked to heterochronic processes, lead to the morphologic diversification of the species studied herein. Our knowledge, based on these ontogenetic changes, challenge the traditional treatment of species using solely adult characters for their distinction. This study furthermore demonstrates that the high diversity of the Anisian ammonoid assemblages of Nevada based on the traditional nomenclatoric approach is regarded to be reasonably accurate., Competing Interests: The authors declare there are no competing interests., (©2021 Bischof et al.)

Published
2021
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46. Special aspects of nutrition in elderly

Author

Schlüter N and Groß P

Subjects
Aged, Guidelines as Topic, Humans, Minerals, Aging physiology, Energy Intake, Micronutrients, Nutritional Status, Vitamins
Abstract

A balanced and wholesome diet provides the human organism with energy (macronutrients) and all necessary micronutrients (vitamins, minerals, proteinogenic amino acids, omega fatty acids) necessary for the maintenance of all metabolic processes. The necessary quantity and composition especially of energy-supplying macronutrients change with age due to physiological and pathological changes in the body. These age-related changes as well as corresponding recommendations for elderly patients will be summarized in the following article based on the current S3 guidelines of the German Society for Nutritional Medicine on «Clinical Nutrition in Geriatrics» as well as further literature and the recommendations of the German Nutrition Society. Nutrition at the terminal stage of life and special nutritional advices for persons suffering from diabetes mellitus are not discussed.

Published
2019
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47. Two echinoid species from the early Aptian (Early Cretaceous) of the Kopet-Dagh Basin, NE Iran.

Author

Schlüter N, Taherpour-Khalil-Abad M, Majidifard M, Hassanzadeh Z, and Taheri J

Subjects
Animals, Iran, Sea Urchins
Abstract

Two echinoid species from the Sarcheshmeh Formation, early Aptian, Lower Cretaceous, of the Kopet-Dagh Basin, NE Iran, are described: a phymosomatoid specimen of Tetragramma sp., and the spatangoid echinoid Miotoxaster collegnii (Sismonda, 1844). This is the first report of echinoids from the Sarcheshmeh Formation from northeastern Iran.

Published
2019
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48. Visual shape perception in the case of transparent objects.

Author

Schlüter N and Faul F

Subjects
Adolescent, Adult, Female, Humans, Male, Models, Theoretical, Surface Properties, Vision Tests, Young Adult, Cues, Form Perception physiology
Abstract

In order to estimate the shape of objects, the visual system must refer to shape-related regularities in the (retinal) image. For opaque objects, many such regularities have already been identified, but most of them cannot simply be transferred to transparent objects, because they are not available there at all or are available only in a substantially modified form. We here consider three potentially relevant regularities specific to transparent objects: optical background distortions due to refraction, changes in chromaticity and brightness due to absorption, and multiple mirror images due to specular reflection. Using computer simulations, we first analyze under which conditions these regularities may be used as shape cues. We further investigate experimentally how shape perception depends on the availability of these potential cues in realistic scenes under natural viewing conditions. Our results show that the shape of transparent objects was perceived both less accurately and less precisely than in the opaque case. Furthermore, the influence of individual image regularities varied considerably depending on the properties of both object and scene. This suggests that in the transparent case, what kind of information is usable as a shape cue depends on a complex interplay of properties of the transparent object and the surrounding scene.

Published
2019
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49. Matching the Material of Transparent Objects: The Role of Background Distortions.

Author

Schlüter N and Faul F

Abstract

It has been proposed that the visual system is able to estimate the refractive index of thick transparent objects from background distortions caused by them. More specifically, it was hypothesized that this is done based on a mid-level cue, the distortion field, whose computation from the input requires comparing the part of the background seen through the object with the part visible in plain view. We test two predictions derived from this hypothesis: (a) scene variables that do not change the distortion field, for instance, the density of the background texture, should not systematically influence the subjects' settings in a material matching task. (b) The uncertainty of the estimates should increase sharply, if the part of the background texture in plain view is removed. Our results are not compatible with these two predictions but are completely in line with the alternative interpretation that the subjects maximized the similarity of the distorted background textures on the image level. Additional results indicate that subjects can take relations between the distorted and the undistorted background into account if this is encouraged by the experimental design, but they do this in a simplistic way that is inappropriate to estimate the refractive index.

Published
2016
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50. Loss of control eating in adolescents from the community.

Author

Schlüter N, Schmidt R, Kittel R, Tetzlaff A, and Hilbert A

Subjects
Adolescent, Body Mass Index, Child, Eating psychology, Female, Humans, Male, Prospective Studies, Recurrence, Surveys and Questionnaires, Young Adult, Feeding Behavior psychology, Feeding and Eating Disorders psychology
Abstract

Objective: Loss of control (LOC) eating is a salient indicator of eating disorder psychopathology in adolescents and is associated with marked distress. While research has focused on the relevance of episode size, clinical significance of LOC eating frequency has rarely been explored. Therefore, this study aimed at identifying LOC eating prevalence with respect to its recurrence and associated variables in a community-based sample., Method: Participants were 1,643 adolescents, aged 12-20 years (62.4% female). Based on EDE-Q self-report, participants were categorized as those reporting recurrent (N = 156; 9.5%), nonrecurrent (N = 226; 13.8%), and no LOC eating (N = 1261; 76.7%)., Results: Adolescents with recurrent LOC eating reported clinically relevant and significantly greater eating disorder psychopathology, functional impairment, and distress because of LOC eating, and a significantly higher body mass index (BMI, kg/m(2) ) than adolescents with nonrecurrent and those without LOC eating., Discussion: These results underline that LOC eating is a common eating behavior among adolescents in the community associated with clinical characteristics of eating disorders, and could therefore be a risk factor for developing full- or partial-syndrome eating disorders. Further research on the classification of eating disorders in adolescents with LOC eating and severity indicators is warranted., (© 2015 Wiley Periodicals, Inc.)

Published
2016
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