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2. The influence of product- and person-related factors on consumer hedonic responses to soy products

Author

Anna Fenko, Joris Jasper van Hoof, Birte W. Backhaus, Marketing, and Faculty of Behavioural, Management and Social Sciences

Subjects
Related factors, Taste, Nutrition and Dietetics, IR-92926, Neophobia, Advertising, Health benefits, medicine.disease, High food, METIS-306854, Product (business), medicine, Psychology, Food Science
Abstract

Consumers in Western countries increasingly appreciate health benefits of soy products. However, several barriers prevent full acceptance of these products. This study investigates the effects of product-related factors (perceived familiarity and expected healthiness) and person-related factors (food neophobia and health interest) on consumer hedonic responses to various soy products. In the pre-study, 48 German-speaking participants assessed the perceived familiarity, healthiness and tastiness for 21 soy products. In the main study, four soy products that differed in familiarity and healthiness were presented to German consumers (n = 327) as images supplemented by product names and slogans stressing either health or taste benefits. Participants rated their attitudes towards the product, product liking, taste expectations and willingness to try the products in a 2 (familiar or unfamiliar products) × 2 (healthy or tasty products) × 2 (low or high food neophobia) between-subject design. As hypothesized, neophilic consumers showed more positive responses to soy products compared to neophobic consumers. Neophobics showed more positive responses to familiar soy products, whereas the responses of neophilics were not influenced by product familiarity. Health interest positively influenced the willingness to try soy products. However, the effect of healthiness manipulation on hedonic responses to experimental products was not significant. The results of the study suggest that perceived familiarity might be more important for acceptance of soy products than expected healthiness. Successful marketing strategies for soy products should target neophobic consumers by increasing the level of familiarity of soy foods.

Published
2015
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3. Early Intensive Hand Rehabilitation Is Not More Effective than Usual Care Plus One-To-One Hand Therapy in People with Sub-Acute Spinal Cord Injury ('Hands On'): A Randomised Trial

Author

W. Backhaus

Subjects
medicine.medical_specialty, Rehabilitation, business.industry, medicine.medical_treatment, Hand therapy, Sub acute, medicine.disease, Physical medicine and rehabilitation, Usual care, Physical therapy, Medicine, book.journal, business, book, Spinal cord injury
Published
2016
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9. Intranasal flunisolide spray as an adjunct to oral antibiotic therapy for sinusitis

Author

W. James Metzger, Don Q. Mitchell, H.Alice Orgel, Gail G. Shapiro, James W. Backhaus, Julius van Bavel, Howard M. Druce, William W. Busse, Christa Baseh, Eli O. Meltzer, and John C. Seiner

Subjects
Adult, Male, medicine.medical_specialty, Maxillary sinus, medicine.medical_treatment, Administration, Topical, Immunology, Anti-Inflammatory Agents, Administration, Oral, Placebo, Amoxicillin-Potassium Clavulanate Combination, law.invention, Clavulanic Acids, Randomized controlled trial, Double-Blind Method, law, Administration, Inhalation, medicine, Flunisolide, Immunology and Allergy, Humans, Sinusitis, Antibacterial agent, business.industry, Amoxicillin, medicine.disease, Surgery, Nasal decongestant, Radiography, medicine.anatomical_structure, Nasal spray, Fluocinolone Acetonide, Anesthesia, Drug Therapy, Combination, Female, business, medicine.drug
Abstract

The diagnosis of sinusitis is difficult and there are few controlled studies of customary therapies. In particular, the possible role of topical intranasal steroid as an adjunct to antibiotic treatment has not been evaluated.The study was a multicenter, double-blind, randomized, parallel trial in which patients aged 14 years or older were recruited from allergy practices. All patients had maxillary sinusitis documented by radiographs. Treatment consisted of amoxicillin/clavulanate potassium 500 mg combined with nasal spray of either 100 micrograms flunisolide or placebo to each nostril three times a day for 3 weeks (phase I) followed by administration of flunisolide or placebo nasal spray alone three times a day for 4 weeks (phase II).Clinical symptoms and signs decreased significantly in both treatment groups during phase I (p0.01). There was a trend to greater improvement in the patients treated with flunisolide, but only the decrease in turbinate swelling/obstruction was statistically significant at the end of phase I when compared with placebo (p = 0.041). Patients' global assessment of overall effectiveness of treatment was higher for flunisolide than placebo after phase I (p = 0.007) and after phase II (p = 0.08). Maxillary sinus radiographs showed improvement in both treatment groups during phase I (p0.004) with somewhat greater regression of abnormal findings in patients treated with flunisolide after phase II (p = 0.066). However, 80% of radiographs were still abnormal at the end of phase I. All types of inflammatory cells were significantly decreased in nasal cytograms in patients treated with flunisolide in comparison with those treated with placebo. Flare-up of sinusitis during phase II occurred in 26% of with those treated with placebo. Flare-up of sinusitis during phase II occurred in 26% of patients treated with flunisolide and 35% of those treated with placebo and tended to be more severe in the latter, although these differences were not statistically significant. Adverse events, mainly gastrointestinal symptoms and headache, were similar in both groups and more frequent in phase I than in phase II, (42 vs 15 patients); these side effects were probably due to the antibiotic.The addition of flunisolide topical nasal spray as an adjunct to antibiotic therapy was most effective in global evaluations, tended to improve symptoms, to decrease inflammatory cells in nasal cytograms, to normalize ultrasound scans, and to aid regression of radiographic abnormalities compared with placebo spray.

Published
1993

10. Color vision and color choice behavior of the honey bee

Author

W. Backhaus and Revues Inra, Import

Subjects
0106 biological sciences, [SDV.EE]Life Sciences [q-bio]/Ecology, environment, Apidae, biology, Color vision, Honey bee, [SDV.BID]Life Sciences [q-bio]/Biodiversity, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, [SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate Zoology, 010602 entomology, Honey Bees, [SDV.EE] Life Sciences [q-bio]/Ecology, environment, Insect Science, [SDV.SA.SPA]Life Sciences [q-bio]/Agricultural sciences/Animal production studies, [SDV.BA.ZI] Life Sciences [q-bio]/Animal biology/Invertebrate Zoology, [SDV.SA.SPA] Life Sciences [q-bio]/Agricultural sciences/Animal production studies, Humanities, ComputingMilieux_MISCELLANEOUS, [SDV.BID] Life Sciences [q-bio]/Biodiversity
Abstract

La theorie des couleurs developpee par l'auteur pour l'abeille decrit tres bien la vision et le comportement de choix des couleurs. La theorie consiste en 5 modeles qui interagissent: 1) le modele physiologique (PR) des photorecepteurs. 2) le modele physiologique de codage oppose des couleurs (COC). Celui-ci decrit le codage de la chromaticite (aspect bidimensionnel de la couleur qui est different de la brillance) par 2 types de neurones codant en oppose lineairement. Un systeme de codage de la brillance n'est pas necessaire parce que l'abeille ignore les differences d'intensite dans les experiences de dressage a la couleur

Published
1993

11. The Common Mussel (Mytilus edulis) as Marine Bioindicator for the Environmental Specimen Bank of the Federal Republic of Germany

Author

J. D. Schladot and F. W. Backhaus

Subjects
Fishery, Biotope, education.field_of_study, biology, Population, Period (geology), Environmental pollution, Ecosystem, Mussel, biology.organism_classification, education, Bioindicator, Mytilus
Abstract

The mud flats as part of the North Sea represent a particularly sensitive and ecologically valuable part of the Atlantic. This area takes on a key role in the ecosystem of the North Sea and is characterized by a rhythmic alternation between high and low tide. The mud flats are a large-scale biotope for various fish species, mussels, crustaceans, gastropods, etc. At the same time the mud flats also represent a residential and economic area for the human population. Because of this reason, serious problems affect the mud flats and the North Sea coast from different interferences which are not environmentally compatible. Environmental pollution due to anthropogenic influences is still on the rise and requires comprehensive controls and monitoring strategies. Within the Environmental Specimen Bank of the Federal Republic of Germany, mussels of various representative areas of the mud flats are periodically collected and analyzed. Time dependent trends require precisely described collection, sample preparation and analytical characterization. Therefore, Standard Operation Procedures (SOPs) are prepared for the collection of mussels and other specimen. The selection of a representative collection area for mussels is based on a screening test. Some results of a screening test in the Sehleswig-Holstein mud flats are given in this report. The collection of mussels for the Environmental Specimen Bank is done in the “Konigshafen List” a part of the Sylt-Romo-mud flats in a two month period.

Published
1992
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14. Offshore Natural Gas - How To Convey It to Potential Markets?

Author

Herbert W. Backhaus

Subjects
Petroleum engineering, business.industry, Natural gas, Medicine, Submarine pipeline, business
Abstract

ABSTRACT The aim of this paper is to appraise the possible future role for natural gas from offshore areas, - under the assumption that a fair number of known and future deposits cannot be exploited by means of submarine pipelines. As a solution, offshore located natural gas converting plants seem to beviable, both from the technical and the economic point of view. In order to quantify this statement, a marginal offshore gas field has been assumed, offering a total reserve capacity of approx. 10 billion standard cubic meters, located at a distance of 250 nautical miles from the coast, at a water depth of 60 meters. For this hypothetical field the offshore production of electricity, methanol, ammonia and LNG has been investigated - dealing with involved technologies and required investments. INTRODUCTION The persistently critical upsurge in oil prices and the looming threat of cuts in production by OPEC countries are augmenting the trend in many industrialised states to use natural gas. This shift in consumer habits will accelerate as a result of the lack of real alternative sources of energy inadequate quantities. A short glance at the world's energy resources reveals the absence of any factors militating against a wider use of natural gas in order to economize on the consumption of oil. The world's annual production of conventional natural gas is now around 55exajoules (one EJ equals 1.0885 trillion cu ft). In comparison, the proven world gas reserves amount to 2 750 EJ, and the assumed, as yet undiscovered gas resources range from 5 600 to 13 000 EJ. Even at an annual world consumption rate of double the present figure, the world's remaining natural gas resources would be sufficient to sustain production about another 100years. This, in particular, would be true if the considerably large amounts of(crude oil) associated gases were to be consistently utilized.

Published
1980
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15. Frontoparietal Structural Network Disconnections Correlate With Outcome After a Severe Stroke.

Author

Frontzkowski L, Fehring F, Frey BM, Wróbel PP, Reibelt A, Higgen F, Wolf S, Backhaus W, Braaß H, Koch PJ, Choe CU, Bönstrup M, Cheng B, Thomalla G, Gerloff C, Quandt F, and Schulz R

Subjects
Humans, Male, Female, Middle Aged, Aged, Ischemic Stroke diagnostic imaging, Ischemic Stroke pathology, Ischemic Stroke physiopathology, Stroke diagnostic imaging, Stroke pathology, Stroke physiopathology, Recovery of Function physiology, Neural Pathways diagnostic imaging, Neural Pathways pathology, Neural Pathways physiopathology, Severity of Illness Index, Follow-Up Studies, Adult, Magnetic Resonance Imaging, Connectome, Parietal Lobe diagnostic imaging, Parietal Lobe pathology, Parietal Lobe physiopathology, Frontal Lobe diagnostic imaging, Frontal Lobe pathology, Nerve Net diagnostic imaging, Nerve Net pathology, Nerve Net physiopathology
Abstract

Structural disconnectome analyses have provided valuable insights into how a stroke lesion results in widespread network disturbances and how these relate to deficits, recovery patterns, and outcomes. Previous analyses have primarily focused on patients with relatively mild to moderate deficits. However, outcomes vary among survivors of severe strokes, and the mechanisms of recovery remain poorly understood. This study assesses the association between lesion-induced network disconnection and outcome after severe stroke. Thirty-eight ischaemic stroke patients underwent MRI brain imaging early after stroke and longitudinal clinical follow-up. Lesion information was integrated with normative connectome data to infer individual disconnectome profiles on a localized regional and region-to-region pathway level. Ordinal logistic regressions were computed to link disconnectome information to the modified Rankin Scale after 3-6 months. Disconnections of ipsilesional frontal, parietal, and temporal cortical brain areas were significantly associated with a worse motor outcome after a severe stroke, adjusted for the initial deficit, lesion volume, and age. The analysis of the underlying pathways mediating this association revealed location-specific results: For frontal, prefrontal, and temporal brain areas, the association was primarily driven by relatively sparse intrahemispheric disconnections. In contrast, the ipsilesional primary motor cortex, the dorsal premotor cortex, and various parietal brain regions showed a remarkable involvement of either frontoparietal intrahemispheric or additionally interhemispheric disconnections. These results indicate that localized disconnection of multiple regions embedded in the structural frontoparietal network correlates with worse outcomes after severe stroke. Specifically, primary motor and parietal cortices might gain particular importance as they structurally link frontoparietal networks of both hemispheres. These data shed novel light on the significance of distinct brain networks for recovery after a severe stroke., (© 2024 The Author(s). Human Brain Mapping published by Wiley Periodicals LLC.)

Published
2024
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16. Early functional connectivity alterations in contralesional motor networks influence outcome after severe stroke: a preliminary analysis.

Author

Braaß H, Gutgesell L, Backhaus W, Higgen FL, Quandt F, Choe CU, Gerloff C, and Schulz R

Subjects
Humans, Magnetic Resonance Imaging methods, Brain, Brain Mapping methods, Recovery of Function physiology, Stroke diagnostic imaging, Motor Cortex diagnostic imaging
Abstract

Connectivity studies have significantly extended the knowledge on motor network alterations after stroke. Compared to interhemispheric or ipsilesional networks, changes in the contralesional hemisphere are poorly understood. Data obtained in the acute stage after stroke and in severely impaired patients are remarkably limited. This exploratory, preliminary study aimed to investigate early functional connectivity changes of the contralesional parieto-frontal motor network and their relevance for the functional outcome after severe motor stroke. Resting-state functional imaging data were acquired in 19 patients within the first 2 weeks after severe stroke. Nineteen healthy participants served as a control group. Functional connectivity was calculated from five key motor areas of the parieto-frontal network on the contralesional hemisphere as seed regions and compared between the groups. Connections exhibiting stroke-related alterations were correlated with clinical follow-up data obtained after 3-6 months. The main finding was an increase in coupling strength between the contralesional supplementary motor area and the sensorimotor cortex. This increase was linked to persistent clinical deficits at follow-up. Thus, an upregulation in contralesional motor network connectivity might be an early pattern in severely impaired stroke patients. It might carry relevant information regarding the outcome which adds to the current concepts of brain network alterations and recovery processes after severe stroke., (© 2023. The Author(s).)

Published
2023
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17. Cortical thickness of contralesional cortices positively relates to future outcome after severe stroke.

Author

Rojas Albert A, Backhaus W, Graterol Pérez JA, Braaβ H, Schön G, Choe CU, Feldheim J, Bönstrup M, Cheng B, Thomalla G, Gerloff C, and Schulz R

Subjects
Humans, Torso, Stroke pathology, Motor Cortex pathology
Abstract

Imaging studies have evidenced that contralesional cortices are involved in recovery after motor stroke. Cortical thickness (CT) analysis has proven its potential to capture the changes of cortical anatomy, which have been related to recovery and treatment gains under therapy. An open question is whether CT obtained in the acute phase after stroke might inform correlational models to explain outcome variability. Data of 38 severely impaired (median NIH Stroke Scale 9, interquartile range: 6-13) acute stroke patients of 2 independent cohorts were reanalyzed. Structural imaging data were processed via the FreeSurfer pipeline to quantify regional CT of the contralesional hemisphere. Ordinal logistic regression models were fit to relate CT to modified Rankin Scale as an established measure of global disability after 3-6 months, adjusted for the initial deficit, lesion volume, and age. The data show that CT of contralesional cortices, such as the precentral gyrus, the superior frontal sulcus, and temporal and cingulate cortices, positively relates to the outcome after stroke. This work shows that the baseline cortical anatomy of selected contralesional cortices can explain the outcome variability after severe stroke, which further contributes to the concept of structural brain reserve with respect to contralesional cortices to promote recovery., (© The Author(s) 2022. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permission@oup.com.)

Published
2022
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18. Structural cerebellar reserve positively influences outcome after severe stroke.

Author

Sadeghihassanabadi F, Frey BM, Backhaus W, Choe CU, Zittel S, Schön G, Bönstrup M, Cheng B, Thomalla G, Gerloff C, and Schulz R

Abstract

The concept of brain reserve capacity positively influencing the process of recovery after stroke has been continuously developed in recent years. Global measures of brain health have been linked with a favourable outcome. Numerous studies have evidenced that the cerebellum is involved in recovery after stroke. However, it remains an open question whether characteristics of cerebellar anatomy, quantified directly after stroke, might have an impact on subsequent outcome after stroke. Thirty-nine first-ever ischaemic non-cerebellar stroke patients underwent MRI brain imaging early after stroke and longitudinal clinical follow-up. Structural images were used for volumetric analyses of distinct cerebellar regions. Ordinal logistic regression analyses were conducted to associate cerebellar volumes with functional outcome 3-6 months after stroke, operationalized by the modified Rankin Scale. Larger volumes of cerebellar lobules IV, VI, and VIIIB were positively correlated with favourable outcome, independent of the severity of initial impairment, age, and lesion volume ( P < 0.01). The total cerebellar volume did not exhibit a significant structure-outcome association. The present study reveals that pre-stroke anatomy of distinct cerebellar lobules involved in motor and cognitive functioning might be linked to outcome after acute non-cerebellar stroke, thereby promoting the emerging concepts of structural brain reserve for recovery processes after stroke., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published
2022
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19. Brain network topology early after stroke relates to recovery.

Author

Nemati PR, Backhaus W, Feldheim J, Bönstrup M, Cheng B, Thomalla G, Gerloff C, and Schulz R

Abstract

Analyses of alterations of brain networks have gained an increasing interest in stroke rehabilitation research. Compared with functional networks derived from resting-state analyses, there is limited knowledge of how structural network topology might undergo changes after stroke and, more importantly, if structural network information obtained early after stroke could enhance recovery models to infer later outcomes. The present work re-analysed cross-sectional structural imaging data, obtained within the first 2 weeks, of 45 acute stroke patients (22 females, 24 right-sided strokes, age 68 ± 13 years). Whole-brain tractography was performed to reconstruct structural connectomes and graph-theoretical analyses were employed to quantify global network organization with a focus on parameters of network integration and modular processing. Graph measures were compared between stroke patients and 34 healthy controls (15 females, aged 69 ± 10 years) and they were integrated with four clinical scores of the late subacute stage, covering neurological symptom burden (National Institutes of Health Stroke Scale), global disability (modified Rankin Scale), activity-related disability (Barthel Index) and motor functions (Upper-Extremity Score of the Fugl-Meyer Assessment). The analyses were employed across the complete cohort and, based on clustering analysis, separately within subgroups stratified in mild to moderate ( n  = 21) and severe ( n  = 24) initial deficits. The main findings were (i) a significant reduction of network's global efficiency, specifically in patients with severe deficits compared with controls ( P  = 0.010) and (ii) a significant negative correlation of network efficiency with the extent of persistent functional deficits at follow-up after 3-6 months ( P  ≤ 0.032). Specifically, regression models revealed that this measure was capable to increase the explained variance in future deficits by 18% for the modified Rankin Scale, up to 24% for National Institutes of Health Stroke Scale, and 16% for Barthel Index when compared with models including the initial deficits and the lesion volume. Patients with mild to moderate deficits did not exhibit a similar impact of network efficiency on outcome inference. Clustering coefficient and modularity, measures of segregation and modular processing, did not exhibit comparable structure-outcome relationships, neither in severely nor in mildly affected patients. This study provides empirical evidence that structural network efficiency as a graph-theoretical marker of large-scale network topology, quantified early after stroke, relates to recovery. Notably, this contribution was only evident in severely but not mildly affected stroke patients. This suggests that the initial clinical deficit might shape the dependency of recovery on global network topology after stroke., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published
2022
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20. Predictive Value of Upper Extremity Outcome Measures After Stroke-A Systematic Review and Metaregression Analysis.

Author

Wolf S, Gerloff C, and Backhaus W

Abstract

A better understanding of motor recovery after stroke requires large-scale, longitudinal trials applying suitable assessments. Currently, there is an abundance of upper limb assessments used to quantify recovery. How well various assessments can describe upper limb function change over 1 year remains uncertain. A uniform and feasible standard would be beneficial to increase future studies' comparability on stroke recovery. This review describes which assessments are common in large-scale, longitudinal stroke trials and how these quantify the change in upper limb function from stroke onset up to 1 year. A systematic search for well-powered stroke studies identified upper limb assessments classifying motor recovery during the initial year after a stroke. A metaregression investigated the association between assessments and motor recovery within 1 year after stroke. Scores from nine common assessments and 4,433 patients were combined and transformed into a standardized recovery score. A mixed-effects model on recovery scores over time confirmed significant differences between assessments ( P < 0.001), with improvement following the weeks after stroke present when measuring recovery using the Action Research Arm Test (β = 0.013), Box and Block test (β = 0.011), Fugl-Meyer Assessment (β = 0.007), or grip force test (β = 0.023). A last-observation-carried-forward analysis also highlighted the peg test (β = 0.017) and Rivermead Assessment (β = 0.011) as additional, valuable long-term outcome measures. Recovery patterns and, thus, trial outcomes are dependent on the assessment implemented. Future research should include multiple common assessments and continue data collection for a full year after stroke to facilitate the consensus process on assessments measuring upper limb recovery., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Wolf, Gerloff and Backhaus.)

Published
2021
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21. Reduced frontal white matter microstructure in healthy older adults with low tactile recognition performance.

Author

Higgen FL, Braaß H, Backhaus W, Schulz R, Xue G, and Gerloff C

Subjects
Aged, Aged, 80 and over, Aging physiology, Brain diagnostic imaging, Cognition physiology, Corpus Callosum diagnostic imaging, Female, Humans, Male, Psychomotor Performance physiology, Neuroimaging methods, White Matter diagnostic imaging
Abstract

The aging of the nervous system is a heterogeneous process. It remains a significant challenge to identify relevant markers of pathological and healthy brain aging. A central aspect of aging are decreased sensory acuities, especially because they correlate with the decline in higher cognitive functioning. Sensory and higher cognitive processing relies on information flow between distant brain areas. Aging leads to disintegration of the underlying white matter tracts. While this disintegration is assumed to contribute to higher cognitive decline, data linking structural integrity and sensory function are sparse. The investigation of their interrelation may provide valuable insight into the mechanisms of brain aging. We used a combined behavioral and neuroimaging approach and investigated to what extent changes in microstructural white matter integrity reflect performance declines in tactile pattern recognition with aging. Poor performance in older participants was related to decreased integrity in the anterior corpus callosum. Probabilistic tractography showed that this structure is connected to the prefrontal cortices. Our data point to decreased integrity in the anterior corpus callosum as a marker for advanced brain aging. The correlation between impaired tactile recognition and disintegration in frontal brain networks could provide an explanation why the decrease of sensory function predicts cognitive decline.

Published
2021
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22. Early parietofrontal network upregulation relates to future persistent deficits after severe stroke-a prospective cohort study.

Author

Backhaus W, Braaß H, Higgen FL, Gerloff C, and Schulz R

Abstract

Recent brain imaging has evidenced that parietofrontal networks show alterations after stroke which also relate to motor recovery processes. There is converging evidence for an upregulation of parietofrontal coupling between parietal brain regions and frontal motor cortices. The majority of studies though have included only moderately to mildly affected patients, particularly in the subacute or chronic stage. Whether these network alterations will also be present in severely affected patients and early after stroke and whether such information can improve correlative models to infer motor recovery remains unclear. In this prospective cohort study, 19 severely affected first-ever stroke patients (mean age 74 years, 12 females) were analysed which underwent resting-state functional MRI and clinical testing during the initial week after the event. Clinical evaluation of neurological and motor impairment as well as global disability was repeated after three and six months. Nineteen healthy participants of similar age and gender were also recruited. MRI data were used to calculate functional connectivity values between the ipsilesional primary motor cortex, the ventral premotor cortex, the supplementary motor area and the anterior and caudal intraparietal sulcus of the ipsilesional hemisphere. Linear regression models were estimated to compare parietofrontal functional connectivity between stroke patients and healthy controls and to relate them to motor recovery. The main finding was a significant increase in ipsilesional parietofrontal coupling between anterior intraparietal sulcus and the primary motor cortex in severely affected stroke patients ( P  <   0.003). This upregulation significantly contributed to correlative models explaining variability in subsequent neurological and global disability as quantified by National Institute of Health Stroke Scale and modified Rankin Scale, respectively. Patients with increased parietofrontal coupling in the acute stage showed higher levels of persistent deficits in the late subacute stage of recovery ( P  <   0.05). This study provides novel insights that parietofrontal networks of the ipsilesional hemisphere undergo neuroplastic alteration already very early after severe motor stroke. The association between early parietofrontal upregulation and future levels of persistent functional deficits and dependence from help in daily living might be useful in models to enhance clinical neurorehabilitative decision making., (© The Author(s) (2021). Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published
2021
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23. The Influence of Cortico-Cerebellar Structural Connectivity on Cortical Excitability in Chronic Stroke.

Author

Guder S, Frey BM, Backhaus W, Braass H, Timmermann JE, Gerloff C, and Schulz R

Subjects
Aged, Aged, 80 and over, Cerebral Cortex physiopathology, Chronic Disease, Evoked Potentials, Motor, Female, Humans, Male, Middle Aged, Neural Pathways physiopathology, Transcranial Magnetic Stimulation, Cerebellum physiopathology, Cortical Excitability, Motor Cortex physiopathology, Pyramidal Tracts physiopathology, Stroke physiopathology
Abstract

Brain imaging has recently evidenced that the structural state of distinct reciprocal cortico-cerebellar fiber tracts, the dentato-thalamo-cortical tract (DTCT), and the cortico-ponto-cerebellar tract (CPCeT), significantly influences residual motor output in chronic stroke patients, independent from the level of damage to the corticospinal tract (CST). Whether such structural information might also directly relate to measures of cortical excitability is an open question. Eighteen chronic stroke patients with supratentorial ischemic lesions and 17 healthy controls underwent transcranial magnetic stimulation to assess recruitment curves of motor evoked potentials of both hemispheres. Diffusion-weighted imaging and probabilistic tractography were applied to reconstruct reciprocal cortico-cerebellar motor tracts between the primary motor cortex and the cerebellum. Tract-related microstructure was estimated by means of fractional anisotropy, and linear regression modeling was used to relate it to cortical excitability. The main finding was a significant association between cortical excitability and the structural integrity of the DTCT, the main cerebellar outflow tract, independent from the level of damage to the CST. A comparable relationship was neither detectable for the CPCeT nor for the healthy controls. This finding contributes to a mechanistic understanding of the putative supportive role of the cerebellum for residual motor output by facilitating cortical excitability after stroke., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permission@oup.com.)

Published
2020
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24. Can Daytime Napping Assist the Process of Skills Acquisition After Stroke?

Author

Backhaus W, Braass H, Gerloff C, and Hummel FC

Abstract

Acquisition and reacquisition of skills is a main pillar of functional recovery after stroke. Nighttime sleep has a positive influence on motor learning in healthy individuals, whereas the effect of daytime sleep on neuro-rehabilitative training and relearning of the trained skills is often neglected. The aim of this study was to investigate the relationship between daytime sleep (napping) and the ability to learn a new visuomotor task in chronic stroke patients. The main hypothesis was that sleep enhances motor memory consolidation after training resulting in better motor performance after a period of daytime sleep. Thirty stroke survivors completed the study. They were randomized to one of three different conditions (i) wakeful resting, (ii) short nap (10-20 min), or (iii) long nap (50-80 min). All individuals trained the task with the contralesional, stroke-impaired hand, behavioral evaluation was performed after the break time (wake, nap), and 24 h later. Patients demonstrated a significant task-related behavioral improvement throughout the training. In contrast to the main hypothesis, there was no evidence for sleep-dependent motor consolidation early after the initial, diurnal break, or after an additional full night of sleep. In a secondary analysis, the performance changes of stroke survivors were compared with those of a group of healthy older adults who performed the identical task within the same experimental setup with their non-dominant hand. Performance levels were comparable between both cohorts at all time points. Stroke-related difficulties in motor control did not impact on the degree of performance improvement through training and daytime sleep did not impact on the behavioral gains in the two groups. In summary, the current study indicates that one-time daytime sleep after motor training does not influence behavioral gains.

Published
2018
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25. Motor Performance Is not Enhanced by Daytime Naps in Older Adults.

Author

Backhaus W, Braass H, Renné T, Gerloff C, and Hummel FC

Abstract

The impact of sleep on motor learning in the aging brain was investigated using an experimental diurnal nap setup. As the brain ages several components of learning as well as motor performance change. In addition, aging is also related to sleep architectural changes. This combination of slowed learning processes and impaired sleep behavior raises the question of whether sleep can enhance learning and specifically performance of procedural tasks in healthy, older adults. Previous research was able to show sleep-dependent consolidation overnight for numerous tasks in young adults. Some of these study findings can also be replicated for older adults. This study aims to clarify whether sleep-dependent consolidation can also be found during shorter periods of diurnal sleep. The impact of midday naps on motor consolidation was analyzed by comparing procedural learning using a sequence and a motor adaptation task, in a crossover fashion in healthy, non-sleep deprived, older adults randomly subjected to wake (45 min), short nap (10-20 min sleep) or long nap (50-70 min sleep) conditions. Older adults exhibited learning gains, these were not found to be sleep-dependent in either task. The results suggest that daytime naps do not have an impact on performance and motor learning in an aging population.

Published
2016
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26. Daytime sleep has no effect on the time course of motor sequence and visuomotor adaptation learning.

Author

Backhaus W, Braaß H, Renné T, Krüger C, Gerloff C, and Hummel FC

Subjects
Adolescent, Adult, Female, Humans, Male, Young Adult, Adaptation, Physiological physiology, Learning physiology, Psychomotor Performance physiology, Sleep physiology
Abstract

Sleep has previously been claimed to be essential for the continued learning processes of declarative information as well as procedural learning. This study was conducted to examine the importance of sleep, especially the effects of midday naps, on motor sequence and visuomotor adaptation learning. Thirty-five (27 females) healthy, young adults aged between 18 and 30years of age participated in the current study. Addressing potential differences in explicit sequence and motor adaptation learning participants were asked to learn both, a nine-element explicit sequence and a motor adaptation task, in a crossover fashion on two consecutive days. Both tasks were performed with their non-dominant left hand. Prior to learning, each participant was randomized to one of three interventions; (1) power nap: 10-20min sleep, (2) long nap: 50-80min sleep or (3) a 45-min wake-condition. Performance of the motor learning task took place prior to and after a midday rest period, as well as after a night of sleep. Both sleep conditions were dominated by Stage N2 sleep with embedded sleep spindles, which have been described to be associated with enhancement of motor performance. Significant performance changes were observed in both tasks across all interventions (sleep and wake) confirming that learning took place. In the present setup, the magnitude of motor learning was not sleep-dependent in young adults - no differences between the intervention groups (short nap, long nap, no nap) could be found. The effect of the following night of sleep was not influenced by the previous midday rest or sleep period. This finding may be related to the selectiveness of the human brain enhancing especially memory being thought of as important in the future. Previous findings on motor learning enhancing effects of sleep, especially of daytime sleep, are challenged., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2016
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27. The effect of sleep on motor learning in the aging and stroke population - a systematic review.

Author

Backhaus W, Kempe S, and Hummel FC

Subjects
Aging physiology, Humans, Memory physiology, Stroke physiopathology, Aging psychology, Learning physiology, Psychomotor Performance physiology, Sleep physiology, Stroke psychology
Abstract

There is extensive evidence for positive effects of sleep on motor learning in young individuals; however, the effects of sleep on motor learning in people with stroke and in healthy older individuals are not well understood. The aim of this systematic review was to quantify the association between sleep and procedural memory performance - a marker for motor learning - in healthy older people and people with stroke. After searches in PubMed, Medline and Embase fourteen studies, including 44 subjects after stroke and 339 healthy older participants were included. Overall, sleep was found to enhance motor performance in people after stroke in comparison to an equivalent time of wakefulness. In addition, although evidence is limited, sleep only enhanced motor performance in people after stroke and not in age-matched healthy older adults. In older adults the effect of a sleep intervention did - in general - not differ from equivalent periods of wakefulness. Tasks with whole hand or whole body movements could show significant changes. The results suggest a delayed retention effect after longer breaks including sleep, hinting towards a changed learning strategy as a result of aging. Current evidence for sleep dependent learning in people after stroke is promising, however sparse.

Published
2016
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28. Differential effects of BDNF val(66)met in repetitive associative learning paradigms.

Author

Freundlieb N, Backhaus W, Brüggemann N, Gerloff C, Klein C, Pinnschmidt HO, and Hummel FC

Subjects
Adult, Aged, Auditory Perception physiology, Female, Humans, Male, Methionine, Middle Aged, Pattern Recognition, Visual physiology, Polymorphism, Single Nucleotide, Touch Perception physiology, Valine, Vocabulary, Young Adult, Association Learning physiology, Brain-Derived Neurotrophic Factor genetics, Practice, Psychological
Abstract

In healthy young subjects, the brain derived neurotropic factor (BDNF) val(66)met polymorphism negatively affects behavioural outcome in short-term motor cortex or hippocampus-based learning paradigms. In repetitive training paradigms over several days this effect can be overcome, in tests involving other brain areas even positive effects were found. To further specify the role of this polymorphism in cognitive processes, we used an associative vocabulary learning paradigm over four consecutive days and tested 38 young healthy subjects and 29 healthy elderly subjects. As a control paradigm, we designed a nonverbal haptic Braille letter-learning paradigm based on the same principles. Behavioural outcome was then associated with the BDNF-genotype. In the vocabulary learning task, met carrier (met/val and met/met) benefitted more from the repetitive training than val/val subjects. This was paralleled by a higher reduction of delayed answers during the course of the study, an effect that was also present in the haptic paradigm. However, in a group of healthy elderly subjects, no similar tendency was found. We conclude that the BDNF val(66)met polymorphism alters highly circumscribed answer behaviours in young healthy subjects. This might partly explain the high variability of previously published results., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
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29. A physiological model of dark-adapted and light-adapted photoreceptors of the honeybee.

Author

Becker K and Backhaus W

Subjects
Animals, Computer Simulation, Electric Conductivity, Feedback, Ion Channel Gating, Ion Channels physiology, Membrane Potentials physiology, Photic Stimulation, Probability, Time Factors, Vision, Ocular physiology, Adaptation, Physiological physiology, Bees physiology, Darkness, Light, Models, Biological, Photoreceptor Cells, Invertebrate physiology
Abstract

A physiological model of dark-adapted and light-adapted photoreceptors in the honeybee worker (Apis mellifera) has been developed. Almost all of the electrophysiological components of photoreceptors known up to date, e.g. the phototransduction cascade, the ion channels of the membrane, phototransduction gain and optical adaptation mechanisms, are adequately described by simple biophysical and biochemical models. The connections of these components were tried out in synthetic simulations for best fits of simulated to intracellularly recorded membrane potentials. Although the parameters of the best model were determined exclusively for the measured membrane potentials of dark-adapted photoreceptors, the model also accurately describes the light-adapted photoreceptor membrane potentials. Furthermore, the model correctly predicts the time-courses of measured photoreceptor responses with respect to squared-modulated flicker lights up to 200 Hz. This clearly demonstrates that the presented photoreceptor model is indeed a physiologically adequate description of the essential components of the phototransduction and the electrical membrane processes in the photoreceptors of the honeybee worker.

Published
2000
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30. The Bezold-Brücke effect in the color vision system of the honeybee.

Author

Backhaus W

Subjects
Animals, Behavior, Animal physiology, Discrimination, Psychological physiology, Light, Mathematics, Models, Neurological, Sensory Thresholds physiology, Spectrophotometry, Bees physiology, Color Perception physiology
Abstract

Evidence is presented that intensity dependent color shifts (Bezold-Brücke effect) occur in the color vision system of the honeybee. The evidence comes from a fit between the choices of monochromatic lights in training experiments (Menzel, R., 1981; Journal of Comparative Physiology A, 141, 389-393) and the choice percentages derived now from recently presented quantitative predictions from the color opponent coding (COC) model for the bee (Backhaus, W., 1991; Vision Research, 31, 1381-1397) for the Bezold-Brücke effect. The only open parameter in the simulations of the training experiments is an experiment type dependent factor describing the weighting of color differences (judgement values) in the choice behavior. The results show (1) that the Bezold-Brücke effect exists in the bee. The results (2) confirm the color opponent coding (COC) model which was developed to describe the physiological components of the color vision system in the bee, (3) the general psychophysical assumptions about the structure of the color space, (4) the color difference formula, and (5) the general psychophysical assumptions about the (triadic) structure of judgements as tested in color similarity experiments.

Published
1992
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31. Color vision in honeybees.

Author

Backhaus W

Subjects
Animals, Bees physiology, Color Perception physiology
Abstract

Theoretical and experimental investigations of the color vision system in honeybees are reviewed. Grassmann's model and receptor models of color vision are discussed with respect to the problem of color difference. A recent analysis of the bee's color opponent coding system is presented in brief. Predictions for the spectral sensitivity of color opponent coding neurons derived directly from the color opponent coding (COC) model and predictions for the Bezold-Brücke color shift and the spectral discrimination function derived from the model via color difference formula are presented. The predictions are compared with electrophysiological data and with choice proportions of behavioral experiments, respectively.

Published
1992
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32. Color opponent coding in the visual system of the honeybee.

Author

Backhaus W

Subjects
Animals, Discrimination, Psychological physiology, Light, Mathematics, Models, Neurological, Photoreceptor Cells physiology, Spectrophotometry, Bees physiology, Color Perception physiology
Abstract

A model is presented for the color vision system of the honeybee, which takes the nonlinear phototransduction process in the photoreceptors into account and assumes linear computations of the excitations of the photoreceptors. The model parameters are derived by a least squares fit of the scale values determined by multidimensional scaling analysis of the results of color choice experiments to the excitation values of two hypothetical spectral antagonistic coding cells. The psychophysical scale values are interpreted physiologically. Furthermore, a color difference formula is presented which is based on the color opponent coding (COC) model. The model explains quantitatively (1) the sensitivity of spectral antagonistic neurons measured by Kien and Menzel (1977; Journal of Comparative Physiology, 113, 17-34, 35-53), (2) the color discrimination function measured by von Helversen (1972; Journal of Comparative Physiology, 80, 439-472). The following predictions are derived from the model: (1) excitation/log (I) curves of the spectral antagonistic neurons; and from the model in conjunction with the color difference formula: (2) intensity dependent color shifts (Bezold-Brücke effect); (3) the intensity dependence of wavelength discrimination.

Published
1991
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33. [Not Available].

Author

Backhaus W

Subjects
Greece, Ancient, History, Ancient
Published
1976

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