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1. Hebbian plasticity induced by temporally coincident BCI enhances post-stroke motor recovery

Author

Johanna Krueger, Richard Krauth, Christoph Reichert, Serafeim Perdikis, Susanne Vogt, Tessa Huchtemann, Stefan Dürschmid, Almut Sickert, Juliane Lamprecht, Almir Huremovic, Michael Görtler, Slawomir J. Nasuto, I.-Chin Tsai, Robert T. Knight, Hermann Hinrichs, Hans-Jochen Heinze, Sabine Lindquist, Michael Sailer, Jose del R. Millán, and Catherine M. Sweeney-Reed

Subjects
Brain–computer interface, BCI, Functional electrical stimulation, FES, Acute stroke, Subacute stroke, Medicine, Science
Abstract

Abstract Functional electrical stimulation (FES) can support functional restoration of a paretic limb post-stroke. Hebbian plasticity depends on temporally coinciding pre- and post-synaptic activity. A tight temporal relationship between motor cortical (MC) activity associated with attempted movement and FES-generated visuo-proprioceptive feedback is hypothesized to enhance motor recovery. Using a brain–computer interface (BCI) to classify MC spectral power in electroencephalographic (EEG) signals to trigger FES-delivery with detection of movement attempts improved motor outcomes in chronic stroke patients. We hypothesized that heightened neural plasticity earlier post-stroke would further enhance corticomuscular functional connectivity and motor recovery. We compared subcortical non-dominant hemisphere stroke patients in BCI-FES and Random-FES (FES temporally independent of MC movement attempt detection) groups. The primary outcome measure was the Fugl-Meyer Assessment, Upper Extremity (FMA-UE). We recorded high-density EEG and transcranial magnetic stimulation-induced motor evoked potentials before and after treatment. The BCI group showed greater: FMA-UE improvement; motor evoked potential amplitude; beta oscillatory power and long-range temporal correlation reduction over contralateral MC; and corticomuscular coherence with contralateral MC. These changes are consistent with enhanced post-stroke motor improvement when movement is synchronized with MC activity reflecting attempted movement.

Published
2024
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2. Predictors for Adherence to Recommended Anticoagulation after Stroke Unit Discharge in Patients with Atrial Fibrillation

Author

Theresa Frank, Jens Neumann, Anne Assmann, Stefanie Schreiber, Aiden Haghikia, Maria Barleben, Michael Sailer, and Michael Goertler

Subjects
atrial fibrillation, anticoagulation, adherence, direct oral anticoagulant, stroke prevention, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Introduction: Non-adherence to recommended secondary preventive anticoagulation in stroke patients with atrial fibrillation (AF) is a common phenomenon, although the introduction of direct oral anticoagulants (DOACs) has simplified anticoagulation management for physicians as well as for patients. Methods: We examined the adherence of secondary preventive anticoagulation in AF patients after re-integration in their social environment 6–12 weeks after stroke unit and rehabilitation clinic treatment and analyzed for predictors for adherence and non-adherence. We conducted a telephone survey in consecutive patients treated between January 2013 and December 2021 at our institutional stroke unit with an acute cerebrovascular ischemic event, and we analyzed discharge letters of rehabilitation clinics of those patients not anticoagulated at follow-up. All patients had known or newly diagnosed AF, and in all, we had recommended secondary preventive anticoagulation. Results: Follow-up information about anticoagulant intake could be obtained in 1,348 of 1,685 patients (80.0%) treated within the study period. Anticoagulation rate was 91.5%, with 83.6% of patients receiving DOACs and 7.9% receiving vitamin K antagonists (VKAs). Adherence to recommended anticoagulation was associated with intake of the recommended anticoagulant already at discharge (adjusted odds ratio [OR], 18.357; confidence interval [CI], 9.637–34.969), recommendation of a specific DOAC and dose (in contrast to “DOAC” as drug category) (adjusted OR, 2.971; CI, 1.173–7.255), a lower modified Rankin Scale at discharge (per point; adjusted OR, 0.813; CI, 0.663–0.996), younger age (per year; OR, 0.951; CI, 0.926–0.976), and the absence of peripheral vascular disease (adjusted OR, 0.359; CI, 0.173–0.746). In patients already anticoagulated at discharge, adherence was 98.5%, irrespective of a patient’s age, functional deficit at discharge, and peripheral vascular disease. Avoidable obstacles for non-adherence in patients not on anticoagulants at stroke unit discharge were (1) non-implementation of recommended anticoagulation by rehabilitation physicians predominantly in patients with moderate-severe or severe stroke disability (2.1%), (2) delegation of anticoagulation start from rehabilitation physicians to general practitioners/resident radiologists (1.3%), and (3) rejection of recommended anticoagulation because of patients’ severe stroke disability (0.5%). Non-avoidable obstacles were contraindications to anticoagulation (2.1%) and patients’ refusal (0.7%). Conclusions: Commencing drug administration already during stroke unit hospitalization and providing an explanation for the selection of the recommended anticoagulant in discharge letters ensures high adherence at patients’ re-integration in their social environment after acute stroke treatment. If drug administration cannot be commenced before discharge, education of rehabilitation physicians by stroke physicians and the involvement of stroke physicians into the post-stroke decision process might hinder avoidable obstacles.

Published
2024
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3. Messung instrumenteller und kritisch-reflexiver Medienkompetenzen sowie medienbezogener Lehrkompetenzen von (angehenden) Lehrkräften

Author

Johanna Vejvoda, Matthias Stadler, Florian Schultz-Pernice, Julia Glas, Frank Fischer, and Michael Sailer

Subjects
Medienkompetenz, Messung, Szenarien-basierte Messung, Selbsteinschätzung, Medienbezogene Lehrkompetenz, Lehrkräfte, Special aspects of education, LC8-6691
Abstract

Medienbezogene Kompetenzen von Lehrkräften sind unabdingbar, um Schüler:innen auf Teilhabe, Partizipation und eine verantwortliche Mitgestaltung in einer Kultur der Digitalität vorzubereiten. Konkret benötigen Lehrkräfte hierzu medienbezogene Basis- und Lehrkompetenzen. Für die zielgerichtete und erfolgreiche Förderung dieser Kompetenzen im Rahmen der Lehrkräftebildung sind Instrumente zur Messung dieser Medienkompetenzen hilfreich. Bestehende Instrumente greifen allerdings zumeist auf einfache, nicht selten sehr allgemein formulierte Selbsteinschätzungen zurück. Dies erschwert eine valide Messung von Kompetenzen. In diesem Beitrag wird ein alternativer Messansatz vorgestellt, der Selbsteinschätzungen von Medienkompetenzen mittels Szenarien kontextualisiert und damit präzisiert. Die Szenarien-Basierung führt zu einem validen Messergebnis, hat aber für den Einsatz im Feld den Nachteil, dass die Messung deutlich umfangreicher ausfällt. Dem begegnen wir im vorliegenden Beitrag durch die Entwicklung einer Kurzskala in einem mehrstufigen Verfahren. Auf Basis eines Datensatzes von N = 552 (angehenden) Lehrkräften wird eine szenarienbasierte Kurzskala zur Messung instrumenteller und kritisch-reflexiver Medienkompetenzen sowie medienbezogener Lehrkompetenzen entwickelt. Diese Kurzskala wird in einer weiteren Studie mit N = 204 Lehrkräften nochmals validiert. Die Ergebnisse beider Studien unterstützen die Validität der Kurzskala. Für die Lehrkräftebildung und Forschung wird somit ein akzeptanzförderndes und ressourcenschonendes Instrument bereitgestellt, das eine reliable und valide Messung instrumenteller und kritisch-reflexiver Medienkompetenzen sowie medienbezogener Lehrkompetenzen erlaubt.

Published
2024
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4. Diagnostic argumentation in teacher education: Making the case for justification, disconfirmation, and transparency

Author

Elisabeth Bauer, Michael Sailer, Jan Kiesewetter, Martin R. Fischer, and Frank Fischer

Subjects
teacher education, diagnostic argumentation, scientific argumentation, diagnostic accuracy, diagnostic judgment, diagnostic knowledge, Education (General), L7-991
Abstract

Research on diagnosing in teacher education has primarily emphasized the accuracy of diagnostic judgments and has explained it in terms of factors such as diagnostic knowledge. However, approaches to scientific argumentation and information processing suggest differentiating between diagnostic judgment and diagnostic argumentation: When making accurate diagnostic judgments, the underlying reasoning can remain intuitive, whereas diagnostic argumentation requires controlled and explicable reasoning about a diagnostic problem to explain the reasoning in a comprehensible and persuasive manner. We suggest three facets of argumentation for conceptualizing diagnostic argumentation, which are yet to be addressed in teacher education research: justification of a diagnosis with evidence, disconfirmation of differential diagnoses, and transparency regarding the processes of evidence generation. Therefore, we explored whether preservice teachers’ diagnostic argumentation and diagnostic judgment might represent different diagnostic skills. We also explored whether justification, disconfirmation, and transparency should be considered distinct subskills of preservice teachers’ diagnostic argumentation. We reanalyzed data of 118 preservice teachers who learned about students’ learning difficulties with simulated cases. For each student case, the preservice teachers had to indicate a diagnostic judgment and provide a diagnostic argumentation. We found that preservice teachers’ diagnostic argumentation seldom involved all three facets, suggesting a need for more specific training. Moreover, the correlational results suggested that making accurate diagnostic judgments and formulating diagnostic argumentation may represent different diagnostic skills and that justification, disconfirmation, and transparency may be considered distinct subskills of diagnostic argumentation. The introduced concepts of justification, disconfirmation, and transparency may provide a starting point for developing standards in diagnostic argumentation in teacher education.

Published
2022
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5. Closing the loop – The human role in artificial intelligence for education

Author

Manuel Ninaus and Michael Sailer

Subjects
technology enhanced learning, artificial intelligence (AI), machine learning (ML), adaptivity, digital technologies, education, Psychology, BF1-990
Abstract

Recent advancements in artificial intelligence make its use in education more likely. In fact, existing learning systems already utilize it for supporting students’ learning or teachers’ judgments. In this perspective article, we want to elaborate on the role of humans in making decisions in the design and implementation process of artificial intelligence in education. Therefore, we propose that an artificial intelligence-supported system in education can be considered a closed-loop system, which includes the steps of (i) data recording, (ii) pattern detection, and (iii) adaptivity. Besides the design process, we also consider the crucial role of the users in terms of decisions in educational contexts: While some implementations of artificial intelligence might make decisions on their own, we specifically highlight the high potential of striving for hybrid solutions in which different users, namely learners or teachers, are provided with information from artificial intelligence transparently for their own decisions. In light of the non-perfect accuracy of decisions of both artificial intelligence-based systems and users, we argue for balancing the process of human- and AI-driven decisions and mutual monitoring of these decisions. Accordingly, the decision-making process can be improved by taking both sides into account. Further, we emphasize the importance of contextualizing decisions. Potential erroneous decisions by either machines or humans can have very different consequences. In conclusion, humans have a crucial role at many stages in the process of designing and using artificial intelligence for education.

Published
2022
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6. Implementing Remote Collaboration in a Virtual Patient Platform: Usability Study

Author

Jan Kiesewetter, Inga Hege, Michael Sailer, Elisabeth Bauer, Claudia Schulz, Manfred Platz, and Martin Adler

Subjects
Special aspects of education, LC8-6691, Medicine (General), R5-920
Abstract

BackgroundLearning with virtual patients is highly popular for fostering clinical reasoning in medical education. However, little learning with virtual patients is done collaboratively, despite the potential learning benefits of collaborative versus individual learning. ObjectiveThis paper describes the implementation of student collaboration in a virtual patient platform. Our aim was to allow pairs of students to communicate remotely with each other during virtual patient learning sessions. We hypothesized that we could provide a collaborative tool that did not impair the usability of the system compared to individual learning and that this would lead to better diagnostic accuracy for the pairs of students. MethodsImplementing the collaboration tool had five steps: (1) searching for a suitable software library, (2) implementing the application programming interface, (3) performing technical adaptations to ensure high-quality connections for the users, (4) designing and developing the user interface, and (5) testing the usability of the tool in 270 virtual patient sessions. We compared dyad to individual diagnostic accuracy and usability with the 10-item System Usability Scale. ResultsWe recruited 137 students who worked on 6 virtual patients. Out of 270 virtual patient sessions per group (45 dyads times 6 virtual patients, and 47 students working individually times 6 virtual patients minus 2 randomly selected deleted sessions) the students made successful diagnoses in 143/270 sessions (53%, SD 26%) when working alone and 192/270 sessions (71%, SD 20%) when collaborating (P=.04, η2=0.12). A usability questionnaire given to the students who used the collaboration tool showed a usability score of 82.16 (SD 1.31), representing a B+ grade. ConclusionsThe collaboration tool provides a generic approach for collaboration that can be used with most virtual patient systems. The collaboration tool helped students diagnose virtual patients and had good overall usability. More broadly, the collaboration tool will provide an array of new possibilities for researchers and medical educators alike to design courses for collaborative learning with virtual patients.

Published
2022
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7. Promoting Diagnostic Reasoning in Teacher Education: The Role of Case Format and Perceived Authenticity

Author

Sarah Bichler, Michael Sailer, Elisabeth Bauer, Jan Kiesewetter, Hanna Härtl, Martin R. Fischer, and Frank Fischer

Abstract

Teachers routinely observe and interpret student behavior to make judgements about whether and how to support their students' learning. Simulated cases can help pre-service teachers to gain this skill of diagnostic reasoning. With 118 pre-service teachers, we tested whether participants rate simulated cases presented in a serial-cue case format as more authentic and become more involved with the materials compared to cases presented in a whole case format. We further investigated whether participants with varying prior conceptual knowledge (what are symptoms of ADHD and dyslexia) gain more strategic knowledge (how to detect ADHD and dyslexia) with a serial-cue versus whole case format. We found that the case format did not impact authenticity ratings but that learners reported higher involvement in the serial-cue case format condition. Bayes factors provide moderate evidence for the absence of a case format effect on strategic knowledge and strong evidence for the absence of an interaction of case format and prior knowledge. We recommend using serial-cue case formats in simulations as they are a more authentic representation of the diagnostic reasoning process and cognitively involve learners. We call for replications to gather more evidence for the impact of case format on knowledge acquisition. We suggest a further inquiry into the relationship of case format, involvement, and authenticity but think that a productive way forward for designing authentic simulations is attention to aspects that make serial-cue cases effective for diverse learners. For example, adaptive feedback or targeted practice of specific parts of diagnostic reasoning such as weighing evidence.

Published
2024
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8. German hospital capacities for prolonged mechanical ventilator weaning in neurorehabilitation – results of a representative survey

Author

Thomas Platz, Andreas Bender, Christian Dohle, Anna Gorsler, Stefan Knecht, Joachim Liepert, Thomas Mokrusch, and Michael Sailer

Subjects
Neurorehabilitation, Weaning, Neuro-disabilities, Hospital capacity, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract A brief survey among members of the German Neurorehabilitation Society aimed to document the hospital capacities (“beds”) for prolonged weaning from a mechanical ventilator for patients with neuro-disabilities that require simultaneous multi-professional neurorehabilitation treatment. Sixty-eight institutions declared to have capacities with a broad distribution across Germany and its federal states. Overall, 1094 “beds” for prolonged weaning (and neurorehabilitation) were reported, 871 together with further information regarding their identification and hence regional location. These units had on average 16.1 beds for prolonged weaning (95% confidence interval 12.6 to 19.6) with a range from 2 to 68 beds per organization. The data indicate substantial capacities for the combined prolonged weaning and neurorehabilitation treatment in Germany. For most “beds” included in this analysis a basic validation was possible. While a reasonable coverage of these specialized service capacities by the survey is likely, the number reported could still be biased by underreporting by non-response. Both the broad variation of number of “beds” for prolonged weaning per unit and their unequal geographical distribution across federal states (per capita rate) warrant a more refined follow-up survey that will provide insights into reasons for the observed pattern of variation for these specialized hospital capacities.

Published
2020
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9. Learning clinical reasoning: how virtual patient case format and prior knowledge interact

Author

Jan Kiesewetter, Michael Sailer, Valentina M. Jung, Regina Schönberger, Elisabeth Bauer, Jan M. Zottmann, Inga Hege, Hanna Zimmermann, Frank Fischer, and Martin R. Fischer

Subjects
Instructional materials/methods, Clinical reasoning, Virtual patients, Case formats, Special aspects of education, LC8-6691, Medicine
Abstract

Abstract Introduction Clinical reasoning has been fostered with varying case formats including the use of virtual patients. Existing literature points to different conclusions regarding which format is most beneficial for learners with diverse levels of prior knowledge. We designed our study to better understand which case format affects clinical reasoning outcomes and cognitive load, dependent on medical students’ prior knowledge. Methods Overall, 142 medical students (3 rd to 6 th year) were randomly assigned to either a whole case or serial cue case format. Participants worked on eight virtual patients in their respective case format. Outcomes included diagnostic accuracy, knowledge, and cognitive load. Results We found no effect of case format on strategic knowledge scores pre- vs post-test (whole case learning gain = 3, 95% CI. -.01 to .01, serial cue learning gain = 3, 95% CI. -.06 to .00 p = .50). In both case formats, students with high baseline knowledge (determined by median split on the pre-test in conceptual knowledge) benefitted from learning with virtual patients (learning gain in strategic knowledge = 5, 95% CI .03 to .09, p = .01) while students with low prior knowledge did not (learning gain = 0, 95%CI −.02 to .02). We found no difference in diagnostic accuracy between experimental conditions (difference = .44, 95% CI −.96 to .08, p = .22), but diagnostic accuracy was higher for students with high prior knowledge compared to those with low prior knowledge (difference = .8, 95% CI 0.31 to 1.35, p

Published
2020
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10. Ich packe meinen Koffer: Unterlagen und Performanz bei Open-Book-Klausuren

Author

Sandra Niedermeier, Michael Sailer, Lukas Remböck, and Matthias Stadler

Subjects
Education
Abstract

Die Nachfrage nach zukunftsgewandten, problemlösungsorientierten Prüfungsformaten für die Hochschullehre stieg nicht zuletzt aufgrund der COVID-19-Pandemie. Open-Book-Prüfungen, bei denen Unterlagen mitgebracht werden, werden seit Langem als alternatives Prüfungsformat vorgeschlagen. Der vorliegende Beitrag beleuchtet in einer Studie mit 113 Teilnehmenden, ob die Menge und Art mitgebrachter Unterlagen einen Einfluss auf die Performanz in Multiple-Choice-Fragen zu konzeptuellem und prozeduralem Wissen aufweisen. Einen signifikanten, positiven Zusammenhang in Bezug auf die Performanz in beiden Wissensformen wies die Menge an mitgebrachten kommentierten Vorlesungsfolien auf. Diese Befunde werden in Bezug zur ICAP-Theorie gesetzt, die zugrundeliegende Lernaktivitäten beleuchtet.

Published
2022
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11. The online inverted classroom model (oICM). A blueprint to adapt the inverted classroom to an online learning setting in medical and health education

Author

Daniel Tolks, Bernd FM Romeike, Jan Ehlers, Sebastian Kuhn, Christin Kleinsorgen, Johanna Huber, Martin R Fischer, Christoph Bohne, Luisa Merz, Michael Sailer, and Inga Hege

Subjects
inverted classroom, flipped classroom, oICM, medical education, health education, digital teaching, synchronous online teaching, Special aspects of education, LC8-6691, Medicine
Abstract

The idea of this paper is to offer a blueprint, to guide educators setting up a complete digital teaching scenario according to the latest insights of educational research. The COVID-19 pandemic forced higher education institutions all around the world to radically shift their curricula from a mix of face-to-face and remote teaching methods to a fully remote curriculum. Though challenging, this time provides opportunities to implement new educational methods and to improve the quality of digital teaching. The concept of the inverted classroom was modified to meet the special needs of the new online settings. The proposed online Inverted Classroom Model (oICM) includes the following phases: (1) pre-phase, (2) self-learning-phase, (3) synchronous online phase, (4) transfer-phase, and (5) evaluation. Recommendations and potential tools are provided for each phase. The oICM is an innovative and easy to use approach to shape digital teaching and learning processes during and after the COVID-19 pandemic. This blueprint is developed by the committee “Digitalization” of the German Association for Medical Education (GMA), mainly for educators who are familiar with the Inverted Classroom Model (ICM) or similar blended learning formats.

Published
2021

12. Diagnostic Activities and Diagnostic Practices in Medical Education and Teacher Education: An Interdisciplinary Comparison

Author

Elisabeth Bauer, Frank Fischer, Jan Kiesewetter, David Williamson Shaffer, Martin R. Fischer, Jan M. Zottmann, and Michael Sailer

Subjects
diagnostic activities, diagnostic practices, medical education, teacher education, interdisciplinary research, Psychology, BF1-990
Abstract

In this article, we investigate diagnostic activities and diagnostic practices in medical education and teacher education. Previous studies have tended to focus on comparing knowledge between disciplines, but such an approach is complicated due to the content specificity of knowledge. We compared 142 learners from medical education and 122 learners from teacher education who were asked to (a) diagnose eight simulated cases from their respective discipline in a simulation-based learning environment and (b) write a justificatory report for each simulated case. We coded all justificatory reports regarding four diagnostic activities: generating hypotheses, generating evidence, evaluating evidence, and drawing conclusions. Moreover, using the method of Epistemic Network Analysis, we operationalized diagnostic practices as the relative frequencies of co-occurring diagnostic activities. We found significant differences between learners from medical education and teacher education with respect to both their diagnostic activities and diagnostic practices. Learners from medical education put relatively more emphasis on generating hypotheses and drawing conclusions, therefore applying a more hypothesis-driven approach. By contrast, learners in teacher education had a stronger focus on generating and evaluating evidence, indicating a more data-driven approach. The results may be explained by different epistemic ideals and standards taught in higher education. Further research on the issue of epistemic ideals and standards in diagnosing is needed. Moreover, we recommend that educators think beyond individuals’ knowledge and implement measures to systematically teach and increase the awareness of disciplinary standards.

Published
2020
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13. Cortico-Muscular Coherence Is Reduced Acutely Post-stroke and Increases Bilaterally During Motor Recovery: A Pilot Study

Author

Richard Krauth, Johanna Schwertner, Susanne Vogt, Sabine Lindquist, Michael Sailer, Almut Sickert, Juliane Lamprecht, Serafeim Perdikis, Tiffany Corbet, José del R. Millán, Hermann Hinrichs, Hans-Jochen Heinze, and Catherine M. Sweeney-Reed

Subjects
cortico-muscular coherence, EEG, EMG, stroke, rehabilitation, wrist, Neurology. Diseases of the nervous system, RC346-429
Abstract

Motor recovery following stroke is believed to necessitate alteration in functional connectivity between cortex and muscle. Cortico-muscular coherence has been proposed as a potential biomarker for post-stroke motor deficits, enabling a quantification of recovery, as well as potentially indicating the regions of cortex involved in recovery of function. We recorded simultaneous EEG and EMG during wrist extension from healthy participants and patients following ischaemic stroke, evaluating function at three time points post-stroke. EEG–EMG coherence increased over time, as wrist mobility recovered clinically, and by the final evaluation, coherence was higher in the patient group than in the healthy controls. Moreover, the cortical distribution differed between the groups, with coherence involving larger and more bilaterally scattered areas of cortex in the patients than in the healthy participants. The findings suggest that EEG–EMG coherence has the potential to serve as a biomarker for motor recovery and to provide information about the cortical regions that should be targeted in rehabilitation therapies based on real-time EEG.

Published
2019
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14. Leveraging the Potential of Large Language Models in Education through Playful and Game-Based Learning

Author

Stefan E. Huber, Kristian Kiili, Steve Nebel, Richard M. Ryan, Michael Sailer, and Manuel Ninaus

Abstract

This perspective piece explores the transformative potential and associated challenges of large language models (LLMs) in education and how those challenges might be addressed utilizing playful and game-based learning. While providing many opportunities, the stochastic elements incorporated in how present LLMs process text, requires domain expertise for a critical evaluation and responsible use of the generated output. Yet, due to their low opportunity cost, LLMs in education may pose some risk of over-reliance, potentially and unintendedly limiting the development of such expertise. Education is thus faced with the challenge of preserving reliable expertise development while not losing out on emergent opportunities. To address this challenge, we first propose a playful approach focusing on skill practice and human judgment. Drawing from game-based learning research, we then go beyond this playful account by reflecting on the potential of well-designed games to foster a willingness to practice, and thus nurturing domain-specific expertise. We finally give some perspective on how a new pedagogy of learning with AI might utilize LLMs for learning by generating games and gamifying learning materials, leveraging the full potential of human-AI interaction in education.

Published
2024
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15. Inter-Session Reliability of Functional Near-Infrared Spectroscopy at the Prefrontal Cortex While Walking in Multiple Sclerosis

Author

Kim-Charline Broscheid, Dennis Hamacher, Juliane Lamprecht, Michael Sailer, and Lutz Schega

Subjects
MS, hemodynamic response, fNIRS, test–retest reliability, cortical activity, PFC, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Many established technologies are limited in analyzing the executive functions in motion, especially while walking. Functional near-infrared spectroscopy (fNIRS) fills this gap. The aim of the study is to investigate the inter-session reliability (ISR) of fNIRS-derived parameters at the prefrontal cortex while walking in people with multiple sclerosis (MS) and healthy control (HC) individuals. Twenty people with MS/HC individuals walked a 12 m track back and forth over 6 min. The primary outcomes were the absolute and relative reliability of the mean, slope coefficient (SC), and area under the curve (A) of the oxy-/deoxyhemoglobin concentrations (HbO/HbR) in the Brodmann areas (BA) 9/46/10. The SC and the A of HbO exhibited a fair ISR in BA10 in people with MS. For the mean and A of the HbR, almost all areas observed revealed a fair ISR. Overall, the ISR was better for HbR than HbO. A fair to excellent ISR was found for most BA of the prefrontal cortex in HC individuals. In total, the ISR of the analyzed fNIRS-derived parameters was limited. To improve the ISR, confounders such as fatigue and mind wandering should be minimized. When reporting the ISR, the focus should be on the mean/A rather than SC.

Published
2020
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16. Gait Event Detection for Stroke Patients during Robot-Assisted Gait Training

Author

Andreas Schicketmueller, Juliane Lamprecht, Marc Hofmann, Michael Sailer, and Georg Rose

Subjects
stroke, inertial measurement unit (IMU), functional electrical stimulation (FES), gait event detection, hybrid robotic rehabilitation system, Chemical technology, TP1-1185
Abstract

Functional electrical stimulation and robot-assisted gait training are techniques which are used in a clinical routine to enhance the rehabilitation process of stroke patients. By combining these technologies, therapy effects could be further improved and the rehabilitation process can be supported. In order to combine these technologies, a novel algorithm was developed, which aims to extract gait events based on movement data recorded with inertial measurement units. In perspective, the extracted gait events can be used to trigger functional electrical stimulation during robot-assisted gait training. This approach offers the possibility of equipping a broad range of potential robot-assisted gait trainers with functional electrical stimulation. In particular, the aim of this study was to test the robustness of the previously developed algorithm in a clinical setting with patients who suffered a stroke. A total amount of N = 10 stroke patients participated in the study, with written consent. The patients were assigned to two different robot-assisted gait trainers (Lyra and Lokomat) according to their performance level, resulting in five recording sessions for each gait-trainer. A previously developed algorithm was applied and further optimized in order to extract the gait events. A mean detection rate across all patients of 95.8% ± 7.5% for the Lyra and 98.7% ± 2.6% for the Lokomat was achieved. The mean type 1 error across all patients was 1.0% ± 2.0% for the Lyra and 0.9% ± 2.3% for the Lokomat. As a result, the developed algorithm was robust against patient specific movements, and provided promising results for the further development of a technique that can detect gait events during robot-assisted gait training, with the future aim to trigger functional electrical stimulation.

Published
2020
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17. Psychological Perspectives on Motivation through Gamification

Author

Michael Sailer, Jan Hense, Heinz Mandl, and Markus Klevers

Subjects
gamification, motivation, game elements, psychological perspectives, motivational mechanisms, Information technology, T58.5-58.64
Abstract

Gamification is an innovative approach to foster motivation. It refers to the use of game elements in non-game contexts. This article adopts a differentiated view on the topic of gamification and investigates, how and why different game elements can address different motivational mechanisms. At first, the concept of gamification and specific game elements characteristic of gamification are described. After that, different motivational perspectives were analyzed and motivational mechanisms in form of effect hypotheses were derived from these perspectives. To investigate the motivational pull of gamification, game elements are matched with motivational mechanisms. Our theoretical inquiry shows that gamification potentially addresses motivational mechanisms and thereby fosters motivation. These theoretical results can be used for the effective design of gamification environments and represent a basis for empirical research. Further research is required to confirm these theoretical findings.

Published
2014

18. ONYA—The Wellbeing Game: How to Use Gamification to Promote Wellbeing

Author

Daniel Tolks, Michael Sailer, Kevin Dadaczynski, Claudia Lampert, Julia Huberty, Peter Paulus, and David Horstmann

Subjects
gamification, wellbeing, wellbeing game, self-determination theory, mental health, health, e-health, Information technology, T58.5-58.64
Abstract

The Wellbeing Game uses game design elements to promote wellbeing. Players document their daily activities in the game and categorize them to one or more of five wellbeing-related factors. The users join teams and can create team events to work together and improve their wellbeing status. The present study aims to review the application and the theoretical base of ‘The Wellbeing Game’, to adapt it to the German context, and to evaluate its health effects in different settings. Additional aims are to analyze the current state of research regarding the links between health, wellbeing, and gamification and to identify crucial game design elements that have to be implemented in the application in order to address the needs of competence, autonomy, and social relatedness according to the self-determination theory.

Published
2019
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20. Treatment de-escalation after mitoxantrone therapy: results of a phase IV, multicentre, open-label, randomized study of subcutaneous interferon beta-1a in patients with relapsing multiple sclerosis

Author

Peter Rieckmann, Fedor Heidenreich, Michael Sailer, Uwe K. Zettl, Norbert Zessack, Hans-Peter Hartung, and Ralf Gold

Subjects
Neurology. Diseases of the nervous system, RC346-429
Abstract

Objective : The objective of this study was to assess the effect of treatment with interferon (IFN) β-1a, 44 µg subcutaneously (sc) three times weekly (tiw), on clinical and magnetic resonance imaging (MRI) outcomes in patients with relapsing multiple sclerosis (MS) following mitoxantrone therapy. Methods : This was an open-label, randomized, multicentre, rater-blinded, 96-week observational study conducted in Germany. Clinically stable patients with relapsing forms of MS, who had discontinued mitoxantrone treatment 1–6 months before study entry, were randomized to IFN β-1a sc 44 µg tiw, or no treatment. The primary endpoint was time to first relapse. Secondary endpoints included the number of relapse-free patients, disease activity assessed by MRI and time to 3-month confirmed Expanded Disability Status Scale (EDSS) progression, all at week 96. Results : A total of 30 patients were randomized (intent-to-treat population: 14 IFN β-1a, 15 untreated; one patient from the safety population discontinued the study after 25 days owing to an adverse event and without providing any postbaseline efficacy data, and was thus excluded from the intent-to-treat population). Overall, 71.4% (10/14) of patients in the IFN β-1a group remained relapse free over 96 weeks, versus 46.7% (7/15) in the untreated group ( p = 0.26). IFN β-1a delayed the time to first relapse versus no treatment ( p = 0.14); time to first relapse (25th percentile) was 95.4 (IFN β-1a) versus 46.0 weeks (no treatment). Confirmed EDSS progression was observed in five patients in each treatment group. Mean change in EDSS score was 0.3 in both groups ( p = 0.79). Changes in the number or volume of T1 and T2 lesions at week 96 were not significantly different between treatment groups ( p > 0.05). There were no new or unexpected adverse events related to IFN β-1a treatment. Conclusions : Several endpoints appeared to show a benefit of IFN β-1a treatment, but no significant differences could be detected owing to the small sample. Therefore, these data only permit, at best, tentative conclusions about the disease course in patients with MS after de-escalation from mitoxantrone and continuation with or without IFN β-1a. Larger confirmatory studies are required.

Published
2012
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21. Context-Specificity to Reduce Bias in Self-Assessments: Comparing Teachers' Scenario-Based Self-Assessment and Objective Assessment of Technological Knowledge

Author

Tamara Kastorff, Michael Sailer, Johanna Vejvoda, Florian Schultz-Pernice, Valentin Hartmann, Anna Hertl, Sonja Berger, and Karsten Stegmann

Abstract

Previous research has focused on self-assessments rather than objective assessments for assessing teachers' technological knowledge (TK). Notwithstanding, empirical studies have failed to show stable relationships between self-assessments and objective assessments. In this study, we investigate the extent to which scenario-based self-assessments of (student) teachers' (N = 75) TK can serve as anchors by helping them to identify the relevant skills that are required in concrete and authentic situations and might be therefore effective to bring the results of objective and subjective measures closer together using a path analytical model. Overall, the results suggest that scenario-based self-assessment is promising for the approximation of the results of objective assessment measures, especially for operational technical skills.

Published
2023
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24. Functional electrical stimulation driven by a brain-computer interface in acute and subacute stroke patients impacts beta power and long-range temporal correlation.

Author

Johanna Krueger, Richard Krauth, Christoph Reichert, Serafeim Perdikis, Susanne Vogt, Tessa Huchtemann, Stefan Dürschmid, Almut Sickert, Juliane Lamprecht, Almir Huremovic, Michael Görtler, Slawomir J. Nasuto, Robert T. Knight, Hermann Hinrichs, Hans-Jochen Heinze, Sabine Lindquist, Michael Sailer, José del R. Millán, and Catherine M. Sweeney-Reed

Published
2022
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37. Prince: Die Biografie

Author

Matt Thorne, Michael Sailer, Daniela Papenberg, Martina Walter

Published
2017

41. ChatGPT for Good? On Opportunities and Challenges of Large Language Models for Education

Author

Enkelejda Kasneci, Kathrin Seßler, Stefan Küchemann, Maria Bannert, Daryna Dementieva, Frank Fischer, Urs Gasser, Georg Groh, Stephan Günnemann, Eyke Hüllermeier, Stephan Krusche, Gitta Kutyniok, Tilman Michaeli, Claudia Nerdel, Jürgen Pfeffer, Oleksandra Poquet, Michael Sailer, Albrecht Schmidt, Tina Seidel, Matthias Stadler, Jochen Weller, Jochen Kuhn, and Gjergji Kasneci

Subjects
Social Psychology, Developmental and Educational Psychology, Education
Abstract

Large language models represent a significant advancement in the field of AI. The underlying technology is key to further innovations and, despite critical views and even bans within communities and regions, large language models are here to stay. This position paper presents the potential benefits and challenges of educational applications of large language models, from student and teacher perspectives. We briefly discuss the current state of large language models and their applications. We then highlight how these models can be used to create educational content, improve student engagement and interaction, and personalize learning experiences. With regard to challenges, we argue that large language models in education require teachers and learners to develop sets of competencies and literacies necessary to both understand the technology as well as their limitations and unexpected brittleness of such systems. In addition, a clear strategy within educational systems and a clear pedagogical approach with a strong focus on critical thinking and strategies for fact checking are required to integrate and take full advantage of large language models in learning settings and teaching curricula. Other challenges such as the potential bias in the output, the need for continuous human oversight, and the potential for misuse are not unique to the application of AI in education. But we believe that, if handled sensibly, these challenges can offer insights and opportunities in education scenarios to acquaint students early on with potential societal biases, criticalities, and risks of AI applications. We conclude with recommendations for how to address these challenges and ensure that such models are used in a responsible and ethical manner in education.

Published
2023
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45. Zwischen Mensch und Maschine: Künstliche Intelligenz zur Förderung von Lernprozessen

Author

Manuel Ninaus and Michael Sailer

Subjects
Pharmaceutical Science
Abstract

Zusammenfassung. Hintergrund: Die Rolle und der Einsatz von künstlicher Intelligenz (KI) und Machine Learning im Lernkontext wird seit der Digitalisierungsoffensive stark diskutiert. KI-basierte Werkzeuge bieten vielversprechende Möglichkeiten, um Lernprozesse besser zu verstehen und im weiteren Fortgang zu optimieren. Der Zuwachs an Daten und Metriken, die durch neue Sensoren und digitale Lernumgebungen zur Verfügung gestellt werden, ermöglicht den Einsatz von KI und Machine Learning. Solche Methoden bieten sich insbesondere an, wenn die menschliche Informationsverarbeitung nicht in der Lage ist, die komplexen und multimodalen Daten effizient und zeitnah zu verarbeiten sowie notwendige Schlüsse daraus zu ziehen. Methode: Für den aktuellen Artikel wurde eine selektive Literaturrecherche betrieben, um die unterschiedlichen Schritte bei KI-gestützten Lernsystemen genauer zu beleuchten. Diskussion: Es lassen sich drei zentrale Schritte im Prozess des KI-gestützten Lernens identifizieren: (i) Datenaufzeichnung, (ii) Mustererkennung und (iii) Adaptivität in digitalen Lernumgebungen. Der Mensch spielt in KI-gestützten Lernsystemen eine entscheidende und nicht durch die „Maschine“ zu ersetzende Rolle, die im aktuellen Artikel genauer erläutert wird. Zudem werden weitere wichtige Aspekte für die Umsetzung von KI-gestützten Lernsystemen wie die Notwendigkeit interdisziplinärer Zusammenarbeit, Theoriearbeit und der Schließung von Forschungslücken perspektivisch diskutiert und elaboriert.

Published
2022
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46. Non-invasive electrical brain stimulation for vision restoration after stroke: An exploratory randomized trial (REVIS)

Author

Carolin Borrmann, Ariel Schoenfeld, Bernhard A. Sabel, Lizbeth Cárdenas-Morales, Katri Silvennoinen, Paolo Maria Rossini, Giuseppe Granata, Michael Sailer, Andrea Antal, Juha M. Holopainen, Silja Räty, Francesca de Rossi, Turgut Tatlisumak, HUS Neurocenter, Neurologian yksikkö, University of Helsinki, HUS Head and Neck Center, and Silmäklinikka

Subjects
030506 rehabilitation, genetic structures, business.operation, medicine.medical_treatment, Transcranial Direct Current Stimulation, 3124 Neurology and psychiatry, law.invention, ALTERNATING-CURRENT STIMULATION, 0302 clinical medicine, Randomized controlled trial, law, PLASTICITY, occipital stroke, Stroke, Transcranial direct-current stimulation, Stroke Rehabilitation, Brain, RECOVERY, Visual field, VISUAL FUNCTION, medicine.anatomical_structure, Neurology, Optic nerve, SENSITIVITY, 0305 other medical science, Transorbital, Electrical brain stimulation, Research Article, medicine.medical_specialty, rehabilitation, 03 medical and health sciences, Physical medicine and rehabilitation, Developmental Neuroscience, medicine, Humans, HEMIANOPIA, FIELD, Vision, Ocular, business.industry, 3112 Neurosciences, medicine.disease, eye diseases, Visual cortex, Electrical stimulation, randomized controlled trial, Hemianopsia, homonymous hemianopia, vision restoration, Neurology (clinical), business, 030217 neurology & neurosurgery
Abstract

Background: Occipital strokes often cause permanent homonymous hemianopia leading to significant disability. In previous studies, non-invasive electrical brain stimulation (NIBS) has improved vision after optic nerve damage and in combination with training after stroke. Objective: We explored different NIBS modalities for rehabilitation of hemianopia after chronic stroke. Methods: In a randomized, double-blinded, sham-controlled, three-armed trial, altogether 56 patients with homonymous hemianopia were recruited. The three experiments were: i) repetitive transorbital alternating current stimulation (rtACS, n = 8) vs. rtACS with prior cathodal transcranial direct current stimulation over the intact visual cortex (tDCS/rtACS, n = 8) vs. sham (n = 8); ii) rtACS (n = 9) vs. sham (n = 9); and iii) tDCS of the visual cortex (n = 7) vs. sham (n = 7). Visual functions were evaluated before and after the intervention, and after eight weeks follow-up. The primary outcome was change in visual field assessed by high-resolution and standard perimetries. The individual modalities were compared within each experimental arm. Results: Primary outcomes in Experiments 1 and 2 were negative. Only significant between-group change was observed in Experiment 3, where tDCS increased visual field of the contralesional eye compared to sham. tDCS/rtACS improved dynamic vision, reading, and visual field of the contralesional eye, but was not superior to other groups. rtACS alone increased foveal sensitivity, but was otherwise ineffective. All trial-related procedures were tolerated well. Conclusions: This exploratory trial showed safety but no main effect of NIBS on vision restoration after stroke. However, tDCS and combined tDCS/rtACS induced improvements in visually guided performance that need to be confirmed in larger-sample trials. NCT01418820 (clinicaltrials.gov)

Published
2021
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47. The right amount of pressure: Implementing time pressure in online exams

Author

Matthias Stadler, Nicola Kolb, and Michael Sailer

Subjects
Medical education, 2019-20 coronavirus outbreak, ComputingMilieux_THECOMPUTINGPROFESSION, Coronavirus disease 2019 (COVID-19), Computer science, Cheating, 05 social sciences, Distance education, Educational technology, 050301 education, 050801 communication & media studies, Time pressure, Education, 0508 media and communications, Pandemic, ComputingMilieux_COMPUTERSANDEDUCATION, Online teaching, 0503 education
Abstract

To slow the spread of COVID-19, many universities have had to move to online teaching, which entails changing exams from in-person to online. Online exams can facilitate cheating when there is no d...

Published
2021
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48. Science knowledge and trust in medicine affect individuals’ behavior in pandemic crises

Author

Frank Fischer, Samuel Greiff, Matthias Stadler, Elouise Botes, and Michael Sailer

Subjects
medicine.medical_specialty, Affect (psychology), Science knowledge, Article, Education, Compliance (psychology), 03 medical and health sciences, 0302 clinical medicine, Trust in medicine, Pandemic, Developmental and Educational Psychology, medicine, Individuals' behavior, 030212 general & internal medicine, business.industry, SARS-CoV-2, Social distance, Public health, 05 social sciences, 050301 education, Educational psychology, Panic, COVID-19, Public relations, Coronavirus, Infectious disease (medical specialty), medicine.symptom, business, Psychology, 0503 education
Abstract

In pandemic crises such as the COVID-19 pandemic, individuals’ behavior has a strong impact on epidemiological processes. Compliance with prevention guidelines, such as social distancing, is critical to avoid further spreading an infectious disease or to slow down its spread. However, some individuals also or instead engage in panic behavior, such as hoarding. We investigate how education prepares individuals to respond adequately by modelling the path from seeking information about COVID-19 to eventual behavior. Based on a sample of N = 1182 adult Americans, gathered at the pandemic’s onset (March 2020), we conclude that science knowledge helps individuals convert information into coronavirus knowledge. This knowledge then helps individuals avoid panic behavior. Individuals lacking coronavirus knowledge and science knowledge still comply with prevention guidelines when they have a general trust in medicine. Individuals lacking knowledge still follow prevention guidelines when they trust in medicine. Facilitating science knowledge and trust in science through education and targeted public health messaging are likely to be of fundamental importance for bringing crises such as the COVID-19 pandemic under control.

Published
2021

50. Representational scaffolding in digital simulations – learning professional practices in higher education

Author

Frank Fischer, Elisabeth Bauer, Tina Seidel, Ralf Schmidmaier, Anika Radkowitsch, Birgit Neuhaus, Sarah Hofer, Daniel Sommerhoff, Stefan Ufer, Jochen Kuhn, Stefan Küchemann, Michael Sailer, Jenna Koenen, Martin Gartmeier, Pascal Berberat, Anne C. Frenzel, Nicole Heitzmann, Doris Holzberger, Jürgen Pfeffer, Doris Lewalter, Frank Niklas, Bernhard Schmidt-Hertha, Mario Gollwitzer, Andreas Vorholzer, Olga Chernikova, Christian Schons, Amadeus J. Pickal, Maria Bannert, Tilman Michaeli, Matthias Stadler, and Martin R. Fischer

Subjects
Library and Information Sciences, Computer Science Applications, Education
Abstract

Purpose To advance the learning of professional practices in teacher education and medical education, this conceptual paper aims to introduce the idea of representational scaffolding for digital simulations in higher education. Design/methodology/approach This study outlines the ideas of core practices in two important fields of higher education, namely, teacher and medical education. To facilitate future professionals’ learning of relevant practices, using digital simulations for the approximation of practice offers multiple options for selecting and adjusting representations of practice situations. Adjusting the demands of the learning task in simulations by selecting and modifying representations of practice to match relevant learner characteristics can be characterized as representational scaffolding. Building on research on problem-solving and scientific reasoning, this article identifies leverage points for employing representational scaffolding. Findings The four suggested sets of representational scaffolds that target relevant features of practice situations in simulations are: informational complexity, typicality, required agency and situation dynamics. Representational scaffolds might be implemented in a strategy for approximating practice that involves the media design, sequencing and adaptation of representational scaffolding. Originality/value The outlined conceptualization of representational scaffolding can systematize the design and adaptation of digital simulations in higher education and might contribute to the advancement of future professionals’ learning to further engage in professional practices. This conceptual paper offers a necessary foundation and terminology for approaching related future research.

Published
2022
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