Scale-IT-up 2022 Abstracts

Area 1 - Scale-IT-up

Full Papers

Paper Nr:	1
Title:	Human Energy Diary Studies with Personalized Feedback: A Proof of Concept with formr
Authors:	Fabienne Lambusch, Henning D. Richter, Michael Fellmann, Oliver Weigelt and Ann-Kathrin Kiechle
Abstract:	While the current pandemic amplifies the trend of highly self-responsible and flexible work, many employees still struggle addressing the resulting self-management challenges like balancing strain and recovery. Maintaining health of employees is a major concern of organizations to remain competitive, but in the context of highly individual work, this can hardly be supported with classical occupational health initiatives. Thus, it is crucial to develop tools that provide individuals with personal insights on their everyday work and help them determine applicable health behaviours. Towards this goal, we report on our design and implementation of diary studies with personalized feedback about persons’ energetic wellbeing. While such studies enable to research phenomena at the collective level, they can additionally act as an intervention at the individual level. We provide insights from several studies regarding the generated feedback, the perception of the participants and IT-related improvement potentials.
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Paper Nr:	2
Title:	Be Aware! Indications for Intercultural Awareness for Digital Health Innovations and Innovation Capability
Authors:	Lena Otto, Linda Kosmol, Tim Scheplitz and Hannes Schlieter
Abstract:	Cultural influences on single Digital Health Innovation (DHI) processes or on a society’s capability to promote DHI development and implementation remain difficult to describe and to manage on different levels of responsibility. Using Hofstede’s Dimensions of National Culture, we investigated the influence of each dimension on DHI to support awareness and to derive valuable indications for both practice and research. An expert study with 23 participants representing 13 different European countries explored the influence of a nation’s characteristic on how the DHI domain is supported or slowed down. The results describe indications for all six dimensions of Hofstede, but “Uncertainty Avoidance” and “Indulgence” are highlighted as the interviewees could assess their influence on DHI confidently. Combined with cultural aspects that do not rely on nationalities, our contribution can improve scientific and practice-oriented initiatives especially in context of international collaborations or of DHI for multi-national usage scenarios.
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Paper Nr:	3
Title:	Remote Patient Monitoring Systems based on Conversational Agents for Health Data Collection
Authors:	Pedro Dias, Miguel Cardoso, Federico Guede-Fernandez, Ana Martins and Ana Londral
Abstract:	The pursue of digital health has been increasing in the past years and the COVID-19 pandemic promoted it further. Remote monitoring health care allows patients to report health outcomes and receive a proper follow-up from home and personalized health care by preventing unnecessary trips to hospitals. The design, development and use of two rule-based chatbots for data collection and guidance providing in two health telemonitoring contexts, post-cardiothoracic surgery for derived-complications control and patients with hypocoagulation, is described in this paper. The designed chatbots have the goal of being simple, modular and human guided. The first chatbot was used to collect photos from the surgical wound and the second was used to collect the INR value (from a coagulometer) and six related questions, following a measurement plan. In both use cases the clinical team could analyze the collected data and interact with patients using a web application. This chatbot may contribute to the increase of the safety perception of the patient and their engagement with their health status. The inclusion of the clinical team in the development was key to identify the requirements and to improve the user experience.
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Paper Nr:	4
Title:	Privacy-preserving Copy Number Variation Analysis with Homomorphic Encryption
Authors:	Hüseyin Demirci and Gabriele Lenzini
Abstract:	Innovative pharma-genomics and personalized medicine services are now possible thanks to the availability for processing and analysis of a large amount of genomic data. Operating on such databases, is possible to test for predisposition to diseases by searching for genomic variants on whole genomes as well as on exomes, which are collections of protein coding regions called exons. Genomic data are therefore shared amongst research institutes, public/private operators, and third parties, creating issues of privacy, ethics, and data protection because genome data are strictly personal and identifying. To prevent damages that could follow a data breach—a likely threat nowadays—and to be compliant with current data protection regulations, genomic data files should be encrypted, and the data processing algorithms should be privacy-preserving. Such a migration is not always feasible: not all operations can be implemented straightforwardly to be privacy-preserving; a privacy-preserving version of an algorithm may not be as accurate for the purpose of biomedical analysis as the original; or the privacy-preserving version may not scale up when applied to genomic data processing because of inefficiency in computation time. In this work, we demonstrate that at least for a well- known genomic data procedure for the analysis of copy number variants called copy number variations (CNV) a privacy-preserving analysis is possible and feasible. Our algorithm relies on Homomorphic Encryption, a cryptographic technique to perform calculations directly on the encrypted data. We test our implementation for performance and reliability, giving evidence that it is practical to study copy number variations and preserve genomic data privacy. Our proof-of-concept application successfully and efficiently searches for a patient’s somatic copy number variation changes by comparing the patient gene coverage in the whole exome with a healthy control exome coverage. Since all the genomics data are securely encrypted, the data remain protected even if they are transmitted or shared via an insecure environment like a public cloud. Being this the first study for privacy-preserving copy number variation analysis, we demonstrate the potential of recent Homomorphic Encryption tools in genomic applications.
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Short Papers

Paper Nr:	5
Title:	Learning Embeddings from Free-text Triage Notes using Pretrained Transformer Models
Authors:	Émilien Arnaud, Mahmoud Elbattah, Maxime Gignon and Gilles Dequen
Abstract:	The advent of transformer models has allowed for tremendous progress in the Natural Language Processing (NLP) domain. Pretrained transformers could successfully deliver the state-of-the-art performance in a myriad of NLP tasks. This study presents an application of transformers to learn contextual embeddings from free-text triage notes, widely recorded at the emergency department. A large-scale retrospective cohort of triage notes of more than 260K records was provided by the University Hospital of Amiens-Picardy in France. We utilize a set of Bidirectional Encoder Representations from Transformers (BERT) for the French language. The quality of embeddings is empirically examined based on a set of clustering models. In this regard, we provide a comparative analysis of popular models including CamemBERT, FlauBERT, and mBART. The study could be generally regarded as an addition to the ongoing contributions of applying the BERT approach in the healthcare context.
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