@misc{Forjan, author = {Forjan, Mathias}, title = {Reference Architecture and IT Standards for Integrating Medical Devices}, subject = {Electronic Health Records}, language = {de} } @article{PastekaSantosdaCostaBarrosetal., author = {Pasteka, Richard and Santos da Costa, Joao Pedro and Barros, Nelson and Kolar, Radim and Forjan, Mathias}, title = {Patient-Ventilator Interaction Testing Using the Electromechanical Lung Simulator xPULMTM during V/A-C and PSV Ventilation Mode}, series = {Applied Sciences}, volume = {11}, journal = {Applied Sciences}, number = {9}, abstract = {During mechanical ventilation, a disparity between flow, pressure and volume demands of the patient and the assistance delivered by the mechanical ventilator often occurs. This paper introduces an alternative approach of simulating and evaluating patient-ventilator interactions with high fidelity using the electromechanical lung simulator xPULM™. The xPULM™ approximates respiratory activities of a patient during alternating phases of spontaneous breathing and apnea intervals while connected to a mechanical ventilator. Focusing on different triggering events, volume assist-control (V/A-C) and pressure support ventilation (PSV) modes were chosen to test patient-ventilator interactions. In V/A-C mode, a double-triggering was detected every third breathing cycle, leading to an asynchrony index of 16.67\%, which is classified as severe. This asynchrony causes a significant increase of peak inspiratory pressure (7.96 ± 6.38 vs. 11.09 ± 0.49 cmH2O, p < 0.01)) and peak expiratory flow (-25.57 ± 8.93 vs. 32.90 ± 0.54 L/min, p < 0.01) when compared to synchronous phases of the breathing simulation. Additionally, events of premature cycling were observed during PSV mode. In this mode, the peak delivered volume during simulated spontaneous breathing phases increased significantly (917.09 ± 45.74 vs. 468.40 ± 31.79 mL, p < 0.01) compared to apnea phases. Various dynamic clinical situations can be approximated using this approach and thereby could help to identify undesired patient-ventilation interactions in the future. Rapidly manufactured ventilator systems could also be tested using this approach. View Full-Text}, subject = {Breathing Simulation}, language = {en} } @misc{FrohnerForjan, author = {Frohner, Matthias and Forjan, Mathias}, title = {Interoperability in the OR Introducing OR.NET}, subject = {Interoperability}, language = {de} } @inproceedings{FrohnerWindischSauermannetal., author = {Frohner, Matthias and Windisch, Michael and Sauermann, Stefan and Sekora, Jiri and Forjan, Mathias}, title = {Organ Telemonitoring in Ex-vivo Nutrition Circulation of Porcine Lungs Using Interoperability Standards}, series = {Proceedings of the 12th IFAC/IEEE International Conference on Programmable Devices and Embedded Systems (PDeS 2013)}, booktitle = {Proceedings of the 12th IFAC/IEEE International Conference on Programmable Devices and Embedded Systems (PDeS 2013)}, pages = {335 -- 340}, subject = {Telemonitoring}, language = {en} } @inproceedings{LenzFrohnerSauermannetal., author = {Lenz, Gregor and Frohner, Matthias and Sauermann, Stefan and Forjan, Mathias}, title = {LUMOR: An App for Standardized Control and Monitoring of a Porcine Lung and its Nutrient Cycle}, series = {Proceedings of eHealth 2014 - Health Informatics Meets Informatics}, booktitle = {Proceedings of eHealth 2014 - Health Informatics Meets Informatics}, subject = {Lung Simulator}, language = {en} } @inproceedings{ForjanFrohner, author = {Forjan, Mathias and Frohner, Matthias}, title = {Development of the mCM - mobile circulatory module - for ex-vivo physiological tissue for breathing simulation}, series = {Abstracts of the 9th World Congress on Alternatives and Animal Use in the Life Sciences (ALTEX Proceedings) 2014}, booktitle = {Abstracts of the 9th World Congress on Alternatives and Animal Use in the Life Sciences (ALTEX Proceedings) 2014}, pages = {52 -- 52}, subject = {Lung Simulator}, language = {en} } @misc{LenzFrohnerSauermannetal., author = {Lenz, Gregor and Frohner, Matthias and Sauermann, Stefan and Forjan, Mathias}, title = {LUMOR: An App for Standardized Control and Monitoring of a Porcine Lung and its Nutrient Cycle}, subject = {Lung Simulator}, language = {en} } @inproceedings{UrbauerHerzogPohnetal., author = {Urbauer, Philipp and Herzog, Juliane and Pohn, Birgit and Forjan, Mathias and Sauermann, Stefan}, title = {Certification Programs for eHealth - Status Quo}, series = {Proceedings of eHealth 2014 - Health Informatics Meets Informatics}, booktitle = {Proceedings of eHealth 2014 - Health Informatics Meets Informatics}, subject = {eHealth}, language = {en} } @misc{ForjanFrohner, author = {Forjan, Mathias and Frohner, Matthias}, title = {Development of the mCM - mobile circulatory module - for ex-vivo physiological tissue for breathing simulation}, subject = {Lung Simulator}, language = {en} } @misc{DavidForjanTkachenkoBril, author = {David, Veronika and Forjan, Mathias and Tkachenko Bril, Andres Igor}, title = {Klinische Pilotstudie zur Pr{\"u}fung der Machbarkeit und Akzeptanz eines Biofeedbacksystems zur Unterst{\"u}tzung der teilbelastenden Mobilisation}, subject = {eHealth}, language = {de} } @misc{SauermannForjanFrohner, author = {Sauermann, Stefan and Forjan, Mathias and Frohner, Matthias}, title = {Integrating medical devices in hospitals and at home: Challenges \& potentials}, subject = {Electronic Health Records}, language = {en} } @misc{SauermannForjan, author = {Sauermann, Stefan and Forjan, Mathias}, title = {eHealth Strategies on the Move: Researching State of the Art}, subject = {eHealth}, language = {de} } @inproceedings{DavidForjanSchereretal., author = {David, Veronika and Forjan, Mathias and Scherer, Matthias and Reichel, Martin}, title = {Entwicklung und Vorstudien zur Implementierung mobiler Rehabilitationssysteme im h{\"a}uslichen Umfeld}, series = {9. Jahrestagung der deutschen Gesellschaft f{\"u}r Biomechanik (DgfB) 2015}, booktitle = {9. Jahrestagung der deutschen Gesellschaft f{\"u}r Biomechanik (DgfB) 2015}, subject = {Rehabilitation}, language = {de} } @misc{DavidForjanSchereretal., author = {David, Veronika and Forjan, Mathias and Scherer, Matthias and Reichel, Martin}, title = {Entwicklung und Vorstudien zur Implementierung mobiler Rehabilitationssysteme im h{\"a}uslichen Umfeld}, subject = {Rehabilitation}, language = {de} } @inproceedings{DavidForjanMartineketal., author = {David, Veronika and Forjan, Mathias and Martinek, Johannes and Kotzian, Stefan and Jagos, Harald and Rafolt, Dietmar}, title = {Evaluation of Wearable Multimodal Sensor Insoles for Motion-pattern Measurements in Stroke Rehabilitation - a Pilot Study}, series = {IEEE-RAS-EMBS International Conference on Rehabilitation Robotics (ICORR 2017)}, booktitle = {IEEE-RAS-EMBS International Conference on Rehabilitation Robotics (ICORR 2017)}, subject = {Stroke Patients}, language = {en} } @misc{DavidForjan, author = {David, Veronika and Forjan, Mathias}, title = {User Centered Design - Einbindung und Nutzung in Forschungsprojekten}, subject = {Research Project}, language = {de} } @misc{UrbauerFrohnerForjanetal., author = {Urbauer, Philipp and Frohner, Matthias and Forjan, Mathias and Pohn, Birgit and Sauermann, Stefan and Mense, Alexander}, title = {A Closer Look on Standards Based Personal Health Device Communication: A R{\´e}sum{\´e} over Four Years Implementing Telemonitoring Solutions}, subject = {eHealth}, language = {en} } @inproceedings{HerzogPohnForjanetal., author = {Herzog, Juliane and Pohn, Birgit and Forjan, Mathias and Sauermann, Stefan and Urbauer, Philipp}, title = {Education for eHealth - A Status Analysis}, series = {Proceedings of eHealth 2014 - Health Informatics Meets Informatics}, booktitle = {Proceedings of eHealth 2014 - Health Informatics Meets Informatics}, subject = {eHealth}, language = {en} } @inproceedings{PastekaForjan, author = {Pasteka, Richard and Forjan, Mathias}, title = {Actively breathing mechanical lung simulator development and preliminary measurements}, series = {IFMBE,volume 65; EMBEC \& NBC 2017}, booktitle = {IFMBE,volume 65; EMBEC \& NBC 2017}, subject = {Biomedical Engineering}, language = {en} } @inproceedings{PastekaForjanDrauschke, author = {Pasteka, Richard and Forjan, Mathias and Drauschke, Andreas}, title = {Comparison of Mathematical and Controlled Mechanical Lung Simulation in Active Breathing and Ventilated State}, series = {Proceedings of the 15th IFAC Conference on Programmable Devices and Embedded Systems PDeS 2018}, booktitle = {Proceedings of the 15th IFAC Conference on Programmable Devices and Embedded Systems PDeS 2018}, subject = {Breathing Simulation}, language = {en} } @article{PastekaSchoellbauerSantosdaCostaetal., author = {Pasteka, Richard and Sch{\"o}llbauer, Lara Alina and Santos da Costa, Joao Pedro and Kolar, Radim and Forjan, Mathias}, title = {Experimental Evaluation of Dry Powder Inhalers During In- and Exhalation Using a Model of the Human Respiratory System (xPULM™)}, series = {Pharmaceutics}, volume = {2022}, journal = {Pharmaceutics}, number = {14/3}, pages = {15}, abstract = {Dry powder inhalers are used by a large number of patients worldwide to treat respiratory diseases. The objective of this work is to experimentally investigate changes in aerosol particle diameter and particle number concentration of pharmaceutical aerosols generated by four dry powder inhalers under realistic inhalation and exhalation conditions. To simulate patients undergoing inhalation therapy, the active respiratory system model (xPULM™) was used. A mechanical upper airway model was developed, manufactured, and introduced as a part of the xPULM™ to represent the human upper respiratory tract with high fidelity. Integration of optical aerosol spectrometry technique into the setup allowed for evaluation of pharmaceutical aerosols. The results show that there is a significant difference (p < 0.05) in mean particle diameter between inhaled and exhaled particles with the majority of the particles depositing in the lung, while particles with the size of (>0.5 μm) are least influenced by deposition mechanisms. The fraction of exhaled particles ranges from 2.13\% (HandiHaler®) over 2.94\% (BreezHaler®), and 6.22\% (Turbohaler®) to 10.24\% (Ellipta®). These values are comparable to previously published studies. Furthermore, the mechanical upper airway model increases the resistance of the overall system and acts as a filter for larger particles (>3 μm). In conclusion, the xPULM™ active respiratory system model is a viable option for studying interactions of pharmaceutical aerosols and the respiratory tract regarding applicable deposition mechanisms. The model strives to support the reduction of animal experimentation in aerosol research and provides an alternative to experiments with human subjects.}, subject = {Biomedical Engineering}, language = {en} } @article{PastekaForjanSauermannetal., author = {Pasteka, Richard and Forjan, Mathias and Sauermann, Stefan and Drauschke, Andreas}, title = {Electro-mechanical Lung Simulator Using Polymer and Organic Human Lung Equivalents for Realistic Breathing Simulation}, series = {Scientific Reports}, volume = {Vol 9}, journal = {Scientific Reports}, number = {No. 1}, pages = {Article number: 19778}, abstract = {Simulation models in respiratory research are increasingly used for medical product development and testing, especially because in-vivo models are coupled with a high degree of complexity and ethical concerns. This work introduces a respiratory simulation system, which is bridging the gap between the complex, real anatomical environment and the safe, cost-effective simulation methods. The presented electro-mechanical lung simulator, xPULM, combines in-silico, ex-vivo and mechanical respiratory approaches by realistically replicating an actively breathing human lung. The reproducibility of sinusoidal breathing simulations with xPULM was verified for selected breathing frequencies (10-18 bpm) and tidal volumes (400-600 ml) physiologically occurring during human breathing at rest. Human lung anatomy was modelled using latex bags and primed porcine lungs. High reproducibility of flow and pressure characteristics was shown by evaluating breathing cycles (nTotal = 3273) with highest standard deviation |3σ| for both, simplified lung equivalents (μV˙ = 23.98 ± 1.04 l/min, μP = -0.78 ± 0.63 hPa) and primed porcine lungs (μV˙ = 18.87 ± 2.49 l/min, μP = -21.13 ± 1.47 hPa). The adaptability of the breathing simulation parameters, coupled with the use of porcine lungs salvaged from a slaughterhouse process, represents an advancement towards anatomically and physiologically realistic modelling of human respiration.}, subject = {Breathing Simulation}, language = {en} } @misc{PastekaForjanDrauschke, author = {Pasteka, Richard and Forjan, Mathias and Drauschke, Andreas}, title = {Comparison of Mathematical and Controlled Mechanical Lung Simulation in Active Breathing and Ventilated State}, subject = {Breathing Simulation}, language = {en} } @misc{HerzogPohnForjanetal., author = {Herzog, Juliane and Pohn, Birgit and Forjan, Mathias and Sauermann, Stefan and Urbauer, Philipp}, title = {Education for eHealth - A Status Analysis}, subject = {eHealth}, language = {en} } @inproceedings{PastekaSantosdaCostaForjan, author = {Pasteka, Richard and Santos da Costa, Joao Pedro and Forjan, Mathias}, title = {Characteristic Waveforms for Testing of Medical Aerosol Inhalers}, series = {8th European Medical and Biological Engineering Conference}, booktitle = {8th European Medical and Biological Engineering Conference}, publisher = {Springer International Publishing}, pages = {240 -- 246}, abstract = {Respiratory diseases are characterised by high prevalence among the European population. Medical aerosol inhalers are the most commonly used means of drug delivery into the human respiratory system. This paper focuses on characteristic waveforms that can be utilised during aerosol deposition studies to simulate conditions of rapid human inhalation. Additionally, an inhalatory waveform based on clinically recorded spirometry data is introduced. Experimental measurements are performed and simulation results mutually compared using the electro-mechanical lung simulator xPULM. The inhalatory waveforms are repeatably simulated with high fidelity in regards to the waveform shape with the lowest value of the Goodness of fit 0.89. Additionally, the measured values for all characteristic inhalatory parameters are simulated with low standard deviation < 1. The differences between the required and measured waveform shapes are small, < 3 L/min and do not influence the overall inhalatory volume. This opens a possibility of utilising the xPULM for medical aerosol inhalers testing.}, subject = {Breathing Simulation}, language = {en} } @inproceedings{PastekaForjan, author = {Pasteka, Richard and Forjan, Mathias}, title = {Changes of particle deposition caused by different breathing patterns during active lung simulation}, series = {41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)}, booktitle = {41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)}, abstract = {Aerosols are an integral part of everyday life and as such are inhaled under various conditions and circumstances. These may vary based on the health and activity status of an individual. The aim of this work is to analyse the particle deposition mechanisms during the simulation of three different breathing patterns using an aerosol representing the PM1 fraction of fine particles. The active electro-mechanical lung simulator xPULM is utilized as a driving force and is combined with a non-invasive direct reading optical aerosol measurement system. Results show differences between the number of deposited particles for the three breathing patterns and for the three typical size ranges of airborne particles. Overall, the presented approach demonstrates the possibility of determining the changes of aerosol uptake based on different breathing patterns using the electro-mechanical lung simulator and laboratory produced aerosols. Further measurement cycles must be performed in order to validate the found interactions and to characterize the major influencing parameters.}, subject = {Biomedical Engineering, Breathing simulation}, language = {en} } @article{RiessDavidSchereretal., author = {Riess, Bernhard and David, Veronika and Scherer, Matthias and Kotzian, Stefan and Forjan, Mathias}, title = {Development and Usability Test of an Innovative Low-Cost Rehabilitation Game for the Upper Extremities of Neurological Patients}, series = {Journal of Functional Neurology, Rehabilitation, and Ergonomics}, volume = {7}, journal = {Journal of Functional Neurology, Rehabilitation, and Ergonomics}, number = {4}, pages = {34 -- 39}, subject = {Neurology}, language = {en} } @misc{SalomonSchererDavidetal., author = {Salomon, Cornelia and Scherer, Matthias and David, Veronika and Kotzian, Stefan and Forjan, Mathias}, title = {Simulation Development of a Virtual Shopping Scenario via HTC VIVE for Neuropsychological Rehabilitation}, subject = {Neurology}, language = {en} } @misc{DavidJagosKotzianetal., author = {David, Veronika and Jagos, Harald and Kotzian, Stefan and Forjan, Mathias and Sabo, Anton}, title = {Instrumentation of Timed-up-and-Go Test for Stroke Patients using Multisensor Insoles}, subject = {Stroke Patients}, language = {en} } @misc{RiessDavidSchereretal., author = {Riess, Bernhard and David, Veronika and Scherer, Matthias and Kotzian, Stefan and Forjan, Mathias}, title = {Development and Usability Test of an Innovative Low-Cost Rehabilitation Game for the Upper Extremities of Neurological Patients}, subject = {Neurology}, language = {en} } @misc{PastekaForjanDrauschke, author = {Pasteka, Richard and Forjan, Mathias and Drauschke, Andreas}, title = {Comparison of breathing patterns for aerosol inhalation using an electro-mechanical lung simulator}, series = {ALTEX Proceedings - EUSAAT 2018, Linz}, journal = {ALTEX Proceedings - EUSAAT 2018, Linz}, subject = {Biomedical Engineering}, language = {en} } @misc{DavidForjanMartineketal., author = {David, Veronika and Forjan, Mathias and Martinek, Johannes and Kotzian, Stefan and Jagos, Harald and Rafolt, Dietmar}, title = {Evaluation of Wearable Multimodal Sensor Insoles for Motion-pattern Measurements in Stroke Rehabilitation - a Pilot Study}, subject = {Stroke Patients}, language = {en} } @misc{ForjanPastekaDrauschke, author = {Forjan, Mathias and Pasteka, Richard and Drauschke, Andreas}, title = {Lung simulation - an alterna� tive approach to animal testing for applications in aerosol and respiratory research}, series = {ALTEX Proceedings - EUSAAT 2018, Linz}, journal = {ALTEX Proceedings - EUSAAT 2018, Linz}, subject = {Biomedical Engineering}, language = {en} } @inproceedings{DavidForjanPaštěkaetal., author = {David, Veronika and Forjan, Mathias and Paštěka, Richard and Scherer, Matthias and Hofst{\"a}tter, Otto}, title = {Development of a Multi-Purpose Easy-to-Use Set of Tools for Home Based Rehabilitation}, series = {DSAI 2018 - 8th International Conference on Software Development and Technologies for Enhancing Accessibility and Fighting Info-exclusion}, booktitle = {DSAI 2018 - 8th International Conference on Software Development and Technologies for Enhancing Accessibility and Fighting Info-exclusion}, subject = {Rehabitation}, language = {en} } @inproceedings{PastekaForjanDavid, author = {Pasteka, Richard and Forjan, Mathias and David, Veronika}, title = {A Single Point of Contact Data Platform for Rehabilitative Exercises and Equipment}, series = {DSAI 2018 - 8th International Conference on Software Development and Technologies for Enhancing Accessibility and Fighting Info-exclusion}, booktitle = {DSAI 2018 - 8th International Conference on Software Development and Technologies for Enhancing Accessibility and Fighting Info-exclusion}, subject = {Telemedicine}, language = {en} } @misc{SchererZapfSalomonetal., author = {Scherer, Matthias and Zapf, Stefan and Salomon, Cornelia and Kotzian, Stefan and Forjan, Mathias}, title = {Development of a virtual environment for the rehabilitation of neurological patients}, subject = {Virtual Supermarket}, language = {en} } @inproceedings{PastekaForjanSauermann, author = {Pasteka, Richard and Forjan, Mathias and Sauermann, Stefan}, title = {Development of a multidisciplinary and telemedicine focused system database}, series = {Health Informatics meets eHealth. Digital Insight - Information-Driven Health \& Care Proceedings of the 11th eHealth2017 Conference (Studies in Health Technology and Informatics, Volume 236)}, booktitle = {Health Informatics meets eHealth. Digital Insight - Information-Driven Health \& Care Proceedings of the 11th eHealth2017 Conference (Studies in Health Technology and Informatics, Volume 236)}, publisher = {IOS Press eBooks}, pages = {144 -- 151}, abstract = {Tele-rehabilitation at home is one of the promising approaches in increasing rehabilitative success and simultaneously decreasing the financial burden on the healthcare system. Objectives: Novel and mostly mobile devices are already in use, but shall be used in the future to a higher extent for allowing at home rehabilitation processes at a high quality level. The combination of exercises, assessments and available equipment is the basic objective of the presented database. Methods: The database has been structured in order to allow easy-to-use and fast access for the three main user groups. Therapists - looking for exercise and equipment combinations - patients - rechecking their tasks for home exercises - and manufacturers - entering their equipment for specific use cases. Results: The database has been evaluated by a proof of concept study and shows a high degree of applicability for the field of rehabilitative medicine. Currently it contains 110 exercises/assessments and 111 equipment/systems. Conclusion: Foundations of presented database are already established in the rehabilitative field of application, but can and will be enhanced in its functionality to be usable for a higher variety of medical fields and specificatios.}, subject = {telemedicine}, language = {en} } @misc{FrohnerUrbauerForjanetal., author = {Frohner, Matthias and Urbauer, Philipp and Forjan, Mathias and Pohn, Birgit and Gerbovics, Ferenc and Sauermann, Stefan and Mense, Alexander}, title = {Development of an Android App in compliance with the Continua Health Alliance Design Guidelines for medical device connectivity in mHealth}, subject = {App development}, language = {en} } @misc{TkachenkoBrilDavidForjanetal., author = {Tkachenko Bril, Andres Igor and David, Veronika and Forjan, Mathias and Gaudernak, Jakob and Pils, Katharina}, title = {Evaluation of the feasibility of a partial weight-bearing supporting biofeedback system based on instrumented insoles and an Android application}, subject = {Weight-Bearing}, language = {en} } @misc{DavidForjanPaštěkaetal., author = {David, Veronika and Forjan, Mathias and Paštěka, Richard and Scherer, Matthias and Hofst{\"a}tter, Otto}, title = {Development of a Multi-Purpose Easy-to-Use Set of Tools for Home Based Rehabilitation}, subject = {Rehabitation}, language = {en} } @misc{FrohnerForjan, author = {Frohner, Matthias and Forjan, Mathias}, title = {Interoperability Challenges - How to integrate medical devices}, subject = {Interoperability}, language = {en} } @article{UrbauerFrohnerForjanetal., author = {Urbauer, Philipp and Frohner, Matthias and Forjan, Mathias and Pohn, Birgit and Sauermann, Stefan and Mense, Alexander}, title = {A Closer Look on Standards Based Personal Health Device Communication: A R{\´e}sum{\´e} over Four Years Implementing Telemonitoring Solutions}, series = {European Journal for Biomedical Informatics}, volume = {2012}, journal = {European Journal for Biomedical Informatics}, number = {Vol 8, Issue 3}, pages = {65 -- 70}, subject = {eHealth}, language = {en} } @inproceedings{FrohnerUrbauerForjanetal., author = {Frohner, Matthias and Urbauer, Philipp and Forjan, Mathias and Pohn, Birgit and Gerbovics, Ferenc and Sauermann, Stefan and Mense, Alexander}, title = {Development of an Android App in compliance with the Continua Health Alliance Design Guidelines for medical device connectivity in mHealth}, series = {46th annual conference of the German Society for Biomedical Engineering(BMT 2012)}, booktitle = {46th annual conference of the German Society for Biomedical Engineering(BMT 2012)}, pages = {1051 -- 1053}, subject = {App development}, language = {en} } @inproceedings{PastekaForjan, author = {Pasteka, Richard and Forjan, Mathias}, title = {Changes of particle deposition caused by different breathing patterns during active lung simulation}, series = {41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), 2019}, booktitle = {41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), 2019}, organization = {IEEE}, pages = {4969 -- 4972}, subject = {Lung Simulation}, language = {en} } @misc{DavidForjan, author = {David, Veronika and Forjan, Mathias}, title = {Rehabilitation at Home - a Device supported Approach}, subject = {Rehabilitation}, language = {en} } @misc{BalzLangerFrohneretal., author = {Balz, Andrea and Langer, Sarah and Frohner, Matthias and Forjan, Mathias}, title = {Development of Internationalized Teaching and Training Modules for Healthcare Professionals}, series = {Abstracts of the 2022 Joint Annual Conference of the Austrian ({\"O}GBMT), German (VDE DGBMT) and Swiss (SSBE) Societies for Biomedical Engineering, including the 14th Vienna International Workshop on Functional Electrical Stimulation}, journal = {Abstracts of the 2022 Joint Annual Conference of the Austrian ({\"O}GBMT), German (VDE DGBMT) and Swiss (SSBE) Societies for Biomedical Engineering, including the 14th Vienna International Workshop on Functional Electrical Stimulation}, doi = {https://doi.org/10.1515/bmt-2022-2001}, pages = {353}, subject = {Internationalized Teaching}, language = {en} } @misc{EidiBalzForjan, author = {Eidi, Nada and Balz, Andrea and Forjan, Mathias}, title = {MedTech-mR - Creating a Virtual Enviroment for Medical Training and Room Planning}, series = {Abstracts of the 2022 Joint Annual Conference of the Austrian ({\"O}GBMT), German (VDE DGBMT) and Swiss (SSBE) Societies for Biomedical Engineering, including the 14th Vienna International Workshop on Functional Electrical Stimulation}, journal = {Abstracts of the 2022 Joint Annual Conference of the Austrian ({\"O}GBMT), German (VDE DGBMT) and Swiss (SSBE) Societies for Biomedical Engineering, including the 14th Vienna International Workshop on Functional Electrical Stimulation}, doi = {https://doi.org/10.1515/bmt-2022-2001}, pages = {349}, subject = {Medical Training}, language = {en} } @misc{MalaskovaForjan, author = {Malaskova, Michaela and Forjan, Mathias}, title = {Current topics in Life Science Engineering lectures}, series = {Abstracts of the 2022 Joint Annual Conference of the Austrian ({\"O}GBMT), German (VDE DGBMT) and Swiss (SSBE) Societies for Biomedical Engineering, including the 14th Vienna International Workshop on Functional Electrical Stimulation}, journal = {Abstracts of the 2022 Joint Annual Conference of the Austrian ({\"O}GBMT), German (VDE DGBMT) and Swiss (SSBE) Societies for Biomedical Engineering, including the 14th Vienna International Workshop on Functional Electrical Stimulation}, doi = {https://doi.org/10.1515/bmt-2022-2001}, pages = {350}, subject = {Life Science Engineering}, language = {en} }