@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{MenseSauermannWahletal., author = {Mense, Alexander and Sauermann, Stefan and Wahl, Harald and Pucher, Robert and Oeser, Reinhard}, title = {Probing the Compatibility of CEN 13606 Part 4 and 5 with IHE}, series = {Proceedings of the 5th International Conference On Information Communication Technologies in Health (ICICTH) / Samos Island (Greece)}, booktitle = {Proceedings of the 5th International Conference On Information Communication Technologies in Health (ICICTH) / Samos Island (Greece)}, pages = {68 -- 73}, subject = {CEN}, 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} } @inproceedings{HerzogForjanSauermannetal., author = {Herzog, Juliane and Forjan, Mathias and Sauermann, Stefan and Mense, Alexander and Urbauer, Philipp}, title = {Development of a Virtual Lab for Practical eLearning in eHealth}, series = {Proceedings of eHealth 2015 - Health Informatics Meets eHealth}, booktitle = {Proceedings of eHealth 2015 - Health Informatics Meets eHealth}, subject = {Virtual Lab}, 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} } @misc{HerzogSauermannMenseetal., author = {Herzog, Juliane and Sauermann, Stefan and Mense, Alexander and Forjan, Mathias and Urbauer, Philipp}, title = {Development of Knowledge Profiles for International eHealth eLearning Courses}, subject = {Knowledge Profiles}, language = {en} } @article{MenseUrbauerSauermannetal., author = {Mense, Alexander and Urbauer, Philipp and Sauermann, Stefan and Wahl, Harald}, title = {Simulation environment for testing security and privacy of mobile health apps}, series = {Proceedings of the Modeling and Simulation in Medicine Symposium (MSM) 2016}, journal = {Proceedings of the Modeling and Simulation in Medicine Symposium (MSM) 2016}, subject = {Security}, language = {en} } @misc{MenseSauermannGerbovicsetal., author = {Mense, Alexander and Sauermann, Stefan and Gerbovics, Ferenc and Frohner, Matthias and Pohn, Birgit and Bruckner, Ronald and Urbauer, Philipp and Eckkrammer, Florian and Wahl, Harald}, title = {Usage of International Standards for Integrating Extramural Monitoring and Personal Health Device Data into Medical Information Infrastructure}, subject = {Health data}, language = {en} } @inproceedings{OeserMenseSauermannetal., author = {Oeser, Reinhard and Mense, Alexander and Sauermann, Stefan and Pucher, Robert and Wahl, Harald}, title = {Technologies for standards-conform message development: Testing the feasibility of recent CEN prEN 13606 standards developments in Austrian health care}, series = {Conference Proceedings 4th International Conference on Information Communication Technologies in Health (ICICTH), Samos Island (Greece)}, booktitle = {Conference Proceedings 4th International Conference on Information Communication Technologies in Health (ICICTH), Samos Island (Greece)}, pages = {215 -- 219}, subject = {Standards}, language = {en} } @inproceedings{MenseKaufmannSauermannetal., author = {Mense, Alexander and Kaufmann, Christian and Sauermann, Stefan and Wahl, Harald}, title = {Evaluation of methods for securing transmission of medical device or personal health device data from handheld to remote systems}, series = {Proceedings of the 8th International Conference on Information and Communication Technology in Health, Samos (Greece)}, booktitle = {Proceedings of the 8th International Conference on Information and Communication Technology in Health, Samos (Greece)}, isbn = {978-960-466-059-9}, subject = {Health data}, language = {en} }