Die Entwicklung von Implantaten ist ein interdisziplinäres Feld von technischen, technologischen, präklinischen, klinischen und industriellen Partnern. Wegweisende Ideen in Kombination mit der neuesten Technologie unterstützen bahnbrechende präklinische und klinische Studien. Neben der neuesten Technologie konzentrieren wir uns auf die Erhöhung der Zuverlässigkeit und Funktionalität der Geräte und achten darauf, ein hohes Maß an Benutzerfreundlichkeit zu gewährleisten.
Derzeit konzentrieren wir uns auf:
Nerven- und Muskelstimulatoren für die Grundlagenforschung an Kleintieren
Development and application of implantable pulse generator for neuromuscular activation in mice (2019-2020) Scientific collaboration with Liverpool John Moores University, §27 contract research
Chronic electrical stimulation for the therapy of the aged voice (2019-2022) Scientific collaboration with Medical University Graz, §27 contract research
Motoric endplate reinnervation and axonal regeneration using experimental adipose stem cell transplantation (2019-2021) Internal scientific collaboration with the Division of Plastic and Reconstructive Surgery
TrackWear: Trackside Working Wearables holding Warning Actuators (2019) FFG 855012, in cooperation with Rail Expert Consult GmbH and Spath Micro Electronic Design GmbH
Messung und Auswertung physiologischer Parameter (Biofeedback) (since 2004) long term cooperation with Insight Instruments, FFG and §27 contract research
Stress evaluation of surgeons and patients during cataract surgeries (2018) in cooperation with the Vienna Institute for Research in Ocular Surgery (VIROS) and Department of Ophthalmology at the Vienna Hanusch Hospital
Invasive Mensch-Maschine-Schnittstellen/INOPRO (2019) Interne Forschungskooperation mit dem klinischen Labor für Bionische Extremitätenrekonstruktion
Theranostische Implantate zur Elektrodentestung (2018) Forschungskooperation mit dem Christian Doppler Labor für Wiederherstellung von Extremitätenfunktionen Medizinische Universität Wien, Otto Bock Healthcare Products GmbH, IBMT Fraunhofer-Institut für Biomedizinische Technik, St. Ingbert, §27 Auftragsforschung
Taylor, M. et al., (2020). Lessons from Vienna: stakeholder perceptions of functional electrical stimulation technology and a conceptual model for practice. Disability and Rehabilitation: Assistive Technology, 15(1), 37–44.
Naeem, J., (2019). Mechanomyography-based muscle fatigue detection during electrically elicited cycling in patients with spinal cord injury. Medical and Biological Engineering and Computing, 57(6).
Schmoll, M. et al., 2018. SpillOver stimulation: A novel hypertrophy model using co-contraction of the plantar-flexors to load the tibial anterior muscle in rats. PLoS One, 13(11):e0207886.
Schmoll, M, et al. 2017. A novel miniature in-line load-cell to measure in-situ tensile forces in the tibialis anterior tendon of rats. PLoS One, 12(9):e0185209.
Schmoll, M. et al. 2017. In-situ measurements of tensile forces in the tibialis anterior tendon of the rat in concentric, isometric, and resisted co-contractions. Physiol Rep. 5(8). pii: e13245.
Taylor M. et al., (2017). The Vienna FES Interview Protocol – A mixed-methods protocol to elucidate the opinions of various individuals responsible for the provision of FES exercise, Eur J Transl Myol. 2017 Jun 27; 27(3): 6604.
Coste C. et al., (2016).FES in Europe and Beyond: Current Translational Research Eur J Transl Myol. 2016 Dec 15; 26(4): 6369.
Derntl B. et al., (2015).Stress matters! Psychophysiological and emotional loadings of pregnant women undergoing fetal magnetic resonance imaging BMC Pregnancy Childbirth. 2015; 15: 25.
Abschlussarbeiten
Fred Bucek, " Comparison of Skin Impedance Responsivity on Different Body Locations: Hardware, Software, and Measurements", Bachelor Thesis, (University of Applied Sciences Technikum Wien, 2020)
Paschon Karin, “Value of surface electrography as a troubleshooting tool in deep brain stimulation: potential in clinical use” Master Thesis (Medical University of Vienna, Vienna, Austria 2019
Sebastian Brettlecker, " Evaluation and classification of skin conductance profiles", Bachelor Thesis, (University of Applied Sciences Technikum Wien, 2019)
Dominik David, "Multi-site measurement of skin conductance and skin capacitance using alternating current" , Bachelor Thesis, (University of Applied Sciences Technikum Wien, 2019)
Orissa Deubner, " Bilateral Cataract Surgery Patients: Evaluation of Emotional Arousal using Skin Conductance", Master Thesis, (University of Applied Sciences Technikum Wien, 2019)
Veronika Cap, "Measuring Skin Conductance and other Physiologic Parameters to Monitor Psychological Stress", Bachelor Thesis, (University of Applied Sciences Technikum Wien, 2018)
Schmoll Martin, “Development of a basic research model for muscular hypertrophy by means of implantable pulse generators” Doctoral Thesis PhD (Medical University of Vienna, Vienna, Austria 2017)
Florian Starzengruber, "Evaluating the physiological "stress level" of patients before and during cataract surgery", Master Thesis, (University of Applied Sciences Technikum Wien, 2017)
Lukas Proksch, " MiniVstim Testing Tool - test automation of miniaturized, implantable stimulators", Bachelor Thesis, (University of Applied Sciences Technikum Wien, 2016)
Sommer Christoph, “Development of a 45W Transcutaneous Energy Transmission System for a Pulsatile Total Artificial Heart” Doctoral Thesis PhD (Medical University of Vienna, Vienna, Austria 2016)
