Your search keyword '"Schloglhofer T"' showing total 2 results

1. Implantable Fiber Bragg Grating Sensor for Continuous Heart Activity Monitoring: Ex-Vivo and In-Vivo Validation

Author

Domenico Camboni, Davide Ferraro, Thomas Schlöglhofer, Fabio Bernini, Guido Giudetti, Calogero Maria Oddo, Giacomo D'Alesio, Jacopo Carpaneto, Valentina Casieri, Vincenzo Lionetti, Domiziana Terlizzi, Leone Costi, Philipp Aigner, Martin Maw, Francesco Moscato, Max Haberbusch, Andrea Aliperta, Silvestro Micera, Ewald Unger, Luca Massari, Gianni Pedrizzetti, Ciro Zinno, Ferraro, D., D'Alesio, G., Camboni, D., Zinno, C., Costi, L., Haberbusch, M., Aigner, P., Maw, M., Schloglhofer, T., Unger, E., Aliperta, A., Bernini, F., Casieri, V., Terlizzi, D., Giudetti, G., Carpaneto, J., Pedrizzetti, G., Micera, S., Lionetti, V., Moscato, F., Massari, L., and Oddo, C. M.

Subjects

fiber bragg grating, Cardiac function curve, Computer science, fiber gratings, heart, sensors, doppler, pressure, symbols.namesake, strain, Fiber Bragg grating, increase, Heart rate, medicine, heart monitoring, neural networks, Electrical and Electronic Engineering, Instrumentation, Artificial neural network, optical fiber sensors, medicine.disease, Soft sensor, monitoring, Recurrent neural network, Heart failure, cardiovascular system, symbols, rate-variability, Doppler effect, mechanical sensors, Biomedical engineering

Abstract

Continuous and reliable cardiac function monitoring could improve medication adherence in patients at risk of heart failure. This work presents an innovative implantable Fiber Bragg Grating-based soft sensor designed to sense mechanical cardiac activity. The sensor was tested in an isolated beating ovine heart platform, with 3 different hearts operated in wide-ranging conditions. In order to investigate the sensor capability to track the ventricular beats in real-time, two causal algorithms were proposed for detecting the beats from sensor data and to discriminate artifacts. The first based on dynamic thresholds while the second is a hybrid convolutional and recurrent Neural Network. An error of 2.7 +/- 0.7 beats per minute was achieved in tracking the heart rate. Finally, we have confirmed the sensor reliability in monitoring the heart activity of healthy adult minipig with an error systematically lower than 1 Bpm.

Published

2021

2. Hemolytic Footprint of Rotodynamic Blood Pumps.

Author

Escher A, Gobel H, Nicolai M, Schloglhofer T, Hubmann EJ, Laufer G, Messner B, Kertzscher U, Zimpfer D, and Granegger M

Subjects

Animals, Cattle, Hemoglobins, Hydrodynamics, Heart-Assist Devices, Hemolysis

Abstract

Objective: In preclinical examinations, rotodynamic blood pumps (RBPs) are predominantly evaluated at design-point conditions. In clinical practice, however, they run at diversified modes of operation. This study aimed at extending current preclinical evaluation of hemolytic profiles in RBPs toward broader, clinically relevant ranges of operation., Methods: Two implantable RBPs - the HeartMate 3 (HM3) and the HeartWare Ventricular Assist Device (HVAD) - were analyzed at three pump speeds (HM3: 4300, 5600, 7000 rpm; HVAD: 1800, 2760, 3600 rpm) with three flow rates (1-9L/min) per speed setting. Hemolysis measurements were performed in heparinized bovine blood. The delta free hemoglobin (dfHb) and the normalized index of hemolysis (NIH) served as hemolytic measures. Statistical analysis was performed by multiple comparison of the 9 operating conditions. Moreover, computational fluid dynamics (CFD) was applied to provide mechanistic insights into the interrelation between hydraulics and hemolysis by correlating numerically computed hydraulic losses with in-vitro hemolytic measures., Results: In both devices, dfHb increased toward increasing speeds, particularly during low but also during high flow condition. By contrast, in both RBPs magnitudes of NIH were significantly elevated during low flow operation compared to high flow conditions (p<0.0036). Maps of hemolytic metrics revealed morphologically similar trends to in-silico hydraulic losses (r>0.793)., Conclusions: While off-design operation is associated with increased hemolytic profiles, the setting of different operating conditions render a preclinical prediction of clinical impact with current hemolysis metrics difficult., Significance: The identified increase in hemolytic measures during episodes of off-design operation is highlighting the need to consider worst-case operation during preclinical examinations.

Published

2022