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1. Investigating the shortcomings of the Flow Convergence Method for quantification of Mitral Regurgitation in a pulsatile in-vitro environment and with Computational Fluid Dynamics

Author

Leister, Robin, Karl, Roger, Stroh, Lubov, Mereles, Derliz, Eden, Matthias, Neff, Luis, de Simone, Raffaele, Romano, Gabriele, Kriegseis, Jochen, Karck, Matthias, Lichtenstern, Christoph, Frey, Norbert, Frohnapfel, Bettina, Stroh, Alexander, and Engelhardt, Sandy

Subjects
Physics - Fluid Dynamics
Abstract

The flow convergence method includes calculation of the proximal isovelocity surface area (PISA) and is widely used to classify mitral regurgitation (MR) with echocardiography. It constitutes a primary decision factor for determination of treatment and should therefore be a robust quantification method. However, it is known for its tendency to underestimate MR and its dependence on user expertise. The present work systematically compares different pulsatile flow profiles arising from different regurgitation orifices using transesophageal echocardiographic (TEE) probe and particle image velocimetry (PIV) as a reference in an in-vitro environment. It is found that the inter-observer variability using echocardiography is small compared to the systematic underestimation of the regurgitation volume for large orifice areas (up to 52%) where a violation of the flow convergence method assumptions occurs. From a flow perspective, a starting vortex was found as a dominant flow pattern in the regurgant jet for all orifice shapes and sizes. A series of simplified computational fluid dynamics (CFD) simulations indicate that selecting a suboptimal aliasing velocity during echocardiography measurements might be a primary source of potential underestimation in MR characterization via the PISA-based method, reaching up to 40%. In this study, it has been noted in clinical observations that physicians often select an aliasing velocity higher than necessary for optimal estimation in diagnostic procedures.

Published
2024

2. On-demand mitral valve morphometrics during surgical repair

Author

Grizelj Andela, Sharan Lalith, Karck Matthias, De Simone Raffaele, Romano Gabriele, and Engelhardt Sandy

Subjects
mitral valve repair, minimally invasive cardiac surgery, quantification, augmented reality, Medicine
Abstract

Mitral valve regurgitation is one of the most common heart valve diseases that can occur when the structural composition of the mitral valve is affected. Mitral valve repair, typically performed in a minimally invasive setting, is a complex surgery that aims to reinstate the structural integrity of the valve and thereby restore normal valve function. The current practice lacks quantification of geometrical changes and interactive 3D visualization that could enhance the understanding of pathomorphological changes and impact of surgical correction. This work presents functionalities from smartMVR, a quantitative tool to measure, compare, and analyse changes in mitral valve geometry from data captured on-demand using an RGB-D camera. The feasibility of the approach is demonstrated on a silicone replica of a pathological mitral valve that is iteratively corrected using common surgical techniques.

Published
2024
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5. Enhanced Ca2+-Dependent SK-Channel Gating and Membrane Trafficking in Human Atrial Fibrillation

Author

Heijman, Jordi, Zhou, Xiaobo, Morotti, Stefano, Molina, Cristina E, Abu-Taha, Issam H, Tekook, Marcel, Jespersen, Thomas, Zhang, Yiqiao, Dobrev, Shokoufeh, Milting, Hendrik, Gummert, Jan, Karck, Matthias, Kamler, Markus, El-Armouche, Ali, Saljic, Arnela, Grandi, Eleonora, Nattel, Stanley, and Dobrev, Dobromir

Subjects
Medical Physiology, Biomedical and Clinical Sciences, Cardiovascular, Heart Disease, Aetiology, 5.1 Pharmaceuticals, 2.1 Biological and endogenous factors, Development of treatments and therapeutic interventions, Animals, Humans, Atrial Fibrillation, Apamin, Primaquine, Calmodulin, Heart Atria, Myocytes, Cardiac, Anti-Arrhythmia Agents, Action Potentials, Small-Conductance Calcium-Activated Potassium Channels, actinin, apamin, atrial fibrillation, atrial remodeling, calmodulin, protein phosphatase-2A, protein transport, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Cardiovascular System & Hematology, Cardiovascular medicine and haematology, Clinical sciences
Abstract

BackgroundSmall-conductance Ca2+-activated K+ (SK)-channel inhibitors have antiarrhythmic effects in animal models of atrial fibrillation (AF), presenting a potential novel antiarrhythmic option. However, the regulation of SK-channels in human atrial cardiomyocytes and its modification in patients with AF are poorly understood and were the object of this study.MethodsApamin-sensitive SK-channel current (ISK) and action potentials were recorded in human right-atrial cardiomyocytes from sinus rhythm control (Ctl) patients or patients with (long-standing persistent) chronic AF (cAF).ResultsISK was significantly higher, and apamin caused larger action potential prolongation in cAF- versus Ctl-cardiomyocytes. Sensitivity analyses in an in silico human atrial cardiomyocyte model identified IK1 and ISK as major regulators of repolarization. Increased ISK in cAF was not associated with increases in mRNA/protein levels of SK-channel subunits in either right- or left-atrial tissue homogenates or right-atrial cardiomyocytes, but the abundance of SK2 at the sarcolemma was larger in cAF versus Ctl in both tissue-slices and cardiomyocytes. Latrunculin-A and primaquine (anterograde and retrograde protein-trafficking inhibitors) eliminated the differences in SK2 membrane levels and ISK between Ctl- and cAF-cardiomyocytes. In addition, the phosphatase-inhibitor okadaic acid reduced ISK amplitude and abolished the difference between Ctl- and cAF-cardiomyocytes, indicating that reduced calmodulin-Thr80 phosphorylation due to increased protein phosphatase-2A levels in the SK-channel complex likely contribute to the greater ISK in cAF-cardiomyocytes. Finally, rapid electrical activation (5 Hz, 10 minutes) of Ctl-cardiomyocytes promoted SK2 membrane-localization, increased ISK and reduced action potential duration, effects greatly attenuated by apamin. Latrunculin-A or primaquine prevented the 5-Hz-induced ISK-upregulation.ConclusionsISK is upregulated in patients with cAF due to enhanced channel function, mediated by phosphatase-2A-dependent calmodulin-Thr80 dephosphorylation and tachycardia-dependent enhanced trafficking and targeting of SK-channel subunits to the sarcolemma. The observed AF-associated increases in ISK, which promote reentry-stabilizing action potential duration shortening, suggest an important role for SK-channels in AF auto-promotion and provide a rationale for pursuing the antiarrhythmic effects of SK-channel inhibition in humans.

Published
2023

7. mvHOTA: A multi-view higher order tracking accuracy metric to measure spatial and temporal associations in multi-point detection

Author

Sharan, Lalith, Kelm, Halvar, Romano, Gabriele, Karck, Matthias, De Simone, Raffaele, and Engelhardt, Sandy

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Multi-point tracking is a challenging task that involves detecting points in the scene and tracking them across a sequence of frames. Computing detection-based measures like the F-measure on a frame-by-frame basis is not sufficient to assess the overall performance, as it does not interpret performance in the temporal domain. The main evaluation metric available comes from Multi-object tracking (MOT) methods to benchmark performance on datasets such as KITTI with the recently proposed higher order tracking accuracy (HOTA) metric, which is capable of providing a better description of the performance over metrics such as MOTA, DetA, and IDF1. While the HOTA metric takes into account temporal associations, it does not provide a tailored means to analyse the spatial associations of a dataset in a multi-camera setup. Moreover, there are differences in evaluating the detection task for points when compared to objects (point distances vs. bounding box overlap). Therefore in this work, we propose a multi-view higher order tracking metric (mvHOTA) to determine the accuracy of multi-point (multi-instance and multi-class) tracking methods, while taking into account temporal and spatial associations.mvHOTA can be interpreted as the geometric mean of detection, temporal, and spatial associations, thereby providing equal weighting to each of the factors. We demonstrate the use of this metric to evaluate the tracking performance on an endoscopic point detection dataset from a previously organised surgical data science challenge. Furthermore, we compare with other adjusted MOT metrics for this use-case, discuss the properties of mvHOTA, and show how the proposed multi-view Association and the Occlusion index (OI) facilitate analysis of methods with respect to handling of occlusions. The code is available at https://github.com/Cardio-AI/mvhota., Comment: 16 pages, 9 figures

Published
2022
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8. Comparison of Depth Estimation Setups from Stereo Endoscopy and Optical Tracking for Point Measurements

Author

Burger, Lukas, Sharan, Lalith, Fischer, Samantha, Brand, Julian, Hehl, Maximillian, Romano, Gabriele, Karck, Matthias, De Simone, Raffaele, Wolf, Ivo, and Engelhardt, Sandy

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

To support minimally-invasive intraoperative mitral valve repair, quantitative measurements from the valve can be obtained using an infra-red tracked stylus. It is desirable to view such manually measured points together with the endoscopic image for further assistance. Therefore, hand-eye calibration is required that links both coordinate systems and is a prerequisite to project the points onto the image plane. A complementary approach to this is to use a vision-based endoscopic stereo-setup to detect and triangulate points of interest, to obtain the 3D coordinates. In this paper, we aim to compare both approaches on a rigid phantom and two patient-individual silicone replica which resemble the intraoperative scenario. The preliminary results indicate that 3D landmark estimation, either labeled manually or through partly automated detection with a deep learning approach, provides more accurate triangulated depth measurements when performed with a tailored image-based method than with stylus measurements., Comment: Accepted at Bildverarbeitung fuer die Medizin (BVM), Informatik aktuell. Springer Vieweg, Wiesbaden 2022

Published
2022

9. Point detection through multi-instance deep heatmap regression for sutures in endoscopy

Author

Sharan, Lalith, Romano, Gabriele, Brand, Julian, Kelm, Halvar, Karck, Matthias, De Simone, Raffaele, and Engelhardt, Sandy

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Purpose: Mitral valve repair is a complex minimally invasive surgery of the heart valve. In this context, suture detection from endoscopic images is a highly relevant task that provides quantitative information to analyse suturing patterns, assess prosthetic configurations and produce augmented reality visualisations. Facial or anatomical landmark detection tasks typically contain a fixed number of landmarks, and use regression or fixed heatmap-based approaches to localize the landmarks. However in endoscopy, there are a varying number of sutures in every image, and the sutures may occur at any location in the annulus, as they are not semantically unique. Method: In this work, we formulate the suture detection task as a multi-instance deep heatmap regression problem, to identify entry and exit points of sutures. We extend our previous work, and introduce the novel use of a 2D Gaussian layer followed by a differentiable 2D spatial Soft-Argmax layer to function as a local non-maximum suppression. Results: We present extensive experiments with multiple heatmap distribution functions and two variants of the proposed model. In the intra-operative domain, Variant 1 showed a mean F1 of +0.0422 over the baseline. Similarly, in the simulator domain, Variant 1 showed a mean F1 of +0.0865 over the baseline. Conclusion: The proposed model shows an improvement over the baseline in the intra-operative and the simulator domains. The data is made publicly available within the scope of the MICCAI AdaptOR2021 Challenge https://adaptor2021.github.io/, and the code at https://github.com/Cardio-AI/suture-detection-pytorch/. DOI:10.1007/s11548-021-02523-w. The link to the open access article can be found here: https://link.springer.com/article/10.1007%2Fs11548-021-02523-w, Comment: Accepted to International Journal of Computer Assisted Radiology and Surgery, 15 pages, 5 figures

Published
2021
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12. Mutually improved endoscopic image synthesis and landmark detection in unpaired image-to-image translation

Author

Sharan, Lalith, Romano, Gabriele, Koehler, Sven, Kelm, Halvar, Karck, Matthias, De Simone, Raffaele, and Engelhardt, Sandy

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

The CycleGAN framework allows for unsupervised image-to-image translation of unpaired data. In a scenario of surgical training on a physical surgical simulator, this method can be used to transform endoscopic images of phantoms into images which more closely resemble the intra-operative appearance of the same surgical target structure. This can be viewed as a novel augmented reality approach, which we coined Hyperrealism in previous work. In this use case, it is of paramount importance to display objects like needles, sutures or instruments consistent in both domains while altering the style to a more tissue-like appearance. Segmentation of these objects would allow for a direct transfer, however, contouring of these, partly tiny and thin foreground objects is cumbersome and perhaps inaccurate. Instead, we propose to use landmark detection on the points when sutures pass into the tissue. This objective is directly incorporated into a CycleGAN framework by treating the performance of pre-trained detector models as an additional optimization goal. We show that a task defined on these sparse landmark labels improves consistency of synthesis by the generator network in both domains. Comparing a baseline CycleGAN architecture to our proposed extension (DetCycleGAN), mean precision (PPV) improved by +61.32, mean sensitivity (TPR) by +37.91, and mean F1 score by +0.4743. Furthermore, it could be shown that by dataset fusion, generated intra-operative images can be leveraged as additional training data for the detection network itself. The data is released within the scope of the AdaptOR MICCAI Challenge 2021 at https://adaptor2021.github.io/, and code at https://github.com/Cardio-AI/detcyclegan_pytorch., Comment: Accepted for IEEE JBHI 2021, 13 pages, 8 figures, 4 tables

Published
2021
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15. Heatmap-based 2D Landmark Detection with a Varying Number of Landmarks

Author

Stern, Antonia, Sharan, Lalith, Romano, Gabriele, Koehler, Sven, Karck, Matthias, De Simone, Raffaele, Wolf, Ivo, and Engelhardt, Sandy

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Mitral valve repair is a surgery to restore the function of the mitral valve. To achieve this, a prosthetic ring is sewed onto the mitral annulus. Analyzing the sutures, which are punctured through the annulus for ring implantation, can be useful in surgical skill assessment, for quantitative surgery and for positioning a virtual prosthetic ring model in the scene via augmented reality. This work presents a neural network approach which detects the sutures in endoscopic images of mitral valve repair and therefore solves a landmark detection problem with varying amount of landmarks, as opposed to most other existing deep learning-based landmark detection approaches. The neural network is trained separately on two data collections from different domains with the same architecture and hyperparameter settings. The datasets consist of more than 1,300 stereo frame pairs each, with a total over 60,000 annotated landmarks. The proposed heatmap-based neural network achieves a mean positive predictive value (PPV) of 66.68$\pm$4.67% and a mean true positive rate (TPR) of 24.45$\pm$5.06% on the intraoperative test dataset and a mean PPV of 81.50\pm5.77\% and a mean TPR of 61.60$\pm$6.11% on a dataset recorded during surgical simulation. The best detection results are achieved when the camera is positioned above the mitral valve with good illumination. A detection from a sideward view is also possible if the mitral valve is well perceptible., Comment: accepted for BVM 2021, 6 pages, 2 figures, 1 table

Published
2021

18. Cross-Domain Conditional Generative Adversarial Networks for Stereoscopic Hyperrealism in Surgical Training

Author

Engelhardt, Sandy, Sharan, Lalith, Karck, Matthias, De Simone, Raffaele, and Wolf, Ivo

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computers and Society
Abstract

Phantoms for surgical training are able to mimic cutting and suturing properties and patient-individual shape of organs, but lack a realistic visual appearance that captures the heterogeneity of surgical scenes. In order to overcome this in endoscopic approaches, hyperrealistic concepts have been proposed to be used in an augmented reality-setting, which are based on deep image-to-image transformation methods. Such concepts are able to generate realistic representations of phantoms learned from real intraoperative endoscopic sequences. Conditioned on frames from the surgical training process, the learned models are able to generate impressive results by transforming unrealistic parts of the image (e.g.\ the uniform phantom texture is replaced by the more heterogeneous texture of the tissue). Image-to-image synthesis usually learns a mapping $G:X~\to~Y$ such that the distribution of images from $G(X)$ is indistinguishable from the distribution $Y$. However, it does not necessarily force the generated images to be consistent and without artifacts. In the endoscopic image domain this can affect depth cues and stereo consistency of a stereo image pair, which ultimately impairs surgical vision. We propose a cross-domain conditional generative adversarial network approach (GAN) that aims to generate more consistent stereo pairs. The results show substantial improvements in depth perception and realism evaluated by 3 domain experts and 3 medical students on a 3D monitor over the baseline method. In 84 of 90 instances our proposed method was preferred or rated equal to the baseline., Comment: accepted for MICCAI 2019

Published
2019

20. Flexible and Comprehensive Patient-Specific Mitral Valve Silicone Models with Chordae Tendinae Made From 3D-Printable Molds

Author

Engelhardt, Sandy, Sauerzapf, Simon, Preim, Bernhard, Karck, Matthias, Wolf, Ivo, and De Simone, Raffaele

Subjects
Physics - Medical Physics, Computer Science - Computers and Society
Abstract

Given the multitude of challenges surgeons face during mitral valve repair surgery, they should have a high confidence in handling of instruments and in the application of surgical techniques before they enter the operating room. Unfortunately, opportunities for surgical training of minimally-invasive repair are very limited, leading to a situation where most surgeons undergo a steep learning curve while operating the first patients. In order to provide a realistic tool for surgical training, a commercial simulator was augmented by flexible patient-specific mitral valve replica. In an elaborated production pipeline, finalized after many optimization cycles, models were segmented from 3D ultrasound and then 3D-printable molds were computed automatically and printed in rigid material, the lower part being water-soluble. After silicone injection, the silicone model was dissolved from the mold and anchored in the simulator. To our knowledge, our models are the first to comprise the full mitral valve apparatus, i.e. the annulus, leaflets, chordae tendineae and papillary muscles. Nine different valve molds were automatically created according to the proposed workflow (seven prolapsed valves and two valves with functional mitral insufficiency). From these mold geometries, 16 replica were manufactured. A material test revealed that Ecoflex\textsuperscript{TM} 00-30 is the most suitable material for leaflet-mimicking tissue out of seven mixtures. Production time was around 36h per valve. Twelve surgeons performed various surgical techniques, e.g. annuloplasty, neo-chordae implantation, triangular leaflet resection and assessed the realism of the valves very positively. The standardized production process guarantees a high anatomical recapitulation of the silicone valves to the segmented models and the ultrasound data..., Comment: Accepted for IJCARS Special Issue IPCAI 2019 (Information Processing in Computer-Assisted Interventions)

Published
2019
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21. Outcomes in patients with cardiac amyloidosis undergoing heart transplantation: the eurotransplant experience

Author

Kraus, Martin J., Smits, Jacqueline M., Meyer, Anna L., Strelniece, Agita, van Kins, Arne, Boeken, Udo, Reinecke, Alexander, Provaznik, Zdenek, Van Caenegem, Oliver, Ancion, Arnaud, Berchtold-Herz, Michael, Van Cleemput, Johan J.A., Haverich, Axel, Laufer, Guenther, Gummert, Jan, Karck, Matthias, Warnecke, Gregor, Raake, Philip W., Frey, Norbert, and Kreusser, Michael M.

Published
2023
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23. A patient with recurrent strokes: multimodal imaging reveals two possible causes

Author

Giusca Sorin, Schreck Johannes, Karck Matthias, and Korosoglou Grigorios

Subjects
cardiac tumor, fibroma, embolic risk, cardiac ct, cardiac imaging, tumoră cardiacă, fibrom, risc embolic, ct cardiac, imagistică cardiacă, Internal medicine, RC31-1245
Abstract

An underlying cardio-embolic cause can be identified in a fifth of stroke patients. Cardiac tumors occur rarely in routine clinical practice but can cause severe complications such as heart failure, valve dysfunction, embolic events, or sudden cardiac death. Herein we present the case of a 67-year-old patient with a history of recurrent stroke in whom a patent foramen ovale (PFO) and a hypermobile structure attached to the aortic valve were diagnosed during a transesophageal examination. The structure was interpreted to be a papillary fibroelastoma. Coronary computed tomography angiography completed the diagnosis, helping to exclude a relevant coronary artery disease. The patient underwent an uneventful cardiac surgery with removal of the hypermobile structure and closure of the PFO. The histopathological analysis, however, was negative for elastin in the elastin stain, and thus the diagnosis of a cardiac fibroma was made. The case emphasizes the role of cardiovascular imaging in stroke patients as well as that of histopathological analysis.

Published
2022
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24. Improving Surgical Training Phantoms by Hyperrealism: Deep Unpaired Image-to-Image Translation from Real Surgeries

Author

Engelhardt, Sandy, De Simone, Raffaele, Full, Peter M., Karck, Matthias, and Wolf, Ivo

Subjects
Computer Science - Computers and Society
Abstract

Current `dry lab' surgical phantom simulators are a valuable tool for surgeons which allows them to improve their dexterity and skill with surgical instruments. These phantoms mimic the haptic and shape of organs of interest, but lack a realistic visual appearance. In this work, we present an innovative application in which representations learned from real intraoperative endoscopic sequences are transferred to a surgical phantom scenario. The term hyperrealism is introduced in this field, which we regard as a novel subform of surgical augmented reality for approaches that involve real-time object transfigurations. For related tasks in the computer vision community, unpaired cycle-consistent Generative Adversarial Networks (GANs) have shown excellent results on still RGB images. Though, application of this approach to continuous video frames can result in flickering, which turned out to be especially prominent for this application. Therefore, we propose an extension of cycle-consistent GANs, named tempCycleGAN, to improve temporal consistency.The novel method is evaluated on captures of a silicone phantom for training endoscopic reconstructive mitral valve procedures. Synthesized videos show highly realistic results with regard to 1) replacement of the silicone appearance of the phantom valve by intraoperative tissue texture, while 2) explicitly keeping crucial features in the scene, such as instruments, sutures and prostheses. Compared to the original CycleGAN approach, tempCycleGAN efficiently removes flickering between frames. The overall approach is expected to change the future design of surgical training simulators since the generated sequences clearly demonstrate the feasibility to enable a considerably more realistic training experience for minimally-invasive procedures., Comment: 8 pages, accepted at MICCAI 2018, supplemental material at https://youtu.be/qugAYpK-Z4M

Published
2018
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26. Heart transplantation across preformed donor-specific antibody barriers using a perioperative desensitization protocol

Author

Sommer, Wiebke, Avsar, Murat, Aburahma, Khalil, Salman, Jawad, Kaufeld, Klaus Tim, Rojas, Sebastian V., Meyer, Anna L., Chichelnitskiy, Evgeny, Süsal, Caner, Kreusser, Michael M., Verboom, Murielle, Hallensleben, Michael, Bara, Christoph, Blasczyk, Rainer, Falk, Christine, Karck, Matthias, Haverich, Axel, Ius, Fabio, and Warnecke, Gregor

Published
2022
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27. Male–female differences following concomitant coronary artery bypass grafting and aortic valve replacement surgery.

Author

Krey, Rebecca, Jakob, Moritz, Karck, Matthias, Arif, Rawa, and Farag, Mina

Subjects
CORONARY artery bypass, AORTIC valve surgery, PREOPERATIVE risk factors, INTERNAL thoracic artery, AORTIC valve transplantation
Abstract

Aims: Combined coronary artery bypass grafting (CABG) and aortic valve replacement (AVR), and female sex are associated with increased perioperative mortality in clinical risk scores. This study investigated male–female differences in short‐term outcome stratified by age groups. Methods and results: All patients undergoing AVR and CABG between January 2001 and June 2021 at our institution were included. 1963 patients were grouped by decades into: 59 years and younger (n = 127), 60–69 (n = 471), 70–79 (n = 1070), and 80 years and older (n = 295). The primary end points of this study were 30 and 180 days mortality. Secondary end points were influence of preoperative risk factors and impact of sex on survival and postoperative major adverse events. Female patients showed higher 30 and 180 days mortality after combined CABG and AVR surgery (8.3% vs. 4.2%, P < 0.01; 15.8% vs. 9.4%, P < 0.01). Stratified by age groups, 30 and 180 days mortality remained significantly higher in septuagenarians (9.6% vs. 2.5%, P < 0.01; 16.3% vs. 7.7%, P < 0.01). Females were significantly older, had better preserved left ventricular function, and higher incidence of diabetes mellitus compared with male patients in this subgroup (P < 0.01; P = 0.01; P < 0.01). Additionally, females received significantly less internal mammary artery (IMA) conduits (P < 0.01). Female sex (OR: 3.33, 95% CI: [1.76–6.31]; 1.93, [1.22–3.06]), higher age (1.28, [1.13–1.45]; 1.16, [1.06–1.26]), diabetes mellitus (1.93, [1.03–3.60]; 1.70, [1.08–2.67]) and LVEF <30% (3.26, [1.48–7.17]; 2.23, [1.24–4.02]) were correlated with 30 and 180 days mortality, respectively. Upon multivariable testing, sex (1.77, [1.21–2.58]) and LVEF <30% (3.71, [2.39–5.76]) remained independent predictors for major adverse postoperative events. Infrequent use of IMA grafts was associated with increased 30 and 180 days mortality as well as adverse events (0.47, [0.25–0.87]; 0.46, [0.29–0.72]; 0.61, [0.42–0.88]). Conclusions: Sex disparities in baseline characteristics may delay operative intervention in female patients. The inherent risk profiles might be responsible for outcome differences in septuagenarians. [ABSTRACT FROM AUTHOR]

Published
2024
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30. Piezo1 and BKCa channels in human atrial fibroblasts: Interplay and remodelling in atrial fibrillation

Author

Jakob, Dorothee, Klesen, Alexander, Allegrini, Benoit, Darkow, Elisa, Aria, Diana, Emig, Ramona, Chica, Ana Simon, Rog-Zielinska, Eva A., Guth, Tim, Beyersdorf, Friedhelm, Kari, Fabian A., Proksch, Susanne, Hatem, Stéphane N., Karck, Matthias, Künzel, Stephan R., Guizouarn, Hélène, Schmidt, Constanze, Kohl, Peter, Ravens, Ursula, and Peyronnet, Rémi

Published
2021
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42. An ex-vivo and in-vitro dynamic simulator for surgical and transcatheter mitral valve interventions

Author

Karl, Roger, primary, Romano, Gabriele, additional, Marx, Josephin, additional, Eden, Matthias, additional, Schlegel, Philipp, additional, Stroh, Lubov, additional, Fischer, Samantha, additional, Hehl, Maximilian, additional, Kühle, Reinald, additional, Mohl, Lukas, additional, Karck, Matthias, additional, Frey, Norbert, additional, De Simone, Raffaele, additional, and Engelhardt, Sandy, additional

Published
2023
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43. Domain gap in adapting self-supervised depth estimation methods for stereo-endoscopy

Author

Sharan Lalith, Burger Lukas, Kostiuchik Georgii, Wolf Ivo, Karck Matthias, De Simone Raffaele, and Engelhardt Sandy

Subjects
computer assisted surgery, depth estimation, endoscopy, Medicine
Abstract

In endoscopy, depth estimation is a task that potentially helps in quantifying visual information for better scene understanding. A plethora of depth estimation algorithms have been proposed in the computer vision community. The endoscopic domain however, differs from the typical depth estimation scenario due to differences in the setup and nature of the scene. Furthermore, it is unfeasible to obtain ground truth depth information owing to an unsuitable detection range of off-the-shelf depth sensors and difficulties in setting up a depth-sensor in a surgical environment. In this paper, an existing self-supervised approach, called Monodepth [1], from the field of autonomous driving is applied to a novel dataset of stereo-endoscopic images from reconstructive mitral valve surgery. While it is already known that endoscopic scenes are more challenging than outdoor driving scenes, the paper performs experiments to quantify the comparison, and describe the domain gap and challenges involved in the transfer of these methods.

Published
2020
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45. Epigenetic regulation of cardiac electrophysiology in atrial fibrillation: HDAC2 determines action potential duration and suppresses NRSF in cardiomyocytes

Author

Lugenbiel, Patrick, Govorov, Katharina, Syren, Pascal, Rahm, Ann-Kathrin, Wieder, Teresa, Wunsch, Maximilian, Weiberg, Nadine, Manolova, Emili, Gramlich, Dominik, Rivinius, Rasmus, Finke, Daniel, Lehmann, Lorenz H., Schweizer, Patrick A., Frank, Derk, El Tahry, Fadwa A., Bruehl, Claus, Heimberger, Tanja, Sandke, Steffi, Weis, Tanja, Most, Patrick, Schmack, Bastian, Ruhparwar, Arjang, Karck, Matthias, Frey, Norbert, Katus, Hugo A., and Thomas, Dierk

Published
2021
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