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4. Transatlantic analysis of patient profiles and mid-term survival after isolated coronary artery bypass grafting: a head-to-head comparison between the European DuraGraft Registry and the US STS Registry

Author

Etem Caliskan, Martin Misfeld, Sigrid Sandner, Andreas Böning, Jose Aramendi, Sacha P. Salzberg, Yeong-Hoon Choi, Louis P. Perrault, Ilker Tekin, Gregorio P. Cuerpo, Jose Lopez-Menendez, Luca P. Weltert, Johannes Böhm, Markus Krane, José M. González-Santos, Juan-Carlos Tellez, Tomas Holubec, Enrico Ferrari, Gheorghe Doros, and Maximilian Y. Emmert

Subjects
CABG, outcome, Europe, United States, mortality, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

IntroductionAlthough cardiovascular surgery societies in Europe and the USA constantly strive for the exchange of knowledge and best practices in coronary artery bypass grafting (CABG), the available evidence on whether such efforts result in similar patient outcomes is limited. Therefore, in the present analysis, we sought to compare patient profiles and overall survival outcomes for up to 3 years between large European and US patient cohorts who underwent isolated CABG.MethodsPatients from the European DuraGraft Registry (n = 2,522) who underwent isolated CABG at 45 sites in eight different European countries between 2016 and 2019 were compared to randomly selected patients from the US STS database who were operated during the same period (n = 294,725). Free conduits (venous and arterial grafts) from the DuraGraft Registry patients were intraoperatively stored in DuraGraft, an endothelial damage inhibitor, before anastomosis, whereas grafts from the STS Registry patients in standard-of-care solutions (e.g., saline). Propensity score matching (PSM) models were used to account for differences in patient baseline and surgical characteristics, using a primary PSM with 35 variables (2,400 patients matched) and a secondary PSM with 25 variables (2,522 patients matched, sensitivity analysis). The overall survival for up to 3 years after CABG was assessed as the primary endpoint.ResultsThe comparison of patient profiles showed significant differences between the European and US cohorts. The European patients had more left main disease, underwent more off-pump CABG, and received more arterial grafts together with more complete arterial grafting procedures. In contrast, the US patients received more distal anastomoses with more saphenous vein grafts (SVGs) that were mainly harvested endoscopically. Such differences, however, were well balanced after PSM for the mortality comparison. Mortality comparison at 30 days, 12 months, and 24 months between the European and US patients was 2.38% vs. 1.96%, 4.32% vs. 4.79%, and 5.38% vs. 6.96%, respectively. At 36 months, the mortality was significantly lower in the European patients than that of their US counterparts (7.37% vs. 9.65%; p-value = 0.016). The estimated hazard ratio (HR) was 1.29 (95% CI 1.05–1.59).ConclusionThis large-scale transatlantic comparative analysis shows that there are some significant differences in patient profiles between large cohorts of European and US patients. These differences were adjusted by using PSM for the mortality analysis. No significant difference in mortality was detected between groups through 2 years, but survival was significantly better in the European DuraGraft Registry patients at 3 years post-CABG.

Published
2024
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6. Development of an iPSC-derived tissue-resident macrophage-based platform for the in vitro immunocompatibility assessment of human tissue engineered matrices

Author

Nikolaos Poulis, Marcy Martin, Simon P. Hoerstrup, Maximilian Y. Emmert, and Emanuela S. Fioretta

Subjects
Resident tissue macrophages, Induced pluripotent stem cells, iPSC-derived macrophages, Tissue culture, Extracellular matrix, Mass spectroscopy, Medicine, Science
Abstract

Abstract Upon implanting tissue-engineered heart valves (TEHVs), blood-derived macrophages are believed to orchestrate the remodeling process. They initiate the immune response and mediate the remodeling of the TEHV, essential for the valve’s functionality. The exact role of another macrophage type, the tissue-resident macrophages (TRMs), has not been yet elucidated even though they maintain the homeostasis of native tissues. Here, we characterized the response of hTRM-like cells in contact with a human tissue engineered matrix (hTEM). HTEMs comprised intracellular peptides with potentially immunogenic properties in their ECM proteome. Human iPSC-derived macrophages (iMφs) could represent hTRM-like cells in vitro and circumvent the scarcity of human donor material. iMφs were derived and after stimulation they demonstrated polarization towards non-/inflammatory states. Next, they responded with increased IL-6/IL-1β secretion in separate 3/7-day cultures with longer production-time-hTEMs. We demonstrated that iMφs are a potential model for TRM-like cells for the assessment of hTEM immunocompatibility. They adopt distinct pro- and anti-inflammatory phenotypes, and both IL-6 and IL-1β secretion depends on hTEM composition. IL-6 provided the highest sensitivity to measure iMφs pro-inflammatory response. This platform could facilitate the in vitro immunocompatibility assessment of hTEMs and thereby showcase a potential way to achieve safer clinical translation of TEHVs.

Published
2024
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8. Targeting Lipoprotein(a): Can RNA Therapeutics Provide the Next Step in the Prevention of Cardiovascular Disease?

Author

Henriette Thau, Sebastian Neuber, Maximilian Y. Emmert, and Timo Z. Nazari-Shafti

Subjects
Cardiovascular disease, Elevated Lp(a) levels, Lipoprotein(a), Lepodisiran (LY3819469), Olpasiran, Pelacarsen, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Abstract Numerous genetic and epidemiologic studies have demonstrated an association between elevated levels of lipoprotein(a) (Lp[a]) and cardiovascular disease. As a result, lowering Lp(a) levels is widely recognized as a promising strategy for reducing the risk of new-onset coronary heart disease, stroke, and heart failure. Lp(a) consists of a low-density lipoprotein-like particle with covalently linked apolipoprotein A (apo[a]) and apolipoprotein B-100, which explains its pro-thrombotic, pro-inflammatory, and pro-atherogenic properties. Lp(a) serum concentrations are genetically determined by the apo(a) isoform, with shorter isoforms having a higher rate of particle synthesis. To date, there are no approved pharmacological therapies that effectively reduce Lp(a) levels. Promising treatment approaches targeting apo(a) expression include RNA-based drugs such as pelacarsen, olpasiran, SLN360, and lepodisiran, which are currently in clinical trials. In this comprehensive review, we provide a detailed overview of RNA-based therapeutic approaches and discuss the recent advances and challenges of RNA therapeutics specifically designed to reduce Lp(a) levels and thus the risk of cardiovascular disease.

Published
2024
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9. Gender-Tailored Heart Team Decision Making Equalizes Outcomes for Female Patients after Aortic Valve Replacement through Right Anterior Small Thoracotomy (RAST)

Author

Isabel Lavanchy, Laina Passos, Thierry Aymard, Jürg Grünenfelder, Maximilian Y. Emmert, Roberto Corti, Oliver Gaemperli, Patric Biaggi, and Diana Reser

Subjects
minimally invasive aortic valve replacement (MIAVR), right anterior small thoracotomy (RAST), minimally invasive aortic valve surgery, aortic valve replacement, gender-related outcomes, aortic stenosis, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Background: Little is known about gender-dependent outcomes after aortic valve replacement (AVR) through right anterior thoracotomy (RAST). The aim of our study was to analyze the mid-term outcomes of our cohort. Methods: This study is a retrospective analysis of 338 patients (2013–2022). Subgroup analysis included a gender-dependent comparison of age groups ≤60 and >60 years. Results: Women were older (69.27 ± 7.98 vs. 64.15 ± 11.47, p < 0.001) with higher Euroscore II (1.25 ± 0.73 vs. 0.94 ± 0.45, p < 0.001). Bypass and cross-clamp time were shorter (109.36 ± 30.8 vs. 117.65 ± 33.1 minutes, p = 0.01; 68.26 ± 21.5 vs. 74.36 ± 23.3 minutes, p = 0.01), while ICU, hospital stay and atrial fibrillation were higher (2.48 ± 8.2 vs. 1.35 ± 1.4 days, p = 0.005; 11 ± 7.8 vs. 9.48 ± 2.3 days, p = 0.002; 6.7% vs. 4.4%, p = 0.024). Mortality was 0.9%, while stroke was 0.6%. Age subgroup analysis showed that women were older (p = 0.025) with longer ICU and hospital stays (p < 0.001, p = 0.007). On mid-term follow-up (4.52 ± 2.67 years) of 315 patients (94.3%), there was no significant difference in survival, MACCE and re-intervention comparing gender and age groups. Conclusions: Despite older age, higher Euroscore II, longer ICU and hospital stay in women, mortality, MACCE and reoperation were low and comparable in gender and age groups. We believe that our patient-tailored heart team decision making combined with RAST translates into gender-tailored medicine, which equalizes the widely reported negative outcomes of female patients after cardiac surgery.

Published
2024
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12. Consensus statement—graft treatment in cardiovascular bypass graft surgery

Author

Maximilian Y. Emmert, Johannes Bonatti, Etem Caliskan, Mario Gaudino, Martin Grabenwöger, Martin T. Grapow, Paul Phillip Heinisch, Teresa Kieser-Prieur, Ki-Bong Kim, Attila Kiss, Fatima Mouriquhe, Markus Mach, Adrianna Margariti, John Pepper, Louis P. Perrault, Bruno K. Podesser, John Puskas, David P. Taggart, Om P. Yadava, and Bernhard Winkler

Subjects
CABG, endothelium, heart, radial artery, VEST, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Coronary artery bypass grafting (CABG) is and continues to be the preferred revascularization strategy in patients with multivessel disease. Graft selection has been shown to influence the outcomes following CABG. During the last almost 60 years saphenous vein grafts (SVG) together with the internal mammary artery have become the standard of care for patients undergoing CABG surgery. While there is little doubt about the benefits, the patency rates are constantly under debate. Despite its acknowledged limitations in terms of long-term patency due to intimal hyperplasia, the saphenous vein is still the most often used graft. Although reendothelialization occurs early postoperatively, the process of intimal hyperplasia remains irreversible. This is due in part to the persistence of high shear forces, the chronic localized inflammatory response, and the partial dysfunctionality of the regenerated endothelium. “No-Touch” harvesting techniques, specific storage solutions, pressure controlled graft flushing and external stenting are important and established methods aiming to overcome the process of intimal hyperplasia at different time levels. Still despite the known evidence these methods are not standard everywhere. The use of arterial grafts is another strategy to address the inferior SVG patency rates and to perform CABG with total arterial revascularization. Composite grafting, pharmacological agents as well as latest minimal invasive techniques aim in the same direction. To give guide and set standards all graft related topics for CABG are presented in this expert opinion document on graft treatment.

Published
2024
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16. A clinical study to evaluate the safe and effective use of a new, single use stethoscope cover to enable reduction in pathogen transmission during auscultation

Author

Timo Z. Nazari-Shafti, Heike Meyborg, Jasper Iske, Maximilian Schloss, Fabian Seeber, Aljona Friedrich, Vasileios Exarchos, Anja Richter, Volkmar Falk, and Maximilian Y. Emmert

Subjects
stethoscope, nosocomial infections, auscultation, transmission, polymer, Medicine (General), R5-920
Abstract

ObjectivesStethoscopes carry a significant risk for pathogen transmission. Here, the safe use and performance of a new, non-sterile, single-use stethoscope cover (SC), that is impermeable for pathogens, was investigated by different healthcare professionals (HCPs) in the postoperative care setting of an intensive care unit (ICU).MethodsFifty-four patients underwent routine auscultations with the use of the SC (Stethoglove®, Stethoglove GmbH, Hamburg, Germany). The participating HCPs (n = 34) rated each auscultation with the SC on a 5-point Likert scale. The mean ratings of acoustic quality and the SC handling were defined as primary and secondary performance endpoint.Results534 auscultations with the SC were performed (average 15.7/user) on the lungs (36.1%), the abdomen (33.2%), the heart (28.8%), or other body-sites (1.9%). No adverse device-effects occurred. The acoustic quality was rated at 4.2 ± 0.7 (mean) with a total of 86.1% of all auscultations being rated at least as 4/5, and with no rating as below 2. The SC handling was rated at 3.7 ± 0.8 (mean) with a total of 96.4% of all auscultations being rated at least 3/5.ConclusionUsing a real-world setting, this study demonstrates that the SC can be safely and effectively used as cover for stethoscopes during auscultation. The SC may therefore represent a useful and easy-to-implement tool for preventing stethoscope-mediated infections.Study Registration: EUDAMED no. CIV-21-09-037762.

Published
2023
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17. Transatlantic analysis of patient profiles and mid-term survival after isolated coronary artery bypass grafting: a head-to-head comparison between the European DuraGraft Registry and the US STS Registry.

Author

Caliskan, Etem, Misfeld, Martin, Sandner, Sigrid, Böning, Andreas, Aramendi, Jose, Salzberg, Sacha P., Yeong-Hoon Choi, Perrault, Louis P., Tekin, Ilker, Cuerpo, Gregorio P., Lopez-Menendez, Jose, Weltert, Luca P., Böhm, Johannes, Krane, Markus, González-Santos, José M., Tellez, Juan-Carlos, Holubec, Tomas, Ferrari, Enrico, Doros, Gheorghe, and Emmert, Maximilian Y.

Published
2024
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19. Heart Valve Bioengineering

Author

Fioretta, Emanuela S., Motta, Sarah E., Gähwiler, Eric K. N., Poulis, Nikolaos, Emmert, Maximilian Y., Hoerstrup, Simon P., Eberli, Daniel, editor, Lee, Sang Jin, editor, and Traweger, Andreas, editor

Published
2021
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20. Whole patient knowledge modeling of COVID-19 symptomatology reveals common molecular mechanisms

Author

Stephan Brock, David B. Jackson, Theodoros G. Soldatos, Klaus Hornischer, Anne Schäfer, Francesca Diella, Maximilian Y. Emmert, and Simon P. Hoerstrup

Subjects
COVID-19, SARS-CoV-2, molecular mechanisms, evidence-based medicine, hypothesis generation, disease modelling, Computer applications to medicine. Medical informatics, R858-859.7
Abstract

Infection with SARS-CoV-2 coronavirus causes systemic, multi-faceted COVID-19 disease. However, knowledge connecting its intricate clinical manifestations with molecular mechanisms remains fragmented. Deciphering the molecular basis of COVID-19 at the whole-patient level is paramount to the development of effective therapeutic approaches. With this goal in mind, we followed an iterative, expert-driven process to compile data published prior to and during the early stages of the pandemic into a comprehensive COVID-19 knowledge model. Recent updates to this model have also validated multiple earlier predictions, suggesting the importance of such knowledge frameworks in hypothesis generation and testing. Overall, our findings suggest that SARS-CoV-2 perturbs several specific mechanisms, unleashing a pathogenesis spectrum, ranging from “a perfect storm” triggered by acute hyper-inflammation, to accelerated aging in protracted “long COVID-19” syndromes. In this work, we shortly report on these findings that we share with the community via 1) a synopsis of key evidence associating COVID-19 symptoms and plausible mechanisms, with details presented within 2) the accompanying “COVID-19 Explorer” webserver, developed specifically for this purpose (found at https://covid19.molecularhealth.com). We anticipate that our model will continue to facilitate clinico-molecular insights across organ systems together with hypothesis generation for the testing of potential repurposing drug candidates, new pharmacological targets and clinically relevant biomarkers. Our work suggests that whole patient knowledge models of human disease can potentially expedite the development of new therapeutic strategies and support evidence-driven clinical hypothesis generation and decision making.

Published
2023
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21. The COVID-19 explorer—An integrated, whole patient knowledge model of COVID-19 disease

Author

Stephan Brock, Theodoros G. Soldatos, David B. Jackson, Francesca Diella, Klaus Hornischer, Anne Schäfer, Simon P. Hoerstrup, and Maximilian Y. Emmert

Subjects
SARS-CoV-2, molecular mechanisms, disease modeling, evidence-based medicine, translational research, Computer applications to medicine. Medical informatics, R858-859.7
Abstract

Since early 2020 the COVID-19 pandemic has paralyzed the world, resulting in more than half a billion infections and over 6 million deaths within a 28-month period. Knowledge about the disease remains largely disjointed, especially when considering the molecular mechanisms driving the diversity of clinical manifestations and symptoms. Despite the recent availability of vaccines, there remains an urgent need to develop effective treatments for cases of severe disease, especially in the face of novel virus variants. The complexity of the situation is exacerbated by the emergence of COVID-19 as a complex and multifaceted systemic disease affecting independent tissues and organs throughout the body. The development of effective treatment strategies is therefore predicated on an integrated understanding of the underlying disease mechanisms and their potentially causative link to the diversity of observed clinical phenotypes. To address this need, we utilized a computational technology (the Dataome platform) to build an integrated clinico-molecular view on the most important COVID-19 clinical phenotypes. Our results provide the first integrated, whole-patient model of COVID-19 symptomatology that connects the molecular lifecycle of SARS-CoV-2 with microvesicle-mediated intercellular communication and the contact activation and kallikrein-kinin systems. The model not only explains the clinical pleiotropy of COVID-19, but also provides an evidence-driven framework for drug development/repurposing and the identification of critical risk factors. The associated knowledge is provided in the form of the open source COVID-19 Explorer (https://covid19.molecularhealth.com), enabling the global community to explore and analyze the key molecular features of systemic COVID-19 and associated implications for research priorities and therapeutic strategies. Our work suggests that knowledge modeling solutions may offer important utility in expediting the global response to future health emergencies.

Published
2022
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23. Anisotropic topographies restore endothelial monolayer integrity and promote the proliferation of senescent endothelial cells

Author

Vasileios Exarchos, Sebastian Neuber, Heike Meyborg, Costanza Giampietro, Nafsika Chala, Silvia Moimas, Hristian Hinkov, Friedrich Kaufmann, Francesca M. Pramotton, Katrin Krüger, Hector Rodriguez Cetina Biefer, Nikola Cesarovic, Dimos Poulikakos, Volkmar Falk, Maximilian Y. Emmert, Aldo Ferrari, and Timo Z. Nazari-Shafti

Subjects
endothelial cells, monolayer integrity, proliferation, topography, anisotropy, senescence, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Thrombogenicity remains a major issue in cardiovascular implants (CVIs). Complete surficial coverage of CVIs by a monolayer of endothelial cells (ECs) prior to implantation represents a promising strategy but is hampered by the overall logistical complexity and the high number of cells required. Consequently, extensive cell expansion is necessary, which may eventually lead to replicative senescence. Considering that micro-structured surfaces with anisotropic topography may promote endothelialization, we investigated the impact of gratings on the biomechanical properties and the replicative capacity of senescent ECs. After cultivation on gridded surfaces, the cells showed significant improvements in terms of adherens junction integrity, cell elongation, and orientation of the actin filaments, as well as enhanced yes-associated protein nuclear translocation and cell proliferation. Our data therefore suggest that micro-structured surfaces with anisotropic topographies may improve long-term endothelialization of CVIs.

Published
2022
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24. Endothelial‐Smooth Muscle Cell Interactions in a Shear‐Exposed Intimal Hyperplasia on‐a‐Dish Model to Evaluate Therapeutic Strategies

Author

Andreia Fernandes, Arnaud Miéville, Franziska Grob, Tadahiro Yamashita, Julia Mehl, Vahid Hosseini, Maximilian Y. Emmert, Volkmar Falk, and Viola Vogel

Subjects
drug screening, endothelial cell networks, flow, in vitro coculture model, vascular injury, Science
Abstract

Abstract Intimal hyperplasia (IH) represents a major challenge following cardiovascular interventions. While mechanisms are poorly understood, the inefficient preventive methods incentivize the search for novel therapies. A vessel‐on‐a‐dish platform is presented, consisting of direct‐contact cocultures with human primary endothelial cells (ECs) and smooth muscle cells (SMCs) exposed to both laminar pulsatile and disturbed flow on an orbital shaker. With contractile SMCs sitting below a confluent EC layer, a model that successfully replicates the architecture of a quiescent vessel wall is created. In the novel IH model, ECs are seeded on synthetic SMCs at low density, mimicking reendothelization after vascular injury. Over 3 days of coculture, ECs transition from a network conformation to confluent 2D islands, as promoted by pulsatile flow, resulting in a “defected” EC monolayer. In defected regions, SMCs incorporated plasma fibronectin into fibers, increased proliferation, and formed multilayers, similarly to IH in vivo. These phenomena are inhibited under confluent EC layers, supporting therapeutic approaches that focus on endothelial regeneration rather than inhibiting proliferation, as illustrated in a proof‐of‐concept experiment with Paclitaxel. Thus, this in vitro system offers a new tool to study EC‐SMC communication in IH pathophysiology, while providing an easy‐to‐use translational disease model platform for low‐cost and high‐content therapeutic development.

Published
2022
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25. Macrophage-extracellular matrix interactions: Perspectives for tissue engineered heart valve remodeling

Author

Nikolaos Poulis, Marcy Martin, Simon P. Hoerstrup, Maximilian Y. Emmert, and Emanuela S. Fioretta

Subjects
collagen, fibronectin, inflammation, regenerative medicine, scaffold functionalization, immune response, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

In situ heart valve tissue engineering approaches have been proposed as promising strategies to overcome the limitations of current heart valve replacements. Tissue engineered heart valves (TEHVs) generated from in vitro grown tissue engineered matrices (TEMs) aim at mimicking the microenvironmental cues from the extracellular matrix (ECM) to favor integration and remodeling of the implant. A key role of the ECM is to provide mechanical support to and attract host cells into the construct. Additionally, each ECM component plays a critical role in regulating cell adhesion, growth, migration, and differentiation potential. Importantly, the immune response to the implanted TEHV is also modulated biophysically via macrophage-ECM protein interactions. Therefore, the aim of this review is to summarize what is currently known about the interactions and signaling networks occurring between ECM proteins and macrophages, and how these interactions may impact the long-term in situ remodeling outcomes of TEMs. First, we provide an overview of in situ tissue engineering approaches and their clinical relevance, followed by a discussion on the fundamentals of the remodeling cascades. We then focus on the role of circulation-derived and resident tissue macrophages, with particular emphasis on the ramifications that ECM proteins and peptides may have in regulating the host immune response. Finally, the relevance of these findings for heart valve tissue engineering applications is discussed.

Published
2022
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26. The path to a hemocompatible cardiovascular implant: Advances and challenges of current endothelialization strategies

Author

Vasileios Exarchos, Ema Zacharova, Sebastian Neuber, Costanza Giampietro, Sarah E. Motta, Hristian Hinkov, Maximilian Y. Emmert, and Timo Z. Nazari-Shafti

Subjects
cardiovascular implants, hemocompatibility, endothelialization, valves, topography, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Cardiovascular (CV) implants are still associated with thrombogenicity due to insufficient hemocompatibility. Endothelialization of their luminal surface is a promising strategy to increase their hemocompatibility. In this review, we provide a collection of research studies and review articles aiming to summarize the recent efforts on surface modifications of CV implants, including stents, grafts, valves, and ventricular assist devises. We focus in particular on the implementation of micrometer or nanoscale surface modifications, physical characteristics of known biomaterials (such as wetness and stiffness), and surface morphological features (such as gratings, fibers, pores, and pits). We also review how biomechanical signals originating from the endothelial cell for surface interaction can be directed by topography engineering approaches toward the survival of the endothelium and its long-term adaptation. Finally, we summarize the regulatory and economic challenges that may prevent clinical implementation of endothelialized CV implants.

Published
2022
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27. Dos and don'ts in large animal models of aortic insufficiency

Author

Miriam Weisskopf, Lukas Glaus, Nina E. Trimmel, Melanie M. Hierweger, Andrea S. Leuthardt, Marian Kukucka, Thorald Stolte, Christian T. Stoeck, Volkmar Falk, Maximilian Y. Emmert, Markus Kofler, and Nikola Cesarovic

Subjects
large animal model, aortic valve, paravalvular leakage, aortic insufficiency (AI), Minimally invasive, PV loop, Veterinary medicine, SF600-1100
Abstract

Aortic insufficiency caused by paravalvular leakage (PVL) is one of the most feared complications following transcatheter aortic valve replacement (TAVI) in patients. Domestic pigs (Sus scrofa domestica) are a popular large animal model to study such conditions and develop novel diagnostic and therapeutic techniques. However, the models based on prosthetic valve implantation are time intensive, costly, and often hamper further hemodynamic measurements such as PV loop and 4D MRI flow by causing implantation-related wall motion abnormalities and degradation of MR image quality. This study describes in detail, the establishment of a minimally invasive porcine model suitable to study the effects of mild-to-moderate “paravalvular“ aortic regurgitation on left ventricular (LV) performance and blood flow patterns, particularly under the influence of altered afterload, preload, inotropic state, and heart rate. Six domestic pigs (Swiss large white, female, 60–70 kg of body weight) were used to establish this model. The defects on the hinge point of aortic leaflets and annulus were created percutaneously by the pierce-and-dilate technique either in the right coronary cusp (RCC) or in the non-coronary cusp (NCC). The hemodynamic changes as well as LV performance were recorded by PV loop measurements, while blood flow patterns were assessed by 4D MRI. LV performance was additionally challenged by pharmaceutically altering cardiac inotropy, chronotropy, and afterload. The presented work aims to elaborate the dos and don'ts in porcine models of aortic insufficiency and intends to steepen the learning curve for researchers planning to use this or similar models by giving valuable insights ranging from animal selection to vascular access choices, placement of PV Loop catheter, improvement of PV loop data acquisition and post-processing and finally the induction of paravalvular regurgitation of the aortic valve by a standardized and reproducible balloon induced defect in a precisely targeted region of the aortic valve.

Published
2022
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28. Graft preservation confers myocardial protection during coronary artery bypass grafting

Author

Philipp Szalkiewicz, Maximilian Y. Emmert, Paul P. Heinisch, Zsuzsanna Arnold, Ingo Crailsheim, Markus Mach, Thomas Aschacher, Martin Grabenwöger, and Bernhard Winkler

Subjects
vein graft preservation, storage solutions, myocardium, protection, coronary artery, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

BackgroundDuring on-pump coronary artery bypass grafting (ONCAB), graft flushing for distal anastomoses testing also perfuses the downstream myocardium. This single-center retrospective study evaluated the impact of specific preservation solutions on myocardial protection during ONCAB.Materials and methodsBetween July 2019 and March 2020 either DuraGraft (DG) or 0.9% Saline/Biseko (SB) was applied to 272 ONCAB. Overall, 166 patients were propensity-matched into two groups. Cardiac enzymes [high-sensitive Troponin I (hs-TnI) and creatine kinase (CK)] were evaluated 7 days post-surgery.ResultsPost-surgery, hs-TnI values were significantly lower from 3 to 6 h (h) up to 4 days in the DG group: 3–6 h: 4,034 ng/L [IQR 1,853–8,654] vs. 5,532 ng/L [IQR 3,633—8,862], p = 0.05; 12–24 h: 2,420 ng/L [IQR 1,408–5,782] vs. 4,166 [IQR 2,052–8,624], p < 0.01; 2 days: 1,095 ng/L [IQR 479–2,311] vs. 1,564 ng/L [IQR 659–5,057], p = 0.02 and at 4 days: 488 ng/L [IQR 232–1,061] vs. 745 ng/L [IQR 319–1,820], p = 0.03. The maximum value: 4,151 ng/L [IQR 2,056–8,621] vs. 6,349 ng/L [IQR 4,061–12,664], p < 0.01 and the median area under the curve (AUC): 6,146 ng/L/24 h [IQR 3,121–13,248] vs. 10,735 ng/L/24 h [IQR 4,859–21,484], p = 0.02 were lower in the DG group. CK values were not significantly different between groups: maximum value 690 [IQR 417–947] vs. 631 [464–979], p = 0.61 and AUC 1,986 [1,226–2,899] vs. 2,081 [1,311–3,063], p = 0.37.ConclusionRepeated graft flushing with DG resulted in lower Troponin values post-surgery suggesting enhanced myocardial protection compared to SB. Additional studies are warranted to further assess the myocardial protection properties of DG.

Published
2022
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29. 3D-microtissue derived secretome as a cell-free approach for enhanced mineralization of scaffolds in the chorioallantoic membrane model

Author

Lukas Otto, Petra Wolint, Annina Bopp, Anna Woloszyk, Anton S. Becker, Andreas Boss, Roland Böni, Maurizio Calcagni, Pietro Giovanoli, Simon P. Hoerstrup, Maximilian Y. Emmert, and Johanna Buschmann

Subjects
Medicine, Science
Abstract

Abstract Bone regeneration is a complex process and the clinical translation of tissue engineered constructs (TECs) remains a challenge. The combination of biomaterials and mesenchymal stem cells (MSCs) may enhance the healing process through paracrine effects. Here, we investigated the influence of cell format in combination with a collagen scaffold on key factors in bone healing process, such as mineralization, cell infiltration, vascularization, and ECM production. MSCs as single cells (2D-SCs), assembled into microtissues (3D-MTs) or their corresponding secretomes were combined with a collagen scaffold and incubated on the chicken embryo chorioallantoic membrane (CAM) for 7 days. A comprehensive quantitative analysis was performed on a cellular level by histology and by microcomputed tomography (microCT). In all experimental groups, accumulation of collagen and glycosaminoglycan within the scaffold was observed over time. A pronounced cell infiltration and vascularization from the interface to the surface region of the CAM was detected. The 3D-MT secretome showed a significant mineralization of the biomaterial using microCT compared to all other conditions. Furthermore, it revealed a homogeneous distribution pattern of mineralization deposits in contrast to the cell-based scaffolds, where mineralization was only at the surface. Therefore, the secretome of MSCs assembled into 3D-MTs may represent an interesting therapeutic strategy for a next-generation bone healing concept.

Published
2021
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30. Local electromechanical alterations determine the left ventricle rotational dynamics in CRT-eligible heart failure patients

Author

Tomasz Jadczyk, Radoslaw Kurzelowski, Krzysztof S. Golba, Jacek Wilczek, Guido Caluori, Francesco Maffessanti, Jolanta Biernat, Katarzyna Gruszczynska, Magdalena Cybulska, Maximilian Y. Emmert, Zofia Parma, Kamil Baranski, Mieczyslaw Dutka, Barbara Kalanska-Lukasik, Zdenek Starek, and Wojciech Wojakowski

Subjects
Medicine, Science
Abstract

Abstract Left ventricle, LV wringing wall motion relies on physiological muscle fiber orientation, fibrotic status, and electromechanics (EM). The loss of proper EM activation can lead to rigid-body-type (RBT) LV rotation, which is associated with advanced heart failure (HF) and challenges in resynchronization. To describe the EM coupling and scar tissue burden with respect to rotational patterns observed on the LV in patients with ischemic heart failure with reduced ejection fraction (HFrEF) left bundle branch block (LBBB). Thirty patients with HFrEF/LBBB underwent EM analysis of the left ventricle using an invasive electro-mechanical catheter mapping system (NOGA XP, Biosense Webster). The following parameters were evaluated: rotation angle; rotation velocity; unipolar/bipolar voltage; local activation time, LAT; local electro-mechanical delay, LEMD; total electro-mechanical delay, TEMD. Patients underwent late-gadolinium enhancement cMRI when possible. The different LV rotation pattern served as sole parameter for patients’ grouping into two categories: wringing rotation (Group A, n = 6) and RBT rotation (Group B, n = 24). All parameters were aggregated into a nine segment, three sector and whole LV models, and compared at multiple scales. Segmental statistical analysis in Group B revealed significant inhomogeneities, across the LV, regarding voltage level, scar burdening, and LEMD changes: correlation analysis showed correspondently a loss of synchronization between electrical (LAT) and mechanical activation (TEMD). On contrary, Group A (relatively low number of patients) did not present significant differences in LEMD across LV segments, therefore electrical (LAT) and mechanical (TEMD) activation were well synchronized. Fibrosis burden was in general associated with areas of low voltage. The rotational behavior of LV in HF/LBBB patients is determined by the local alteration of EM coupling. These findings serve as a strong basic groundwork for a hypothesis that EM analysis may predict CRT response. Clinical trial registration: SUM No. KNW/0022/KB1/17/15.

Published
2021
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31. Cell-Based HIF1α Gene Therapy Reduces Myocardial Scar and Enhances Angiopoietic Proteome, Transcriptomic and miRNA Expression in Experimental Chronic Left Ventricular Dysfunction

Author

Edit Gara, Sang-Ging Ong, Johannes Winkler, Katrin Zlabinger, Dominika Lukovic, Bela Merkely, Maximilian Y. Emmert, Petra Wolint, Simon P. Hoerstrup, Mariann Gyöngyösi, Joseph C. Wu, and Noemi Pavo

Subjects
chronic ischemic heart failure, porcine infarction model, mesenchymal stem cells, minicircle vector, HIF1α, adverse remodeling, Biotechnology, TP248.13-248.65
Abstract

Recent preclinical investigations and clinical trials with stem cells mostly studied bone-marrow-derived mononuclear cells (BM-MNCs), which so far failed to meet clinically significant functional study endpoints. BM-MNCs containing small proportions of stem cells provide little regenerative potential, while mesenchymal stem cells (MSCs) promise effective therapy via paracrine impact. Genetic engineering for rationally enhancing paracrine effects of implanted stem cells is an attractive option for further development of therapeutic cardiac repair strategies. Non-viral, efficient transfection methods promise improved clinical translation, longevity and a high level of gene delivery. Hypoxia-induced factor 1α is responsible for pro-angiogenic, anti-apoptotic and anti-remodeling mechanisms. Here we aimed to apply a cellular gene therapy model in chronic ischemic heart failure in pigs. A non-viral circular minicircle DNA vector (MiCi) was used for in vitro transfection of porcine MSCs (pMSC) with HIF1α (pMSC-MiCi-HIF-1α). pMSCs-MiCi-HIF-1α were injected endomyocardially into the border zone of an anterior myocardial infarction one month post-reperfused-infarct. Cell injection was guided via 3D-guided NOGA electro-magnetic catheter delivery system. pMSC-MiCi-HIF-1α delivery improved cardiac output and reduced myocardial scar size. Abundances of pro-angiogenic proteins were analyzed 12, 24 h and 1 month after the delivery of the regenerative substances. In a protein array, the significantly increased angiogenesis proteins were Activin A, Angiopoietin, Artemin, Endothelin-1, MCP-1; and remodeling factors ADAMTS1, FGFs, TGFb1, MMPs, and Serpins. In a qPCR analysis, increased levels of angiopeptin, CXCL12, HIF-1α and miR-132 were found 24 h after cell-based gene delivery, compared to those in untreated animals with infarction and in control animals. Expression of angiopeptin increased already 12 h after treatment, and miR-1 expression was reduced at that time point. In total, pMSC overexpressing HIF-1α showed beneficial effects for treatment of ischemic injury, mediated by stimulation of angiogenesis.

Published
2022
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32. Endothelial Progenitor Cell-Based in vitro Pre-Endothelialization of Human Cell-Derived Biomimetic Regenerative Matrices for Next-Generation Transcatheter Heart Valves Applications

Author

Sarah E. Motta, Polina Zaytseva, Emanuela S. Fioretta, Valentina Lintas, Christian Breymann, Simon P. Hoerstrup, and Maximilian Y. Emmert

Subjects
human cell-derived tissue-engineered matrices, endothelial colony forming cell, anti-coagulation, hemocomaptibility, scratch assay, HPL, Biotechnology, TP248.13-248.65
Abstract

Hemocompatibility of cardiovascular implants represents a major clinical challenge and, to date, optimal antithrombotic properties are lacking. Next-generation tissue-engineered heart valves (TEHVs) made from human-cell-derived tissue-engineered extracellular matrices (hTEMs) demonstrated their recellularization capacity in vivo and may represent promising candidates to avoid antithrombotic therapy. To further enhance their hemocompatibility, we tested hTEMs pre-endothelialization potential using human-blood-derived endothelial-colony-forming cells (ECFCs) and umbilical vein cells (control), cultured under static and dynamic orbital conditions, with either FBS or hPL. ECFCs performance was assessed via scratch assay, thereby recapitulating the surface damages occurring in transcatheter valves during crimping procedures. Our study demonstrated: feasibility to form a confluent and functional endothelium on hTEMs with expression of endothelium-specific markers; ECFCs migration and confluency restoration after crimping tests; hPL-induced formation of neo-microvessel-like structures; feasibility to pre-endothelialize hTEMs-based TEHVs and ECFCs retention on their surface after crimping. Our findings may stimulate new avenues towards next-generation pre-endothelialized implants with enhanced hemocompatibility, being beneficial for selected high-risk patients.

Published
2022
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33. Differential Leaflet Remodeling of Bone Marrow Cell Pre-Seeded Versus Nonseeded Bioresorbable Transcatheter Pulmonary Valve Replacements

Author

Fioretta, Emanuela S., Lintas, Valentina, Mallone, Anna, Motta, Sarah E., von Boehmer, Lisa, Dijkman, Petra E., Cesarovic, Nikola, Caliskan, Etem, Rodriguez Cetina Biefer, Héctor, Lipiski, Miriam, Sauer, Mareike, Putti, Matilde, Janssen, Henk M., Söntjens, Serge H., Smits, Anthal I.P.M., Bouten, Carlijn V.C., Emmert, Maximilian Y., and Hoerstrup, Simon P.

Published
2020
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34. Consensus statement—graft treatment in cardiovascular bypass graft surgery

Author

Emmert, Maximilian Y., primary, Bonatti, Johannes, additional, Caliskan, Etem, additional, Gaudino, Mario, additional, Grabenwöger, Martin, additional, Grapow, Martin T., additional, Heinisch, Paul Phillip, additional, Kieser-Prieur, Teresa, additional, Kim, Ki-Bong, additional, Kiss, Attila, additional, Mouriquhe, Fatima, additional, Mach, Markus, additional, Margariti, Adrianna, additional, Pepper, John, additional, Perrault, Louis P., additional, Podesser, Bruno K., additional, Puskas, John, additional, Taggart, David P., additional, Yadava, Om P., additional, and Winkler, Bernhard, additional

Published
2024
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36. Epicardial left atrial appendage occlusion with a new medical device: assessment of procedural feasibility, safety and efficacy in a large animal model

Author

Maximilian Y. Emmert, Michael S. Firstenberg, Arthur T. Martella, Liming Lau, Stephen Zlock, Ashik Mohan, Taylor Spangler, Sarah Currie, Sacha P. Salzberg, and Etem Caliskan

Subjects
Atrial fibrillation, Stroke, Oral anticoagulation, Left atrial appendage occlusion, Warfarin, Epicardial, Surgery, RD1-811, Anesthesiology, RD78.3-87.3
Abstract

Abstract Background Left atrial appendage occlusion (LAAO) represents a treatment alternative to anticoagulation in patients with atrial fibrillation. We evaluate a novel device for epicardial LAAO in a translational canine model. Methods Nine hounds (n = 9) were used to assess usability, safety, and efficacy of the TigerPaw Pro (TPP) device for epicardial LAAO. Following baseline imaging (intra-cardiac echocardiography (ICE) and angiography) and intraoperative visual inspection, usability was tested via a ``closure/re-opening`` maneuver followed by deployment of a total of twenty TPP devices (n = 20) on the left and right atrial appendages respectively. Procedural safety was evaluated by assessing for adverse-events via direct Epicardial inspection and endocardial imaging. Efficacy evaluation included assessment of device positioning, presence of residual stumps and completeness of closure. Post-mortem evaluation was performed to confirm safety and efficacy. Results Usability testing of all TPP devices was successful (n = 20;100%, delivery-time range 22–120 s) without any procedural adverse-events (tissue damage or tears, bleeding, vessel-impingement, structural impact). All devices fully traversed the ostium (n = 18) or appendage body (n = 2), and conformed smoothly to adjacent cardiac anatomy. In nineteen deployments (n = 19;95%), all device connector pairs were fully engaged, while in one TPP device the most distal pair remained unengaged. ICE and post-mortem inspections revealed complete closure of all appendage ostia (n = 18;100%) and only in one case a small residual stump was detected. Intraoperative safety findings were further confirmed post-mortem. Devices created a nearly smooth line of closure via symmetric endocardial tissue-coaptation. Conclusions In this preclinical model, the TPP demonstrated good ease of use for ostial access, ability to re-position (after engagement) and rapid deployment, while achieving safe and effective LAAO.

Published
2020
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37. Differential Leaflet Remodeling of Bone Marrow Cell Pre-Seeded Versus Nonseeded Bioresorbable Transcatheter Pulmonary Valve Replacements

Author

Emanuela S. Fioretta, PhD, Valentina Lintas, PhD, Anna Mallone, PhD, Sarah E. Motta, PhD, Lisa von Boehmer, DVM, Petra E. Dijkman, PhD, Nikola Cesarovic, DVM, PhD, Etem Caliskan, MD, Héctor Rodriguez Cetina Biefer, MD, Miriam Lipiski, DVM, Mareike Sauer, DVM, Matilde Putti, PhD, Henk M. Janssen, PhD, Serge H. Söntjens, PhD, Anthal I.P.M. Smits, PhD, Carlijn V.C. Bouten, PhD, Maximilian Y. Emmert, MD, PhD, and Simon P. Hoerstrup, MD, PhD

Subjects
Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Summary: This study showed that bone marrow mononuclear cell pre-seeding had detrimental effects on functionality and in situ remodeling of bioresorbable bisurea-modified polycarbonate (PC-BU)-based tissue-engineered heart valves (TEHVs) used as transcatheter pulmonary valve replacement in sheep. We also showed heterogeneous valve and leaflet remodeling, which affects PC-BU TEHV safety, challenging their potential for clinical translation. We suggest that bone marrow mononuclear cell pre-seeding should not be used in combination with PC-BU TEHVs. A better understanding of cell–scaffold interaction and in situ remodeling processes is needed to improve transcatheter valve design and polymer absorption rates for a safe and clinically relevant translation of this approach. Key Words: cardiovascular regenerative medicine, endogenous tissue regeneration, in situ tissue engineering, supramolecular polymer, tissue-engineered heart valve

Published
2020
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39. Local electromechanical alterations determine the left ventricle rotational dynamics in CRT-eligible heart failure patients

Author

Jadczyk, Tomasz, Kurzelowski, Radoslaw, Golba, Krzysztof S., Wilczek, Jacek, Caluori, Guido, Maffessanti, Francesco, Biernat, Jolanta, Gruszczynska, Katarzyna, Cybulska, Magdalena, Emmert, Maximilian Y., Parma, Zofia, Baranski, Kamil, Dutka, Mieczyslaw, Kalanska-Lukasik, Barbara, Starek, Zdenek, and Wojakowski, Wojciech

Published
2021
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40. Pathology and Advanced Imaging—Characterization of a Congenital Cardiac Defect and Complex Hemodynamics in a Pig: A Case Report

Author

Alexandra J. Malbon, Miriam Weisskopf, Lukas Glaus, Sebastian Neuber, Maximilian Y. Emmert, Christian T. Stoeck, and Nikola Cesarovic

Subjects
large animal models, cardiovascular imaging, congenital heart defects, cardiovascular pathology, atrial septal defect, blood flow, Veterinary medicine, SF600-1100
Abstract

Domestic pigs are widely used in cardiovascular research as the porcine circulatory system bears a remarkable resemblance to that of humans. In order to reduce variability, only clinically healthy animals enter the study as their health status is assessed in entry examination. Like humans, pigs can also suffer from congenital heart disease, such as an atrial septal defect (ASD), which often remains undetected. Due to the malformation of the endocardial cushion during organ development, mitral valve defects (e.g., mitral clefts) are sometimes associated with ASDs, further contributing to hemodynamic instability. In this work, we report an incidental finding of a hemodynamically highly relevant ASD in the presence of incompetent mitral and tricuspid valves, in an asymptomatic, otherwise healthy juvenile pig. In-depth characterization of the cardiac blood flow by four-dimensional (4D) flow magnetic resonance imaging (MRI) revealed a prominent diastolic left-to-right and discrete systolic right-to-left shunt, resulting in a pulmonary-to-systemic flow ratio of 1.8. Severe mitral (15 mL/stroke) and tricuspid (22 mL/stroke) regurgitation further reduced cardiac output. Pathological examination confirmed the presence of an ostium primum ASD and found a serous cyst of lymphatic origin that was filled with clear fluid partially occluding the ASD. A large mitral cleft was identified as the most likely cause of severe regurgitation, and histology showed mild to moderate endocardiosis in the coaptation area of both atrio-ventricular valves. In summary, although not common, congenital heart defects could play a role as a cause of experimental variability or even intra-experimental mortality when working with apparently heathy, juvenile pigs.

Published
2021
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42. A Novel Endothelial Damage Inhibitor Reduces Oxidative Stress and Improves Cellular Integrity in Radial Artery Grafts for Coronary Artery Bypass

Author

Thomas Aschacher, Ulrike Baranyi, Olivia Aschacher, Eva Eichmair, Barbara Messner, Daniel Zimpfer, Roxana Moayedifar, Guenther Laufer, Maximilian Y. Emmert, and Sigrid E. Sandner

Subjects
endothelial damage inhibitor, radial artery, bypass graft failure, coronary artery bypass grafting, oxidative damage, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

The radial artery (RA) is a frequently used conduit in coronary artery bypass grafting (CABG). Endothelial injury incurred during graft harvesting promotes oxidative damage, which leads to graft disease and graft failure. We evaluated the protective effect of DuraGraft®, an endothelial damage inhibitor (EDI), on RA grafts. We further compared the protective effect of the EDI between RA grafts and saphenous vein grafts (SVG). Samples of RA (n = 10) and SVG (n = 13) from 23 patients undergoing CABG were flushed and preserved with either EDI or heparinized Ringer's lactate solution (RL). The effect of EDI vs. RL on endothelial damage was evaluated ex vivo and in vitro using histological analysis, immunofluorescence staining, Western blot, and scanning electron microscopy. EDI-treated RA grafts showed a significant reduction of endothelial and sub-endothelial damage. Lower level of reactive oxygen species (ROS) after EDI treatment was correlated with a reduction of hypoxic damage (eNOS and Caveolin-1) and significant increase of oxidation-reduction potential. Additionally, an increased expression of TGFβ, PDGFα/β, and HO-1 which are indicative for vascular protective function were observed after EDI exposure. EDI treatment preserves functionality and integrity of endothelial and intimal cells. Therefore, EDI may have the potential to reduce the occurrence of graft disease and failure in RA grafts in patients undergoing CABG.

Published
2021
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43. Heart Valve Bioengineering

Author

Fioretta, Emanuela S., primary, Motta, Sarah E., additional, Gähwiler, Eric K. N., additional, Poulis, Nikolaos, additional, Emmert, Maximilian Y., additional, and Hoerstrup, Simon P., additional

Published
2021
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44. Septaly Oriented Mild Aortic Regurgitant Jets Negatively Influence Left Ventricular Blood Flow—Insights From 4D Flow MRI Animal Study

Author

Nikola Cesarovic, Miriam Weisskopf, Mareike Kron, Lukas Glaus, Eva S. Peper, Stefano Buoso, Simon Suendermann, Marko Canic, Volkmar Falk, Sebastian Kozerke, Maximilian Y. Emmert, and Christian T. Stoeck

Subjects
paravalvular leakage, 4D flow MRI, vortex formation, intraventricular hemodynamics, aortic regurgitation, mild regurgitation, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Objectives: Paravalvular leakage (PVL) and eccentric aortic regurgitation remain a major clinical concern in patients receiving transcatheter aortic valve replacement (TAVR), and regurgitant volume remains the main readout parameter in clinical assessment. In this work we investigate the effect of jet origin and trajectory of mild aortic regurgitation on left ventricular hemodynamics in a porcine model.Methods: A pig model of mild aortic regurgitation/PVL was established by transcatheter piercing and dilating the non-coronary (NCC) or right coronary cusp (RCC) of the aortic valve close to the valve annulus. The interaction between regurgitant blood and LV hemodynamics was assessed by 4D flow cardiovascular MRI.Results: Six RCC, six NCC, and two control animals were included in the study and with one dropout in the NCC group, the success rate of model creation was 93%. Regurgitant jets originating from NCC were directed along the ventricular side of the anterior mitral leaflet and integrated well into the diastolic vortex forming in the left ventricular outflow tract. However, jets from the RCC were orientated along the septum colliding with flow within the vortex, and progressing down to the apex. As a consequence, the presence as well as the area of the vortex was reduced at the site of impact compared to the NCC group. Impairment of vortex formation was localized to the area of impact and not the entire vortex ring. Blood from the NCC jet was largely ejected during the following systole, whereas ejection of large portion of RCC blood was protracted.Conclusions: Even for mild regurgitation, origin and trajectory of the regurgitant jet does cause a different effect on LV hemodynamics. Septaly oriented jets originating from RCC collide with the diastolic vortex, reduce its size, and reach the apical region of the left ventricle where blood resides extendedly. Hence, RCC jets display hemodynamic features which may have a potential negative impact on the long-term burden to the heart.

Published
2021
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45. Human iPSCs and Genome Editing Technologies for Precision Cardiovascular Tissue Engineering

Author

Eric K. N. Gähwiler, Sarah E. Motta, Marcy Martin, Bramasta Nugraha, Simon P. Hoerstrup, and Maximilian Y. Emmert

Subjects
human induced pluripotent stem cells (hiPSCs), CRISPR-Cas9, cardiovascular tissue engineering, regenerative medicine, cardiovascular disease modeling, 3D cell culture systems, Biology (General), QH301-705.5
Abstract

Induced pluripotent stem cells (iPSCs) originate from the reprogramming of adult somatic cells using four Yamanaka transcription factors. Since their discovery, the stem cell (SC) field achieved significant milestones and opened several gateways in the area of disease modeling, drug discovery, and regenerative medicine. In parallel, the emergence of clustered regularly interspaced short palindromic repeats (CRISPR)-associated protein 9 (CRISPR-Cas9) revolutionized the field of genome engineering, allowing the generation of genetically modified cell lines and achieving a precise genome recombination or random insertions/deletions, usefully translated for wider applications. Cardiovascular diseases represent a constantly increasing societal concern, with limited understanding of the underlying cellular and molecular mechanisms. The ability of iPSCs to differentiate into multiple cell types combined with CRISPR-Cas9 technology could enable the systematic investigation of pathophysiological mechanisms or drug screening for potential therapeutics. Furthermore, these technologies can provide a cellular platform for cardiovascular tissue engineering (TE) approaches by modulating the expression or inhibition of targeted proteins, thereby creating the possibility to engineer new cell lines and/or fine-tune biomimetic scaffolds. This review will focus on the application of iPSCs, CRISPR-Cas9, and a combination thereof to the field of cardiovascular TE. In particular, the clinical translatability of such technologies will be discussed ranging from disease modeling to drug screening and TE applications.

Published
2021
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46. Intracoronary delivery of extracellular vesicles from human cardiac progenitor cells reduces infarct size in porcine acute myocardial infarction.

Author

Emmert, Maximilian Y, Burrello, Jacopo, Wolint, Petra, Hilbe, Monika, Andriolo, Gabriella, Balbi, Carolina, Provasi, Elena, Turchetto, Lucia, Radrizzani, Marina, Nazari-Shafti, Timo Z, Cesarovic, Nikola, Neuber, Sebastian, Falk, Volkmar, Hoerstrup, Simon P, Hemetsberger, Rayyan, Gyöngyösi, Mariann, Barile, Lucio, and Vassalli, Giuseppe

Subjects
MYOCARDIAL reperfusion, MYOCARDIAL infarction, EXTRACELLULAR vesicles, HEART cells, PROGENITOR cells, PRASUGREL, PREGNANCY proteins, CARDIAC magnetic resonance imaging
Abstract

This article discusses a study that evaluated the potential use of small extracellular vesicles (sEVs) derived from human cardiac progenitor cells (CPCs) for the treatment of acute myocardial infarction (AMI). The study compared the delivery of sEVs through intramyocardial (IM) and intracoronary (IC) routes in a porcine model of AMI. The results showed that IC delivery of sEVs was more effective in reducing scar size, improving heart function, promoting blood vessel growth, and reducing myocardial fibrosis. The study suggests that IC delivery of clinical-grade sEVs could be a promising treatment option for AMI patients, but further research is needed to validate these findings. [Extracted from the article]

Published
2024
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47. Intracoronary delivery of extracellular vesicles from human cardiac progenitor cells reduces infarct size in porcine acute myocardial infarction

Author

Emmert, Maximilian Y, primary, Burrello, Jacopo, additional, Wolint, Petra, additional, Hilbe, Monika, additional, Andriolo, Gabriella, additional, Balbi, Carolina, additional, Provasi, Elena, additional, Turchetto, Lucia, additional, Radrizzani, Marina, additional, Nazari-Shafti, Timo Z, additional, Cesarovic, Nikola, additional, Neuber, Sebastian, additional, Falk, Volkmar, additional, Hoerstrup, Simon P, additional, Hemetsberger, Rayyan, additional, Gyöngyösi, Mariann, additional, Barile, Lucio, additional, and Vassalli, Giuseppe, additional

Published
2023
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48. Acute Pulmonary Artery Dissection With an Ongoing Extrinsic Myocardial Infarction

Author

Vedran Savic, MD, PhD, Larissa Baradaran Rahmanian, MD, Tobias Renner, MD, Maximilian Y. Emmert, MD, PhD, and Carlos A. Mestres, MD, PhD

Subjects
acute myocardial infarction, pulmonary artery aneurysm, pulmonary artery dissection, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

A patient with chronic pulmonary artery hypertension and acute dissection of a main and right pulmonary aneurysm (82 mm) presented with acute myocardial infarction and cardiogenic shock secondary to compression of the left main coronary artery. She required emergency pulmonary artery replacement. She ultimately died due to multiorgan failure and sepsis. (Level of Difficulty: Intermediate.)

Published
2019
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49. A novel endothelial damage inhibitor for the treatment of vascular conduits in coronary artery bypass grafting: protocol and rationale for the European, multicentre, prospective, observational DuraGraft registry

Author

Etem Caliskan, Sigrid Sandner, Martin Misfeld, Jose Aramendi, Sacha P. Salzberg, Yeong-Hoon Choi, Vilas Satishchandran, Geeta Iyer, Louis P. Perrault, Andreas Böning, and Maximilian Y. Emmert

Subjects
Saphenous vein graft, Vein graft failure, Myocardial infarction, Coronary artery bypass grafting, Patency, Endothelial damage inhibitor, Surgery, RD1-811, Anesthesiology, RD78.3-87.3
Abstract

Abstract Background Vein graft disease (VGD) impairs graft patency rates and long-term outcomes after coronary artery bypass grafting (CABG). DuraGraft is a novel endothelial-damage inhibitor developed to efficiently protect the structural and functional integrity of the vascular endothelium. The DuraGraft registry will evaluate the long-term clinical outcomes of DuraGraft in patients undergoing CABG procedures. Methods This ongoing multicentre, prospective observational registry will enrol 3000 patients undergoing an isolated CABG procedure or a combined procedure (ie, CABG plus valve surgery or other surgery) with at least one saphenous vein grafts or one free arterial graft (ie, radial artery or mammary artery). If a patient is enrolled, all free grafts (SVG and arterial will be treated with DuraGraft. Data on baseline, clinical, and angiographic characteristics as well as procedural and clinical events will be collected. The primary outcome measure is the occurrence of a major adverse cardiac event (MACE; defined as death, non-fatal myocardial-infarction, or need for repeat-revascularisation). Secondary outcome measures are the occurrence of major adverse cardiac and cerebrovascular events (MACCE; defined as death, non-fatal myocardial-infarction, repeat-revascularisation, or stroke), patient-reported quality of life, and health-economic data. Patient assessments will be performed during hospitalisation, at 1-month, 1-year, and annually thereafter to 5 years post-CABG. Events will be adjudicated by an independent clinical events committee. This European, multi-institutional registry will provide detailed insights into clinical outcome associated with DuraGraft. Discussion This European, multi-institutional registry will provide detailed insights into clinical outcome associated with the use of DuraGraft. Beyond that, and given the comprehensive data sets comprising of patient, procedural, and graft parameters that are being collected, the registry will enable for multiple subgroup analyses targeting focus groups or specific clinical questions. These may include analysis of subpopulations such as patients with diabetes or multimorbid high-risk patients (patient level), evaluation of relevance of harvesting technique including endoscopic versus open conduit harvesting (procedural level), or particular graft-specific aspects (conduit level). Trial registration ClinicalTrials.gov NCT02922088. Registered October 3, 2016. Ethics and dissemination The regional ethics committees have approved the registry. Results will be submitted for publication.

Published
2019
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50. Heart Valve Bioengineering

Author

Fioretta, Emanuela S., primary, Motta, Sarah E., additional, Gähwiler, Eric K. N., additional, Poulis, Nikolaos, additional, Emmert, Maximilian Y., additional, and Hoerstrup, Simon P., additional

Published
2020
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