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3. Dobutamine stress echocardiography remains indispensable for the diagnosis of low-flow low-gradient severe aortic stenosis

Author

Adrichem, R, primary, Bouwmeester, S, additional, Abdelkarim, O, additional, Vogel, B, additional, Blusztein, D I, additional, Veulemans, V, additional, Kuneman, J H, additional, Geleijnse, M, additional, Bax, J J, additional, Bertrand, P B, additional, Kodali, S K, additional, Mehran, R, additional, Little, S H, additional, Houthuizen, P, additional, and Van Mieghem, N M, additional

Published
2023
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4. OP0224 LACK OF FOLYLPOLYGLUTAMATE SYNTHETASE ACTIVITY AND METHOTREXATE POLYGLUTAMYLATION AS UNDERLYING MECHANISMS EXPLAINING WHY METHOTREXATE DOES NOT IMPAIR SPERM QUALITY

Author

Perez-Garcia, L. F., primary, Lin, M., additional, Röder, E., additional, Kranenburg - van Koppen, L. J., additional, Krijthe, B., additional, Van Adrichem, R., additional, Zirkzee, E., additional, Van Doorn, M., additional, Dolhe, G., additional, Griffioen, P., additional, Struys, E., additional, Jansen, G., additional, De Jonge, R., additional, and Dolhain, R., additional

Published
2023
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17. Edoxaban Monotherapy and Incidence of Transcatheter Heart Valve Leaflet Thrombosis - The Rotterdam Edoxaban (REDOX) Study.

Author

Adrichem R, van Wiechen MP, Knol WG, Hokken TW, Ooms JF, van den Dorpel MMP, Verhemel S, Kardys I, Nuis RJ, Daemen J, Hirsch A, Budde RPJ, and Van Mieghem NM

Abstract

Background: Trials comparing non-vitamin K oral anticoagulant (NOAC) versus antiplatelet-based strategies have shown a reduction of subclinical leaflet thrombosis at the cost of increased mortality and major-bleedings. NOACs were often combined with antiplatelet therapy., Aims: The Rotterdam Edoxaban (REDOX) study aimed to evaluate the impact of edoxaban monotherapy on the incidence of hypo-attenuated leaflet thickening (HALT) and reduced leaflet motion (RLM) and to evaluate safety in terms of mortality, thromboembolic events and major bleeding., Methods: The REDOX study is a single-arm, open-label trial including patients after successful transcatheter aortic valve implantation (TAVI) with no formal indication for oral anticoagulation or dual antiplatelet therapy. Patients received edoxaban monotherapy for 3 months, followed by multislice computed tomography (MSCT). The primary endpoint was the occurrence of HALT. Clinical follow-up continued up to 1 year after TAVI., Results: We included 58 patients, of which 50 reached study completion including MSCT scanning and eight withdrew consent before end of study. At 3-months follow-up, HALT of any grade was detected in 12.0% (95% confidence interval (CI): 5.0%-23.1%) of patients. HALT grade ≥ 3 occurred in 4.0% (95% CI: 0.8%-12.2%) of patients. At 1 year follow-up, all patients were alive and free of disabling strokes. Three patients had a non-disabling stroke and one patient had a major bleeding., Conclusions: In the REDOX study, edoxaban monotherapy after TAVI was associated with a 12.0% incidence of any HALT and a 4.0% incidence of HALT grade ≥ 3. HALT was not associated with clinical events., (© 2024 Wiley Periodicals LLC.)

Published
2024
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18. Three-Year Outcomes Following TAVR in Younger (<75 Years) Low-Surgical-Risk Severe Aortic Stenosis Patients.

Author

Modine T, Tchétché D, Van Mieghem NM, Deeb GM, Chetcuti SJ, Yakubov SJ, Sorajja P, Gada H, Mumtaz M, Ramlawi B, Bajwa T, Crouch J, Teirstein PS, Kleiman NS, Iskander A, Bagur R, Chu MWA, Berthoumieu P, Sudre A, Adrichem R, Ito S, Huang J, Popma JJ, Forrest JK, and Reardon MJ

Subjects
Humans, Male, Female, Aged, Treatment Outcome, Risk Factors, Time Factors, Risk Assessment, Age Factors, Middle Aged, Heart Valve Prosthesis Implantation adverse effects, Heart Valve Prosthesis Implantation mortality, Heart Valve Prosthesis Implantation instrumentation, Prosthesis Design, Bioprosthesis, Aortic Valve Stenosis surgery, Aortic Valve Stenosis mortality, Aortic Valve Stenosis diagnostic imaging, Aortic Valve Stenosis physiopathology, Transcatheter Aortic Valve Replacement adverse effects, Transcatheter Aortic Valve Replacement mortality, Transcatheter Aortic Valve Replacement instrumentation, Aortic Valve surgery, Aortic Valve diagnostic imaging, Aortic Valve physiopathology, Severity of Illness Index, Heart Valve Prosthesis, Stroke mortality, Stroke etiology
Abstract

Background: Transcatheter aortic valve replacement (TAVR) is an alternative to surgery in patients with severe aortic stenosis, but data are limited on younger, low-risk patients. This analysis compares outcomes in low-surgical-risk patients aged <75 years receiving TAVR versus surgery., Methods: The Evolut Low Risk Trial randomized 1414 low-risk patients to treatment with a supra-annular, self-expanding TAVR or surgery. We compared rates of all-cause mortality or disabling stroke, associated clinical outcomes, and bioprosthetic valve performance at 3 years between TAVR and surgery patients aged <75 years., Results: In patients <75 years, 352 were randomized to TAVR and 351 to surgery. Mean age was 69.1±4.0 years (minimum 51 and maximum 74); Society of Thoracic Surgeons Predicted Risk of Mortality was 1.7±0.6%. At 3 years, all-cause mortality or disabling stroke for TAVR was 5.7% and 8.0% for surgery ( P =0.241). Although there was no difference between TAVR and surgery in all-cause mortality, the incidence of disabling stroke was lower with TAVR (0.6%) than surgery (2.9%; P =0.019), while surgery was associated with a lower incidence of pacemaker implantation (7.1%) compared with TAVR (21.0%; P <0.001). Valve reintervention rates (TAVR 1.5%, surgery 1.5%, P =0.962) were low in both groups. Valve performance was significantly better with TAVR than surgery with lower mean aortic gradients ( P <0.001) and lower rates of severe prosthesis-patient mismatch ( P <0.001). Rates of valve thrombosis and endocarditis were similar between groups. There were no significant differences in rates of residual ≥moderate paravalvular regurgitation., Conclusions: Low-risk patients <75 years treated with supra-annular, self-expanding TAVR had comparable 3-year all-cause mortality and lower disabling stroke compared with patients treated with surgery. There was significantly better valve performance in patients treated with TAVR., Registration: URL: https://clinicaltrials.gov; Unique identifier: NCT02701283., Competing Interests: Dr Modine is a consultant and Senior Advisory Board member for Medtronic. Dr Tchétché is a consultant for Medtronic. Dr Van Mieghem receives grants from Medtronic during the conduct of the trial and grants from Abbott Vascular, Edwards Lifesciences, Boston Scientific, Abiomed, PulseCath BV, and Daiichi Sankyo outside the submitted work. Dr Chetcuti receives personal fees from Medtronic; grants from Edwards, Boston Scientific, and Jena (paid to institution) during conduct of trial; and on an advisory board for Biotrace and Jena valve without remuneration. Dr Yakubov receives grants from Boston Scientific and Medtronic (paid to institution) and personal fees from Medtronic during the conduct of the trial. Dr Sorajja is a consultant to Boston Scientific and Medtronic. Dr Gada receives personal fees from Medtronic, Abbott Vascular, Becton Dickenson, and Boston Scientific outside the submitted work. Dr Mumtaz is a consultant and has received honoraria and research grants from Medtronic, Edwards, Atricure, Teleflex, Foldax, Japanese Organization for Medical Device Development, and Abbott. Dr Ramlawi receives grants, personal fees, and nonfinancial support from Medtronic, Liva Nova, and AtriCure. Dr Bajwa is a consultant for Medtronic. Dr Teirstein receives research grant and honoraria from Abbott, Boston Scientific, Cordis, and Medtronic, and serves on an advisory board for Boston Scientific and Medtronic. Dr Kleiman receives clinical trial reimbursement to his institution (Houston Methodist DeBakey Heart and Vascular Center) during the conduct of the trial. Dr Bagur serves as a consultant for Medtronic. Dr Chu receives Speakers’ honoraria from Medtronic, Edwards Lifesciences, Terumo Aortic and Artivion. Dr Huang is an employee and shareholder of Medtronic, plc. Dr Popma is a full-time employee and shareholder for Medtronic. Dr Forrest receives grant support/research contracts and consultant fees/honoraria/Speakers Bureau fees from Edwards Lifesciences and Medtronic. Dr Reardon receives grants from Medtronic (paid to institution) during conduct of trial, and consulting fees from Abbott, Boston Scientific, and Gore Medical (paid to institution) outside of the submitted work. The other authors report no conflicts.

Published
2024
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19. Computed tomography to predict pacemaker need after transcatheter aortic valve replacement.

Author

Verhemel S, Nuis RJ, van den Dorpel M, Adrichem R, de Sá Marchi MF, Hirsch A, Daemen J, Budde RPJ, and Van Mieghem NM

Subjects
Humans, Treatment Outcome, Risk Factors, Cardiac Pacing, Artificial, Arrhythmias, Cardiac etiology, Arrhythmias, Cardiac physiopathology, Arrhythmias, Cardiac therapy, Arrhythmias, Cardiac diagnostic imaging, Risk Assessment, Cardiac-Gated Imaging Techniques, Electrocardiography, Heart Conduction System physiopathology, Heart Conduction System diagnostic imaging, Patient-Specific Modeling, Aged, Transcatheter Aortic Valve Replacement adverse effects, Aortic Valve Stenosis surgery, Aortic Valve Stenosis diagnostic imaging, Aortic Valve Stenosis physiopathology, Predictive Value of Tests, Computed Tomography Angiography, Pacemaker, Artificial, Aortic Valve surgery, Aortic Valve diagnostic imaging, Aortic Valve physiopathology
Abstract

Transcatheter aortic valve replacement (TAVR) is preferred therapy for elderly patients with severe aortic stenosis (AS) and increasingly used in younger patient populations with good safety and efficacy outcomes. However, cardiac conduction abnormalities remain a frequent complication after TAVR ranging from relative benign interventriculair conduction delays to prognostically relevant left bundle branch block and complete atrio-ventricular (AV) block requiring permanent pacemaker implantation (PPI). Although clinical, procedural and electrocardiographic factors have been identified as predictors of this complication, there is a need for advanced strategies to control the burden of conduction defects particularly as TAVR shifts towards younger populations. This state of the art review highlights the value of ECG-synchronized computed tomographic angiography (CTA) evaluation of the aortic root to better understand and manage conduction problems post-TAVR. An update on CTA derived anatomic features related to conduction issues is provided and complemented with computational framework modelling. This CTA-derived 3-dimensional anatomical reconstruction tool generates patient-specific TAVR simulations enabling operators to adapt procedural strategy and implantation technique to mitigate conduction abnormality risks., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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20. Demographics and outcomes of patients younger than 75 years undergoing aortic valve interventions in Rotterdam.

Author

Adrichem R, Mattace-Raso AM, Hokken TW, van den Dorpel MMP, de Ronde MJAG, Lenzen MJ, Cummins PA, Kardys I, Nuis RJ, Daemen J, Bekkers JA, and Van Mieghem NM

Abstract

Background: Transcatheter aortic valve implantation (TAVI) is considered a safe and effective alternative to surgical aortic valve replacement (SAVR) for elderly patients across the operative risk spectrum. In the Netherlands, TAVI is reimbursed only for patients with a high operative risk. Despite this, one fifth of TAVI patients are < 75 years of age. We aim to compare patient characteristics and outcomes of TAVI and SAVR patients < 75 years., Methods: This study included all patients < 75 years without active endocarditis undergoing TAVI or SAVR for severe aortic stenosis, mixed aortic valve disease or degenerated aortic bioprosthesis between 2015 and 2020 at the Erasmus University Medical Centre. Dutch authority guidelines were used to classify operative risk., Results: TAVI was performed in 292 patients, SAVR in 386 patients. Based on the Dutch risk algorithm, 59.6% of TAVI patients and 19.4% of SAVR patients were at high operative risk. There was no difference in 30-day all-cause mortality between TAVI and SAVR (2.4% vs 0.8%, p = 0.083). One-year and 5‑year mortality was higher after TAVI than after SAVR (1-year: 12.5% vs 4.3%, p < 0.001; 5‑year: 36.8% vs 12.0%, p < 0.001). Within risk categories we found no difference between treatment strategies. Independent predictors of mortality were cardiovascular comorbidities (left ventricular ejection fraction < 30%, atrial fibrillation, pulmonary hypertension) and the presence of malignancies, liver cirrhosis or immunomodulatory drug use., Conclusion: At the Erasmus University Medical Centre, in patients < 75 years, TAVI is selected for higher-risk phenotypes and overall has higher long-term mortality than SAVR. We found no evidence for worse outcome within risk categories., (© 2024. The Author(s).)

Published
2024
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21. Impact and limitations of 3D computational modelling in transcatheter mitral valve replacement-a two-centre Dutch experience.

Author

van den Dorpel MMP, de Sá Marchi MF, Rahhab Z, Ooms JF, Adrichem R, Verhemel S, Ren CB, Nuis RJ, Daemen J, Hirsch A, Van den Branden BJL, and Van Mieghem NM

Abstract

Background: Transcatheter mitral valve replacement (TMVR) has emerged as a minimally invasive alternative to mitral valve surgery for patients at high or prohibitive operative risk. Prospective studies reported favourable outcomes in patients with annulus calcification (valve-in-mitral annulus calcification; ViMAC), failed annuloplasty ring (mitral valve-in-ring; MViR), and bioprosthetic mitral valve dysfunction (mitral valve-in-valve; MViV). Multi-slice computed tomography (MSCT)-derived 3D-modelling and simulations may provide complementary anatomical perspectives for TMVR planning., Aims: We aimed to illustrate the implementation of MSCT-derived modelling and simulations in the workup of TMVR for ViMAC, MViR, and MViV., Methods: For this retrospective study, we included all consecutive patients screened for TMVR and compared MSCT data, echocardiographic outcomes and clinical outcomes., Results: Sixteen out of 41 patients were treated with TMVR (ViMAC n = 9, MViR n = 3, MViV n = 4). Eleven patients were excluded for inappropriate sizing, 4 for anchoring issues and 10 for an unacceptable risk of left ventricular outflow tract obstruction (LVOTO) based on 3D modelling. There were 3 procedure-related deaths and 1 non-procedure-related cardiovascular death during 30 days of follow-up. LVOTO occurred in 3 ViMAC patients and 1 MViR patient, due to deeper valve implantation than planned in 3 patients, and anterior mitral leaflet displacement with recurrent basal septum thickening in 1 patient. TMVR significantly reduced mitral mean gradients as compared with baseline measurements (median mean gradient 9.5 (9.0-11.5) mm Hg before TMVR versus 5.0 (4.5-6.0) mm Hg after TMVR, p = 0.03). There was no residual mitral regurgitation at 30 days., Conclusion: MSCT-derived 3D modelling and simulation provide valuable anatomical insights for TMVR with transcatheter balloon expandable valves in ViMAC, MViR and MViV. Further planning iterations should target the persistent risk for neo-LVOTO., Competing Interests: Conflict of interest: N.M. Van Mieghem: Grants or contracts: Abbott, Boston Scientific, Biotronic, Edwards Lifesciences, Medtronic, Pulsecath BV, Abiomed, Daiichi Sankyo. Consulting Fees: Jenavalve, Daiichi Sankyo, Abbott, Boston Scientific, Medtronic. Payment or honoraria for lectures, presentations, speakers, manuscripts and educational events: Abiomed, Amgen, Jenavalve. J. Daemen: Grants or contracts: Astra Zeneca, Abbott Vascular, Boston Scientific, ACIST Medical, Medtronic, Microport, Pie Medical, and ReCor medical. Consultancy and speaker fees: Abbott Vascular, Abiomed, ACIST medical, Boston Scientific, Cardialysis BV, CardiacBooster, Kaminari Medical, ReCor Medical, PulseCath, Pie Medical, Sanofi, Siemens and Medtronic. A. Hirsch: Grants, consultancy fees: GE Healthcare. Speaker fees: GE Healthcare and Bayer. He is also a member of the medical advisory board of Medis Medical Imaging Systems. Alexander Hirsch is an Editor for the Netherlands Heart Journal. M.M.P. van den Dorpel, M.F. de Sá Marchi, Z. Rahhab, J.F. Ooms, R. Adrichem, S. Verhemel, C.B. Ren, R.-J. Nuis and B.J.L. Van den Branden declare that they have no competing interests., (© 2024. The Author(s).)

Published
2024
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22. Treatment of Transcatheter Aortic Valve Thrombosis: JACC Review Topic of the Week.

Author

Adrichem R, Rodes Cabau J, Mehran R, Park DW, Ten Berg JM, de Backer O, Hengstenberg C, Budde RPJ, Dangas GD, Makkar R, and Van Mieghem NM

Subjects
Humans, Anticoagulants therapeutic use, Anticoagulants administration & dosage, Fibrinolytic Agents therapeutic use, Aortic Valve surgery, Heart Valve Prosthesis adverse effects, Transcatheter Aortic Valve Replacement adverse effects, Transcatheter Aortic Valve Replacement methods, Thrombosis prevention & control, Thrombosis etiology
Abstract

Transcatheter aortic valve (TAV) thrombosis may manifest as subclinical leaflet thrombosis (SLT) and clinical valve thrombosis. SLT is relatively common (10%-20%) after transcatheter aortic valve replacement, but clinical implications are uncertain. Clinical valve thrombosis is rare (1.2%) and associated with bioprosthetic valve failure, neurologic or thromboembolic events, heart failure, and death. Treatment for TAV thrombosis has been understudied. In principle, anticoagulation may prevent TAV thrombosis. Non-vitamin K oral anticoagulants, as compared to antiplatelet therapy, are associated with reduced incidence of SLT, although at the cost of higher bleeding and all-cause mortality risk. We present an overview of existing literature for management of TAV thrombosis and propose a rational treatment algorithm. Vitamin K antagonists or non-vitamin K oral anticoagulants are the cornerstone of antithrombotic treatment. In therapy-resistant or clinically unstable patients, ultraslow, low-dose infusion of thrombolytics seems effective and safe and may be preferred over redo-transcatheter aortic valve replacement or explant surgery., Competing Interests: Funding Support and Author Disclosures Dr Cabau has received institutional research grants and consultant/speaker fees from Edwards Lifesciences and Medtronic. Dr Mehran has received institutional research payments from Abbott, Abiomed, Affluent Medical, Alleviant Medical, Amgen, AM-Pharma, Arena, AstraZeneca, AtriCure Inc, Biosensors, Biotronik, Boston Scientific, Bristol Myers Squibb, CardiaWave, CeloNova, CERC, Chiesi, Cleerly Health Inc, Concept Medical, Cytosorbents, Daiichi-Sankyo, Duke, Element Science, Essential Medical, Faraday, Idorsia Pharmaceuticals, Janssen, MedAlliance, Mediasphere, Medtelligence, Medtronic, MJH Healthcare, Novartis, OrbusNeich, Penumbra, PhaseBio, Philips, Pi-Cardia, PLx Pharma, Population Health Research Institute, Protembis, RecCor Medical Inc, RenalPro, RM Global, Sanofi, Shockwave, Vivasure, and Zoll; has received personal fees from Affluent Medical, Boehringer Ingelheim, Cardiovascular Research Foundation (CRF), Cordis, Daiichi-Sankyo Brasil, E.R. Squibb & Sons, Esperion Science/Innovative Biopharma, Europa Group/Boston Scientific, Gaffney Events, Educational Trust, Henry Ford Health Cardiology, Ionis Pharmaceuticals, Lilly and Company, MedCon International, Novartis, NovoNordisk, PeerView Institute for Medical Education, TERUMO Europe N.V., Vectura, VoxMedia, WebMD, IQVIA, Radcliffe, and TARSUS Cardiology; has received honorarium payments from JAMA Cardiology (Associate Editor), and the ACC (BOT Member, SC Member CTR Program); and has equity <1% in Elixir Medical, Stel, CntrolRad (spouse). Dr Park has received grants from Daiichi-Sankyo, ChongKunDang Pharm, and Daewoong Pharm; has received personal fees from Edwards and Medtronic; and has received grants and personal fees from Abbott Vascular. Dr Ten Berg has received institutional grant support from ZonMw and Daiichi-Sankyo. Dr de Backer received institutional research grants and consulting fees from Abbott, Boston Scientific, and Medtronic. Dr Hengstenberg has been a clinical proctor for Boston Scientific and Edwards Lifesciences; and has received payment for speaker bureaus, support for attending meetings, and advisory board participation from Daiichi-Sankyo, Inc. Dr Budde has received speakers’ fees from Bayer; has received institutional support to Erasmus MC by Bayer, Heartflow, and Siemens; and has participated in the advisory board for Bayer. Dr Dangas has received a research grant from DSI. Dr Makkar has received research grants from Edwards Lifesciences, Abbott, Medtronic, and Boston Scientific; and has received travel support from Edwards Lifesciences and Boston Scientific. Dr Van Mieghem has received grant support/research contracts from Abbott Vascular, Boston Scientific, Medtronic, Edwards Lifesciences, Daiichi-Sankyo, AstraZeneca, and PulseCath BV; and has received consulting/speaker fees from Abbot Vascular, Boston Scientific Corporation, Medtronic, Daiichi-Sankyo, PulseCath BV, JenaValve, and Amgen. Dr Adrichem has reported that he has no relationships relevant to the contents of this paper to disclose., (Copyright © 2024 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)

Published
2024
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23. Conduction Abnormalities after Transcatheter Aortic Valve Implantation: Incidence, Impact and Management Using CT Data Interpretation.

Author

Nuis RJ, van den Dorpel M, Adrichem R, Daemen J, and Van Mieghem N

Abstract

The demonstrated safety and effectiveness of transcatheter aortic valve implantation (TAVI) among low surgical risk patients opened the road to its application in younger low-risk patients. However, the occurrence of conduction abnormalities and need for permanent pacemaker implantation remains a frequent problem associated with adverse outcomes. The clinical implications may become greater when TAVI shifts towards younger populations, highlighting the need for comprehensive strategies to address this issue. Beyond currently available clinical and electrocardiographic predictors, patient-specific anatomical assessment of the aortic root using multi-sliced CT (MSCT) imaging can refine risk stratification. Moreover, leveraging MSCT data for computational 3D simulations to predict device-anatomy interactions may help guide procedural strategy to mitigate conduction abnormalities. The aims of this review are to summarise the incidence and clinical impact of new left bundle branch block and permanent pacemaker implantation post-TAVI using contemporary transcatheter heart valves; and highlight the value of MSCT data interpretation to improve the management of this complication., Competing Interests: Disclosure: RJN received consulting fees from Abbott, Edwards Lifesciences, Boston Scientific and Vifor Pharma. JD received institutional grant/research support from AstraZeneca, Abbott Vascular, Boston Scientific, ACIST Medical, Medtronic, MicroPort, Pie Medical and Recor Medical; and consultancy and speaker fees from Abbott Vascular, Abiomed, ACIST Medical, Boston Scientific, Cardialysis BV, CardiacBooster, Kaminari Medical, Recor Medical, PulseCath, Pie Medical, Sanofi, Siemens Healthcare and Medtronic. NVM received grant funding from or has contracts with Abbott, Boston Scientific, Biotronik, Edwards Lifesciences, Medtronic, PulseCath BV, Abiomed and Daiichi Sankyo; consulting fees from JenaValve, Daiichi Sankyo, Abbott, Boston Scientific and Medtronic; payments or honoraria for lectures, presentations, speaking, manuscripts and educational events from Abiomed and Amgen; support for attending meetings and or travel from JenaValve; and is a deputy editor of Interventional Cardiology; this did not affect peer review. All other authors have no conflicts of interest to declare., (Copyright © The Author(s), 2024. Published by Radcliffe Group Ltd.)

Published
2024
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24. Diagnostic Value of Aortic Valve Calcification Levels in the Assessment of Low-Gradient Aortic Stenosis.

Author

Adrichem R, Hokken TW, Bouwmeester S, Abdelkarim O, Vogel B, Blusztein DI, Veulemans V, Kuneman JH, Geleijnse ML, Verhemel S, Van den Dorpel MMP, Kardys I, Tonino PAL, Chang SM, Faza NN, Jou S, Ueyama HA, Bartkowiak J, Zeus T, Bax JJ, Bertrand PB, Hahn RT, Kodali SK, Lerakis S, Mehran R, Little SH, Houthuizen P, and Van Mieghem NM

Subjects
Humans, Female, Male, Aged, Aged, 80 and over, Reproducibility of Results, ROC Curve, Ventricular Function, Left, Area Under Curve, Stroke Volume, Hemodynamics, Aortic Valve Stenosis diagnostic imaging, Aortic Valve Stenosis physiopathology, Aortic Valve diagnostic imaging, Aortic Valve physiopathology, Aortic Valve pathology, Calcinosis diagnostic imaging, Calcinosis physiopathology, Predictive Value of Tests, Severity of Illness Index, Multidetector Computed Tomography, Echocardiography, Stress
Abstract

Background: In patients with low-gradient aortic stenosis (AS) and low transvalvular flow, dobutamine stress echocardiography (DSE) is recommended to determine AS severity, whereas the degree of aortic valve calcification (AVC) supposedly correlates with AS severity according to current European and American guidelines., Objectives: The purpose of this study was to assess the relationship between AVC and AS severity as determined using echocardiography and DSE in patients with aortic valve area <1 cm 2 and peak aortic valve velocity <4.0 m/s., Methods: All patients underwent DSE to determine AS severity and multislice computed tomography to quantify AVC. Receiver-operating characteristics curve analysis was used to assess the diagnostic value of AVC for AS severity grading as determined using echocardiography and DSE in men and women., Results: A total of 214 patients were included. Median age was 78 years (25th-75th percentile: 71-84 years) and 25% were women. Left ventricular ejection fraction was reduced (<50%) in 197 (92.1%) patients. Severe AS was diagnosed in 106 patients (49.5%). Moderate AS was diagnosed in 108 patients (50.5%; in 77 based on resting transthoracic echocardiography, in 31 confirmed using DSE). AVC score was high (≥2,000 for men or ≥1,200 for women) in 47 (44.3%) patients with severe AS and in 47 (43.5%) patients with moderate AS. AVC sensitivity was 44.3%, specificity was 56.5%, and positive and negative predictive values for severe AS were 50.0% and 50.8%, respectively. Area under the receiver-operating characteristics curve was 0.508 for men and 0.524 for women., Conclusions: Multi-slice computed tomography-derived AVC scores showed poor discrimination between grades of AS severity using DSE and cannot replace DSE in the diagnostic work-up of low-gradient severe AS., Competing Interests: Funding Support and Author Disclosures Dr Van Mieghem has received grant support/research contracts from Abbott Vascular, Boston Scientific, Medtronic, Edwards Lifesciences, Daiichy Sankyo, AstraZeneca, and PulseCath BV; and has received consulting/speaker fees from Abbot Vascular, Boston Scientific Corporation, Medtronic, Daiichy Sankyo, PulseCath BV, JenaValve, and Amgen. Dr Mehran has received grant support/research contracts from Abbott, Abiomed, Alleviant Medical, Amgen, AM-Pharma, Arena Pharmaceuticals, AstraZeneca, Atricure Inc, Biosensors, Biotronik, Boston Scientific, Bristol-Myers Squibb, CardiaWave, CeloNova, Chiesi, Concept Medical, Cytsorbents, Daiichy-Sankyo, Element Science, Faraday, Humacyte, Idorsia Pharmaceuticals, Janssen Pharmaceuticals, Magenta, MedAlliance, Mediasphere, Medtelligence, Medtronic, MJH Healthcare, Novartis, OrbusNeich, Penumbra, PhaseBio, Philips, Pi-Cardia, PLx Pharma, Protembis, RenalPro, RM Global, Shockwave Medical, Vivasure, and Zoll; has received consulting/speaker fees from AstraZeneca, E.R. Squibb and Sons LLC, Esperion Science/Innovativa Biopharma, Ionis Pharmaceuticals, IQVIA, J-Calc, McVeigh Global, Novartis, Novo Nordisk, Overcome, Primer Healthcare of New Jersey, Radcliffe, SL Solutions, TARSUS Cardiology, Vectura, and WebMD; and she has equity in Applied Therapeutics, Elixir, and STEL. Dr Mehran’s spouse has equity in ControlRad. Dr Kodali has received grant support/research contracts from Admedus, Dura Biotech, Edwards Lifesciences, Medtronic, Abbott Vascular, Boston Scientific, and JenaValve; has received consulting/speaker fees from Admedus, Dura Biotech, TriCares, X-Dot, Tioga, Helix Valve Repair, and Moray Medical; and has equity in Dura Biotech, Microinterventional Devices, Thubrika Aortic Valve Inc, Supira, Admedus, Triflo, and Adona. Dr Hahn has received consulting/speaker fees from Abbott Structural, Medtronic, Edwards Lifesciences, Boston Scientific, Baylis Medical, Navigate, Philips Healthcare, Siemens Healthcare, and 3mensio; and has equity in Navigate. Dr Bax has received grant support/research contracts from Biotronic, Boston Scientific, Medtronic, Bayer AG, and Edwards Lifesciences; and has received consulting/speaker fees from Abbott Vascular and Edwards Lifesciences. Drs Veulemans and Zeus have received consulting fees, travel expenses, or study honoraria from Medtronic, Edwards Lifesciences, and Boston Scientific. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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25. Validation of Volume Calibration by Echocardiography for Invasive Ventricular Pressure Volume Studies in Transcatheter Valve Interventions.

Author

van den Dorpel MMP, van den Enden AJM, Verhemel S, Adrichem R, Ren CB, Kardys I, Nuis RJ, Daemen J, Schreuder J, Geleijnse ML, Hirsch A, and Van Mieghem NM

Abstract

Competing Interests: N. Van Mieghem received grants or contracts from Abbott, Boston Scientific, Biotronic, Edwards Lifesciences, Medtronic, Pulsecath BV, Abiomed, and Daiichi Sankyo; consulting fees from Jenavalve, Daiichi Sankyo, Abbott, Boston Scientific, and Medtronic; and payment or honoraria for lectures, presentations, speakers, manuscripts, and educational events from Abiomed, Amgen, and Jenavalve. J. Daemen received grants or contracts from Astra Zeneca, Abbott Vascular, Boston Scientific, ACIST Medical, Medtronic, Microport, Pie Medical, and ReCor Medical, and consultancy and speaker fees from Abbott Vascular, Abiomed, ACIST Medical, Boston Scientific, Cardialysis BV, CardiacBooster, Kaminari Medical, ReCor Medical, PulseCath, Pie Medical, Sanofi, Siemens, and Medtronic. A. Hirsch received grants and consultancy fees from GE Healthcare and speaker fees from GE Healthcare and Bayer, and is also a member of the medical advisory board of Medis Medical Imaging Systems. The other authors had no conflicts to declare.

Published
2024
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26. Comparative analysis of different risk prediction tools after mitral Transcatheter edge-to-edge repair.

Author

de Sá Marchi MF, van den Dorpel M, Calomeni P, Chatterjee S, Adrichem R, Verhemel S, Van Den Enden AJM, Daemen J, Kardys I, Ribeiro HB, and Van Mieghem NM

Subjects
Humans, Hospitalization, Risk Factors, Treatment Outcome, Heart Failure diagnosis, Heart Failure surgery, Mitral Valve Insufficiency diagnostic imaging, Mitral Valve Insufficiency surgery
Abstract

Background: Transcatheter edge-to-edge repair (TEER) has become an established treatment for primary and secondary mitral regurgitation (PMR and SMR). The objective of this study was to compare the accuracy of different risk scores for predicting 1-year mortality and the composite endpoint of 1-year mortality and/or heart failure (HF) hospitalization after TEER., Methods: We analyzed data from 206 patients treated for MR at a tertiary European center between 2011 and 2023 and compared the accuracy of different mitral and surgical risk scores: EuroSCORE II, GRASP, MITRALITY, MitraScore, TAPSE/PASP-MitraScore, and STS for predicting 1-year mortality and the composite of 1-year mortality and/or HF hospitalization in PMR and SMR. A subanalysis of SMR-only patients with the addition of COAPT Risk Score and baseline N-Terminal pro-Brain Natriuretic Peptide (NT-proBNP) list was also performed., Results: MITRALITY had the best discriminative ability for 1-year mortality and the composite endpoint of 1-year mortality and/or HF hospitalization, with an area under the curve (AUC) of 0.74 and 0.74, respectively, in a composed group of PMR and SMR. In a SMR-only population, MITRALITY also presented the best AUC for 1-year mortality and the composite endpoint of 1-year mortality and/or HF hospitalization, with values of 0.72 and 0.72, respectively., Conclusion: MITRALITY was the best mitral TEER risk model for both 1-year mortality and the composite endpoint of 1-year mortality and/or HF hospitalization in a population of PMR and SMR patients, as well as in SMR patients only. Surgical risk scores, MitraScore, TAPSE/PASP-MitraScore and NT-proBNP alone showed poor predictive values., (Copyright © 2024. Published by Elsevier B.V.)

Published
2024
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27. The Impact of Cerebral Embolic Protection Devices on Characteristics and Outcomes of Stroke Complicating TAVR.

Author

Levi A, Linder M, Seiffert M, Witberg G, Pilgrim T, Tomii D, Barkan YT, Van Mieghem NM, Adrichem R, Codner P, Hildick-Smith D, Arunothayaraj S, Perl L, Finkelstein A, Loewenstein I, De Backer O, Barnea R, Tarantini G, Fovino LN, Vaknin-Assa H, Mylotte D, Wagener M, Webb JG, Akodad M, Colombo A, Mangieri A, Latib A, Kargoli F, Giannini F, Ielasi A, Søndergaard L, Aviram I, Lerman TT, Kheifets M, Auriel E, and Kornowski R

Subjects
Humans, Treatment Outcome, Risk Factors, Aortic Valve diagnostic imaging, Aortic Valve surgery, Transcatheter Aortic Valve Replacement, Ischemic Stroke etiology, Aortic Valve Stenosis diagnostic imaging, Aortic Valve Stenosis surgery, Aortic Valve Stenosis complications, Stroke diagnostic imaging, Stroke etiology, Stroke prevention & control, Embolic Protection Devices
Abstract

Background: Acute ischemic stroke remains a serious complication of transcatheter aortic valve replacement (TAVR). Cerebral embolic protection devices (CEPD) were developed to mitigate the risk of acute ischemic stroke complicating TAVR (AISCT). However, the existing body of evidence does not clearly support CEPD efficacy in AISCT prevention., Objectives: In a cohort of patients with AISCT, we aimed to compare the characteristics and outcomes of patients who have had unprotected TAVR (CEPD-) vs CEPD-protected TAVR (CEPD+)., Methods: Data were derived from an international multicenter registry focusing on AISCT. We included all patients who experienced ischemic stroke within 72 hours of TAVR. Stroke severity was assessed using the National Institutes of Health Stroke Scale (NIHSS). Primary outcomes were neurologic disability status according to the modified Rankin Score at 30 days, and 6-month all-cause death. Propensity score matched analysis was used to control for differences between groups., Results: In 18,725 TAVR procedures, 416 AISCT (2.2%) within 72 hours were documented, of which 376 were in the CEPD- TAVR group and 40 in the CEPD+ TAVR group. Although the middle cerebral artery stroke rate was similar in both groups (29.7% CEPD- vs 33.3% CEPD+; P = 0.71), AISCT in the CEPD+ group was characterized by a lower rate of internal carotid artery occlusion (0% vs 4.7%) and higher rate of vertebrobasilar system strokes (15.4% vs 5.7%; P = 0.04). AISCT was severe (NIHSS ≥15) in 21.6% CEPD- and 23.3% CEPD+ AISCT (P = 0.20). Disabling stroke rates (modified Rankin Score >1 at 30 days) were 47.3% vs 42.5% (P = 0.62), and 6-month mortality was 31.3% vs 23.3% (P = 0.61), in the CEPD- and CEPD+ groups, respectively. In the propensity score matched cohort, disabling stroke rates were 56.5% vs 41.6% (P = 0.16), and 6-month mortality was 33% vs 19.5% (P = 0.35), in the CEPD- and CEPD+ groups, respectively., Conclusions: In a large cohort of patients with AISCT, the use of CEPD had little effect on stroke distribution, severity, and outcomes., Competing Interests: Funding Support and Author Disclosures Dr Seiffert has received speaker or advisory fees from Abbott Vascular, Abiomed, Amgen, AstraZeneca, Boston Scientific, Bristol Myers Squibb, Daiichi-Sankyo, Edwards Lifesciences, Inari Medical, Medtronic, Pfizer, Shockwave Medical, and Siemens Healthineers; and a research grant from Boston Scientific—all unrelated to the submitted work. Dr Pilgrim has received institutional research grants from Edwards Lifesciences, Boston Scientific, and Biotronik; and personal fees from Biotronik, Boston Scientific, Medtronic, Abbott, and Edwards Lifesciences. Dr Van Mieghem has received research grant support from Abbott Vascular, Boston Scientific, Medtronic, Edwards Lifesciences, Daiichi-Sankyo, and AstraZeneca, and advisory/consultancy/speaker fees from JenaValve, Anteris, Siemens, Pie Medical, Materialise, Amgen, Abbott Vascular, Boston Scientific, Medtronic, Daiichi-Sankyo, Teleflex, and PulseCath BV. Dr Perl is a consultant for Edwards Lifesciences. Dr De Backer has received research grants and consultant fees from Abbott and Boston Scientific. Dr Wagener has received educational support from Medtronic. Dr Webb has been a consultant to, and has received research funding from Edwards Lifesciences, Medtronic, and Boston Scientific. Dr Akodad has received research funding from Medtronic, Biotronik, MUSE Explore, and Federation Française de Cardiologie; and is a consultant for Medtronic and Edwards Lifesciences. Dr Mangieri has received an institutional research grant from Boston Scientific; and has served on a medical advisory board for Boston Scientific. Dr Latib has served on advisory boards for Medtronic and Abbott; and has been a consultant to Edwards Lifesciences. Dr Søndergaard is chief medical officer at Abbott Structural Heart; and has received consultant fees and/or institutional research funding from Abbott, Boston Scientific, Edwards Lifesciences, Medtronic, and SMT. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2024 American College of Cardiology Foundation. All rights reserved.)

Published
2024
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28. Moderate Aortic Stenosis-Advanced Imaging, Risk Assessment, and Treatment Strategies.

Author

Adrichem R, van den Dorpel MMP, Hirsch A, Geleijnse ML, Budde RPJ, and Van Mieghem NM

Abstract

Moderate aortic stenosis is increasingly recognized as a disease entity with poor prognosis. Diagnosis of moderate aortic stenosis may be complemented by laboratory tests and advanced imaging techniques focused at detecting signs of cardiac damage such as increase of cardiac enzymes (N-terminal pro-B-type Natriuretic Peptide, troponin), left ventricular remodeling (hypertrophy, reduced left ventricular ejection fraction), or myocardial fibrosis. Therapy should include guideline-directed optimal medical therapy for heart failure. Patients with signs of cardiac damage may benefit from early intervention, which is the focus of several ongoing randomized controlled trials. As yet, no evidence-based therapy exists to halt the progression of aortic valve calcification., Competing Interests: Nicolas M. Van Mieghem has received grant support/research contracts from Abbott Vascular, Boston Scientific, Medtronic, Edwards Lifesciences, Daiichy Sankyo, Astra Zeneca and PulseCath BV and has received consulting/speaker fees from Abbot Vascular, Boston Scientific Corporation, Medtronic, Daiichy Sankyo, PulseCath BV, JenaValve, and Amgen. Ricardo P.J. Budde has received institutional support and speaker fees from Siemens and is member of the executive board of the European Society of Cardiovascular Radiology. Alexander Hirsch has received a research grant and consultancy fees from GE Healthcare and speaker fees from GE Healthcare and Bayer. He is also a member of the medical advisory board of Medis Medical Imaging Systems. All other authors declare to have no conflicts of interest., (© 2024 The Authors.)

Published
2024
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29. Sequential Alcohol Septal Ablation to Resolve LV Outflow Tract Obstruction After Transcatheter Mitral Valve Replacement.

Author

van den Dorpel MMP, de Sá Marchi MF, Verhemel S, Adrichem R, Nuis RJ, Daemen J, Geleijnse ML, Ben Ren C, Hirsch A, and Van Mieghem NM

Abstract

Left ventricular outflow tract obstruction (LVOTO) is a notorious complication of transcatheter mitral valve replacement (TMVR). Computed tomography-derived simulations can predict neo-LVOTO post-TMVR, whereas alcohol septal ablation (ASA) can mitigate neo-LVOTO risk. We report a case of sequential ASA of 2 adjacent septal branches to resolve unexpected neo-LVOTO post-TMVR., Competing Interests: Dr Van Mieghem has received grants or contracts from Abbott, Boston Scientific, Biotronik, Edwards Lifesciences, Medtronic, PulseCath BV, Abiomed, and Daiichi Sankyo; consulting fees from JenaValve, Daiichi Sankyo, Abbott, Boston Scientific, and Medtronic; payment or honoraria for lectures, presentations, speakers, manuscripts, and educational events from Abiomed and Amgen; and support for attending meetings and/or travel from JenaValve. Dr Daemen has received grants or contracts from AstraZeneca, Abbott Vascular, Boston Scientific, ACIST Medical, Medtronic, MicroPort, Pie Medical, and ReCor Medical; and consultancy and speaker fees from Abbott Vascular, Abiomed, ACIST Medical Systems, Boston Scientific, Cardialysis BV, CardiacBooster, Kaminari Medical, ReCor Medical, PulseCath, Pie Medical, Sanofi, Siemens, and Medtronic. Dr Hirsch has received grants and consultancy fees from GE Healthcare; speaker fees from GE Healthcare and Bayer; and is a member of the medical advisory board of Medis Medical Imaging Systems. Dr de Sá Marchi is supported by a PhD Scholarship for International Research from “Conselho Nacional de Desenvolvimento Científico e Tecnológico-Brasil (CNPq)” under grant 88887.716769/2022-00. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (© 2024 The Authors.)

Published
2023
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32. Changing haemodynamic status of patients referred for transcatheter aortic valve intervention during the COVID-19 pandemic.

Author

Ooms JF, Hokken TW, Adrichem R, Gunes D, de Ronde-Tillmans M, Kardys I, Goudzwaard J, Mattace-Raso F, Nuis RJ, Daemen J, and Van Mieghem NM

Abstract

Introduction: Delays in the diagnosis and referral of aortic stenosis (AS) during the coronavirus disease 2019 (COVID-19) pandemic may have affected the haemodynamic status of AS patients. We aimed to compare clinical and haemodynamic characteristics of severe AS patients referred for transcatheter aortic valve implantation (TAVI) or balloon aortic valvuloplasty (BAV) before the pandemic versus two subsequent periods., Methods: This study compared three 1‑year historical cohorts: a pre-COVID-19 group (PCOV), a 1st-year COVID-19 group (COV-Y1) and a 2nd-year COVID-19 group (COV-Y2). The main parameters were baseline New York Heart Association (NYHA) functional class, left ventricular ejection fraction (LVEF) and left ventricular end-diastolic pressure (LVEDP). Demographics, procedural characteristics and 30-day clinical outcomes were assessed. The transition time between heart team decision and TAVI was examined. Pairwise group comparisons were performed (PCOV vs COV-1Y and COV-1Y vs COV-2Y)., Results: A total of 720 patients were included with 266, 249 and 205 patients in the PCOV, COV-Y1 and COV-Y2 groups, respectively. BAV was performed in 28 patients (4%). NYHA class did not differ across the cohorts. Compared to PCOV, LVEF was slightly lower in COV-Y1 (58% (49-60%) vs 57% (45-60%), p = 0.03); no difference was observed when comparing COV-Y1 and COV-Y2. LVEDP was higher in COV-Y1 than in PCOV (20 mm Hg (16-26 mm Hg) vs 17 mm Hg (13-24 mm Hg), p = 0.01). No difference was found when comparing LVEDP between COV-Y1 and COV-Y2. Thirty-day mortality did not differ between groups. Transition time was reduced in the COVID era. Duration of hospital stay declined over the study period., Conclusions: Patients undergoing TAVI during the COVID-19 pandemic had more advanced AS illustrated by lower LVEF and higher LVEDP, but there were no differences in clinical outcome. The TAVI pathway became more efficient., (© 2023. The Author(s).)

Published
2023
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34. Is methotrexate safe for men with an immune-mediated inflammatory disease and an active desire to become a father? Results of a prospective cohort study (iFAME-MTX).

Author

Perez-Garcia LF, Röder E, Krijthe BP, Kranenburg-van Koppen LJ, van Adrichem R, Zirkzee E, Griffioen PH, Peeters K, Lin M, Struys EA, Jansen G, van Doorn MB, de Jonge R, Dohle GR, and Dolhain RJ

Subjects
Male, Humans, Prospective Studies, Biomarkers, Fathers, Methotrexate adverse effects, Semen metabolism
Abstract

Introduction: Current scientific evidence guiding the decision whether men with an active desire to become a father should be treated with methotrexate (MTX) remains controversial. We aimed to prospectively evaluate the testicular toxicity profile of MTX focusing on several markers of male fertility, including semen parameters and sperm DNA fragmentation index (sDFI). As a secondary outcome, we aimed to evaluate whether MTX-polyglutamates can be detected in spermatozoa and seminal plasma and to evaluate the enzymatic activity in spermatozoa of folylpolyglutamate synthetase (FPGS)., Methods: In a prospective cohort study, men ≥18 years who started therapy with MTX were invited to participate (MTX-starters). Participants were instructed to produce two semen samples (a pre-exposure and a post-exposure sample after 13 weeks). Healthy men ≥18 years were invited to participate as controls. Conventional semen analyses, male reproductive endocrine axis and sDFI were compared between groups. FPGS enzymatic activity and MTX-PG1-5 concentrations were determined by mass spectrometry analytical methods., Results: In total, 20 MTX-starters and 25 controls were included. The pre-exposure and postexposure semen parameters of MTX-starters were not statistically significant different. Compared with healthy controls, the conventional semen parameters and the sDFI of MTX-starters were not statistically significant different. These data were corroborated by the marginal accumulation of MTX-PGs in spermatozoa, consistent with the very low FPGS enzymatic activity associated with the expression of an alternative FPGS splice-variant., Discussion: Treatment with MTX is not associated with testicular toxicity, consistent with the very low concentration of intracellular MTX-PG. Therefore, therapy with MTX can be safely started or continued in men and with a wish to become a father., Competing Interests: Competing interests: RJEMD has received fees from Galagapos and UCB unrelated to this work and research support from UCB. LFPG has received fees from Galapagos unrelated to this work. All the other authors declare no competing interest related to this work., (© Author(s) (or their employer(s)) 2023. Re-use permitted under CC BY. Published by BMJ.)

Published
2023
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35. Sex-Specific Differences in Aortic Valve Calcification Between Bicuspid and Tricuspid Severe Aortic Stenosis.

Author

Veulemans V, Hokken TW, Heermann J, Kardys I, Maier O, Adrichem R, Ooms J, Nuis RJ, Daemen J, Hirsch A, Budde RP, Zeus T, and Van Mieghem NM

Subjects
Male, Humans, Female, Retrospective Studies, Stroke Volume, Ventricular Function, Left, Aortic Valve diagnostic imaging, Aortic Valve Stenosis diagnostic imaging
Abstract

Sex-specific thresholds of aortic valve calcification (AVC) correlate with aortic stenosis (AS) and may complement echocardiography to determine AS severity. Importantly, current guideline-recommended thresholds of AVC scores derived by multislice computed tomography do not distinguish between bicuspid and tricuspid aortic valves. The objective of this study was to evaluate the sex-specific differences in the amount of AVC in patients with severe AS and tricuspid (TAV) versus bicuspid (BAV) aortic valve morphologies, retrospectively evaluated by 2 tertiary care institutions. The inclusion criteria comprised patients with severe AS and a left ventricular ejection fraction ≥50% and suitable imaging examinations. The study included 1,450 patients (723 men; 49.9%) with severe AS, including 1,335 patients with TAV (92.1%) and 115 with BAV (17.9%). The calculated Agatston score was higher in BAV patients (men: BAV 4,358 [2,644 to 6,005] AU vs TAV 2,643 [1,727 to 3,794] AU, p <0.01; women: BAV 2,174 [1,330 to 4,378] AU vs TAV 1,703 [964 to 2,534] AU, p <0.01), also when indexed for valve dimensions and body surface area (men: BAV 2,227 [321 to 3,105] AU/m 2 vs TAV 1,333 [872 to 1,913] AU/m 2 , p <0.01; women: BAV 1,326 [782 to 2,148] AU/m 2 vs TAV 930 [546 to 1,456] AU/m 2 , p <0.01). Differences between the BAV- and TAV-derived Agatston score was more prominent in concordant severe AS. In conclusion, sex-specific Agatston scores in severe AS were approximately 1/3 higher in patients with BAV than in patients with TAV for both women and men. Optimal AVC thresholds should be adjusted for BAV, also respecting considerable prognostic implications., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published
2023
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36. Sex-specific aortic valve calcifications in patients undergoing transcatheter aortic valve implantation.

Author

Hokken TW, Veulemans V, Adrichem R, Ooms JF, Kardys I, Nuis RJ, Daemen J, Hirsch A, Budde RP, Zeus T, and Van Mieghem NM

Subjects
Humans, Male, Female, Aged, 80 and over, Aortic Valve diagnostic imaging, Aortic Valve surgery, Multidetector Computed Tomography methods, Treatment Outcome, Retrospective Studies, Transcatheter Aortic Valve Replacement adverse effects, Transcatheter Aortic Valve Replacement methods, Aortic Valve Insufficiency surgery, Aortic Valve Stenosis diagnostic imaging, Aortic Valve Stenosis surgery, Aortic Valve Stenosis complications, Heart Valve Prosthesis adverse effects
Abstract

Aims: To study sex-specific differences in the amount and distribution of aortic valve calcification (AVC) and to correlate the AVC load with paravalvular leakage (PVL) post-transcatheter aortic valve intervention (TAVI)., Methods and Results: This registry included 1801 patients undergoing TAVI with a Sapien3 or Evolut valve in two tertiary care institutions. Exclusion criteria encompassed prior aortic valve replacement, suboptimal multidetector computed tomography (MDCT) quality, and suboptimal transthoracic echocardiography images. Calcium content and distribution were derived from MDCT. In this study, the median age was 81.7 (25th-75th percentile 77.5-85.3) and 54% male. Men, compared to women, were significantly younger [81.2 (25th-75th percentile 76.5-84.5) vs. 82.4 (78.2-85.9), P ≤ 0.01] and had a larger annulus area [512 mm2 (25th-75th percentile 463-570) vs. 405 mm2 (365-454), P < 0.01] and higher Agatston score [2567 (25th-75th percentile 1657-3913) vs. 1615 (25th-75th percentile 905-2484), P < 0.01]. In total, 1104 patients (61%) had none-trace PVL, 648 (36%) mild PVL, and 49 (3%) moderate PVL post-TAVI. There was no difference in the occurrence of moderate PVL between men and women (3% vs. 3%, P = 0.63). Cut-off values for the Agatston score as predictor for moderate PVL based on the receiver-operating characteristic curve were 4070 (sensitivity 0.73, specificity 0.79) for men and 2341 (sensitivity 0.74, specificity 0.73) for women., Conclusion: AVC is a strong predictor for moderate PVL post-TAVI. Although the AVC load in men is higher compared to women, there is no difference in the incidence of moderate PVL. Sex-specific Agatston score cut-offs to predict moderate PVL were almost double as high in men vs. women., Competing Interests: Conflict of interest: Thijmen W. Hokken: nothing to disclose, Verena Veulemans have received consulting fees, travel expenses, or study honoraria from Medtronic, Edwards Lifesciences, and Boston Scientific. Rik Adrichem: nothing to disclose, Joris Ooms: nothing to disclose, Isabella Kardys: nothing to disclose, Rutger-Jan Nuis: nothing to disclose, Joost Daemen has received institutional grants from Abbott Vascular, ACIST Medical, Astra Zeneca, Boston Scientific, Medtronic, Microport, Pie Medical, and ReCor Medical. Alexander Hirsch: nothing to disclose, Ricardo P. Budde: nothing to disclose, Tobias Zeus has received consulting fees, travel expenses, or study honoraria from Medtronic, Edwards Lifesciences, and Boston Scientific. Nicolas M. Van Mieghem received research grants and advisory fees from Abbott, Boston Scientific Corporation, Edwards Lifesciences, Medtronic, Teleflex, Daiichi Sankyo, and from Ancora Heart., (© The Author(s) 2023. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published
2023
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37. Photon-counting Detector CT in Patients Pre- and Post-Transcatheter Aortic Valve Replacement.

Author

van der Bie J, Sharma SP, van Straten M, Bos D, Hirsch A, Dijkshoorn ML, Adrichem R, van Mieghem NMDA, and Budde RPJ

Abstract

Photon-counting detector CT (PCD CT) has increasingly garnered interest in cardiothoracic imaging due to its high spatial resolution and ability to perform spectral imaging. CT plays an important role in the planning and postprocedural assessment of transcatheter aortic valve replacement (TAVR). Limitations of current CT technology resulting in blooming and metal artifacts may be addressed with PCD CT. This case series demonstrates the potential advantages of PCD CT in patients prior to and post-TAVR. In TAVR planning, PCD CT allowed for a detailed depiction of the aortic valve, aortic root, coronary arteries, and potential vascular access routes. The high-spatial-resolution reconstructions enabled assessment of hypoattenuating leaflet thickening and periprosthetic leakage for prosthetic valves. This study shows promising initial results, but further research is needed to determine the clinical impact of PCD CT in patients prior to and post-TAVR. Keywords: Transcatheter Aortic Valve Replacement, Cardiac, Coronary Arteries, Heart, Valves, Photon-counting Detector CT © RSNA, 2023 An earlier incorrect version appeared online. This article was corrected on October 27, 2023., (© 2023 by the Radiological Society of North America, Inc.)

Published
2023
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38. One-year outcomes after transcatheter aortic valve implantation with the latest-generation SAPIEN balloon-expandable valve: the S3U registry.

Author

Cannata S, Gandolfo C, Ribichini FL, van Mieghem N, Buccheri S, Barbanti M, Berti S, Teles RC, Bartorelli AL, Musumeci G, Piva T, Nombela-Franco L, La Spina K, Palmerini T, Adrichem R, Esposito A, Lopes P, Olivares P, Annibali G, Nicolini E, Marroquin L, Tamburino C, Tarantini G, and Saia F

Subjects
Humans, Treatment Outcome, Registries, Aortic Valve diagnostic imaging, Aortic Valve surgery, Prosthesis Design, Transcatheter Aortic Valve Replacement adverse effects, Aortic Valve Stenosis surgery, Heart Valve Prosthesis adverse effects
Abstract

Background: Initial data about the performance of the new-generation SAPIEN 3 Ultra (S3U) valve are highly promising. However, evidence about the longer-term performance and safety of the S3U is scarce., Aims: We aimed to investigate the 1-year clinical and echocardiographic outcomes of transcatheter aortic valve implantation (TAVI) using the S3U compared with its predecessor, the SAPIEN 3 valve (S3)., Methods: The SAPIEN 3 Ultra registry included consecutive patients who underwent transfemoral TAVI at 12 European centres with the S3U or S3 between October 2016 and December 2020. One-to-one propensity score (PS) matching was performed to account for differences in baseline characteristics. The primary outcomes of interest were all-cause death and the composite of all-cause death, disabling stroke and hospitalisation for heart failure at 1 year., Results: The overall study cohort encompassed 1,692 patients treated with either the S3U (n=519) or S3 (n=1,173). The PS-matched population had a total of 992 patients (496 per group). At 1 year, the rate of death from any cause was 4.9% in the S3U group and 6.3% in the S3 group (p=0.743). Similarly, there were no significant differences in the rates of the primary composite outcome (9.5% in the S3 group and 6.6% in the S3U group; p=0.162). The S3U was associated with lower rates of mild paravalvular leak (PVL) compared with the S3 (odds ratio 0.63, 95% confidence interval: 0.44 to 0.88; p<0.01). No significant differences in transprosthetic gradients were observed between the two groups., Conclusions: Compared with the S3, the S3U transcatheter heart valve was associated with similar 1-year clinical outcomes but reduced rates of mild PVL.

Published
2023
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39. Treatment of late paravalvular regurgitation after transcatheter aortic valve implantation: prognostic implications.

Author

Landes U, Hochstadt A, Manevich L, Webb JG, Sathananthan J, Sievert H, Piayda K, Leon MB, Nazif TM, Blusztein D, Hildick-Smith D, Pavitt C, Thiele H, Abdel-Wahab M, Van Mieghem NM, Adrichem R, Sondergaard L, De Backer O, Makkar RR, Koren O, Pilgrim T, Okuno T, Kornowski R, Codner P, Finkelstein A, Loewenstein I, Barbash I, Sharon A, De Marco F, Montorfano M, Buzzatti N, Latib A, Scotti A, Kim WK, Hamm C, Franco LN, Mangieri A, Schoels WH, Barbanti M, Bunc M, Akodad M, Rubinshtein R, and Danenberg H

Subjects
Humans, Aortic Valve diagnostic imaging, Aortic Valve surgery, Prognosis, Treatment Outcome, Transcatheter Aortic Valve Replacement methods, Aortic Valve Stenosis, Heart Valve Prosthesis, Aortic Valve Insufficiency etiology, Aortic Valve Insufficiency surgery
Abstract

Aims: Paravalvular regurgitation (PVR) after transcatheter aortic valve implantation (TAVI) is associated with increased morbidity and mortality. The effect of transcatheter interventions to treat PVR after the index TAVI was investigated., Methods and Results: A registry of consecutive patients who underwent transcatheter intervention for ≥ moderate PVR after the index TAVI at 22 centers. The principal outcomes were residual aortic regurgitation (AR) and mortality at 1 year after PVR treatment. A total of 201 patients were identified: 87 (43%) underwent redo-TAVI, 79 (39%) plug closure, and 35 (18%) balloon valvuloplasty. Median TAVI-to-re-intervention time was 207 (35; 765) days. The failed valve was self-expanding in 129 (63.9%) patients. The most frequent devices utilized were a Sapien 3 valve for redo-TAVI (55, 64%), an AVP II as plug (33, 42%), and a True balloon for valvuloplasty (20, 56%). At 30 days, AR ≥ moderate persisted in 33 (17.4%) patients: 8 (9.9%) after redo-TAVI, 18 (25.9%) after plug, and 7 (21.9%) after valvuloplasty (P = 0.036). Overall mortality was 10 (5.0%) at 30 days and 29 (14.4%) at 1 year: 0, 8 (10.1%), and 2 (5.7%) at 30 days (P = 0.010) and 11 (12.6%), 14 (17.7%), and 4 (11.4%) at 1 year (P = 0.418), after redo-TAVI, plug, and valvuloplasty, respectively. Regardless of treatment strategy, patients in whom AR was reduced to ≤ mild had lower mortality at 1 year compared with those with AR persisting ≥ moderate [11 (8.0%) vs. 6 (21.4%); P = 0.007]., Conclusion: This study describes the efficacy of transcatheter treatments for PVR after TAVI. Patients in whom PVR was successfully reduced had better prognosis. The selection of patients and the optimal PVR treatment modality require further investigation., Competing Interests: Conflict of interest J.G.W.: consultant to, and has received research funding from, Edwards Lifesciences, Abbott Vascular, and Boston Scientific. W-K.K.: proctor or speaker fees from Boston Scientific, Abbott, Edwards Lifesciences, Medtronic, Meril Life Sciences. M.A-W.: received speaker's honoraria and/or consultancy fees on his behalf from Boston Scientific and Medtronic. M.B.: consultant for Edwards Lifesciences, Medtronic, and Boston Scientific. L.S.: consultant fees and institutional research grants from Abbott, Boston Scientific, Edwards Lifesciences, Medtronic, and Symetis. C.H.: Advisory Board Medtronic. J.M. Sinning: speaker honoraria and research grants from Medtronic, Boston Scientific, and Edwards Lifesciences. J.S.: consultant to Edwards Lifesciences. M. Andreas: proctor/consultant/speaker for Edwards, Abbott, and Medtronic, received institutional grants (Edwards, Abbott, Medtronic, and LSI). Dr. M. Guerrero: research grant support from Abbott Vascular and Edwards Lifesciences. F. Castriota: proctor for Medtronic and Boston Scientific. T.N.: consulting or honoraria from Edwards Lifesciences, Medtronic, and Boston Scientific. Consulting and equity with Venus MedTech. T.P.: research grants from Boston Scientific, Edwards Lifesciences, and Biotronik; speaker fees/consultancy fees from Boston Scientific, Medtronic, Abbott, Biotronik, and HighLife SAS. V.C. Babaliaros: consultant to Edwards Lifesciences and equity in transmural system. M.M.: consultant fee from Abbott, Boston, Kardia, and Medtronic. N.V.M.: institutional research grants and consulting fees from Abbott, Boston Scientific, Medtronic, Daiichi Sankyo, and PulseCath BV and institutional research grant support from Edwards Lifesciences. A.L.: institutional research/grant support from Abbott, Boston Scientific, Medtronic, and Edwards Lifesciences; and personal consulting honoraria from Abbott, Edwards Lifesciences and Medtronic. D.H-S.: proctor and advisory to Boston, Medtronic, Edwards Lifesciences, and Abbott. R.M. received grant support from Edwards Lifesciences Corporation; he is a consultant for Abbott Vascular, Cordis, and Medtronic and holds equity in Entourage Medical. All other authors have no conflict of interest to report in relation with this manuscript., (© The Author(s) 2023. Published by Oxford University Press on behalf of the European Society of Cardiology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2023
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40. Vascular Access in Patients With Peripheral Arterial Disease Undergoing TAVR: The Hostile Registry.

Author

Palmerini T, Saia F, Kim WK, Renker M, Iadanza A, Fineschi M, Bruno AG, Ghetti G, Vanhaverbeke M, Søndergaard L, De Backer O, Romagnoli E, Burzotta F, Trani C, Adrichem R, Van Mieghem NM, Nardi E, Chietera F, Orzalkiewicz M, Tomii D, Pilgrim T, Aranzulla TC, Musumeci G, Adam M, Meertens MM, Taglieri N, Marrozzini C, Alvarez Covarrubias HA, Joner M, Nardi G, Di Muro FM, Di Mario C, Loretz L, Toggweiler S, Gallitto E, Gargiulo M, Testa L, Bedogni F, Berti S, Ancona MB, Montorfano M, Leone A, Savini C, Pacini D, Gmeiner J, Braun D, Nerla R, Castriota F, De Carlo M, Petronio AS, Barbanti M, Costa G, Tamburino C, Leone PP, Reimers B, Stefanini G, Sudo M, Nickenig G, Piva T, Scotti A, Latib A, Vercellino M, Porto I, Codner P, Kornowski R, Bartorelli AL, Tarantini G, Fraccaro C, Abdel-Wahab M, Grube E, Galié N, and Stone GW

Subjects
Humans, Treatment Outcome, Registries, Transcatheter Aortic Valve Replacement, Ischemic Attack, Transient, Peripheral Arterial Disease, Stroke
Abstract

Background: The optimal access route in patients with severe peripheral artery disease (PAD) undergoing transcatheter aortic valve replacement (TAVR) remains undetermined., Objectives: This study sought to compare clinical outcomes with transfemoral access (TFA), transthoracic access (TTA), and nonthoracic transalternative access (TAA) in TAVR patients with severe PAD., Methods: Patients with PAD and hostile femoral access (TFA impossible, or possible only after percutaneous treatment) undergoing TAVR at 28 international centers were included in this registry. The primary endpoint was the propensity-adjusted risk of 30-day major adverse events (MAE) defined as the composite of all-cause mortality, stroke/transient ischemic attack (TIA), or main access site-related Valve Academic Research Consortium 3 major vascular complications. Outcomes were also stratified according to the severity of PAD using a novel risk score (Hostile score)., Results: Among the 1,707 patients included in the registry, 518 (30.3%) underwent TAVR with TFA after percutaneous treatment, 642 (37.6%) with TTA, and 547 (32.0%) with TAA (mostly transaxillary). Compared with TTA, both TFA (adjusted HR: 0.58; 95% CI: 0.45-0.75) and TAA (adjusted HR: 0.60; 95% CI: 0.47-0.78) were associated with lower 30-day rates of MAE, driven by fewer access site-related complications. Composite risks at 1 year were also lower with TFA and TAA compared with TTA. TFA compared with TAA was associated with lower 1-year risk of stroke/TIA (adjusted HR: 0.49; 95% CI: 0.24-0.98), a finding confined to patients with low Hostile scores (P interaction  = 0.049)., Conclusions: Among patients with PAD undergoing TAVR, both TFA and TAA were associated with lower 30-day and 1-year rates of MAE compared with TTA, but 1-year stroke/TIA rates were higher with TAA compared with TFA., Competing Interests: Funding Support and Author Disclosures Dr Palmerini has received speaker fees from Edwards Lifesciences and Medtronic. Dr Saia has received consulting and lecture fees from Abbott, Edwards Lifesciences, and Medtronic. Dr Kim has received personal fees from Abbott, Boston Scientific, Edwards Lifesciences, Medtronic, Merill Life Sciences, and Shockwave Medical. Dr Søndergaard has received consulting fees and/or institutional research grants from Abbott, Boston Scientific, Medtronic, and Sahajanand Medical Technologies. Dr Burzotta has received speaker fees from Abiomed, Abbott, Medtronic, and Terumo. Dr Romagnoli has received speaker fees by Abbott Vascular, Abiomed, and Medtronic. Dr Van Mieghem has received research grant support from Abbott Vascular, Biotronik, Boston Scientific, Medtronic, Edwards Lifesciences, Abiomed, PulseCath BV, and Daiichi Sankyo. Dr Pilgrim has received research grants to his institution from Boston Scientific, Biotronik, and Edwards Lifesciences; and honoraria from Biotronik, Boston Scientific, Medtronic, Abbott, and HighLife SAS. Dr Adam has received personal and proctoring fees from Abbott, Boston Scientific, Edwards Lifesciences, JenaValve, and Medtronic (during the conduct of the study). Dr Di Mario has received research grants to his institution from Abbott, Amgen, Boston Scientific, Chiesi, Daiichi Sankyo, Edwards Lifesciences, and Volcano Philips. Dr Toggweiler has served as a proctor/consultant for Medtronic, Edwards Lifesciences, Biosensors, Boston Scientific, and Abbott Vascular; has served consultant for Medira, AtHeart Medical, Veosource, Shockwave, Teleflex, and Polares Medical; has received institutional research grants from Biosensors, Boston Scientific, and Fumedica; and holds equity in Hi-D Imaging. Dr Testa has received consulting fees from and served as a proctor Abbott, Boston Scientific, Medtronic, and Merrill. Dr Berti has served as a proctor for Edwards Lifesciences, Abbott, and Boston Scientific. Dr Ancona has received consultant fees from Abbott. Dr Montorfano has received proctor fees from Abbott, Edwards Lifesciences, and Boston Scientific. Dr Castriota has received proctoring fees from Abbott and Medtronic. Dr Petronio has received consultant and research funds from Medtronic, Boston Scientific, and Abbott. Dr Barbanti has served as a consultant for Medtronic, Edwards Lifesciences, and Boston Scientific. Dr Tamburino has received speaker honoraria from Abbott and Medtronic. Dr Nickenig has received lecture or advisory board honoraria from Abbott, Amarin, AstraZeneca, Bayer, Berlin Chemie, Biosensus, Biotronik, Bristol Myers Squibb, Boehringer Ingelheim, CardioValve, Daiichi Sankyo, Edwards Lifesciences, Medtronic, Novartis, Pfizer, and Sanofi; owns stock options with Beren, Cardiovalve; has served in clinical trials with Abbott, AstraZeneca, Bayer, Berlin Chemie, Biosensus, Biotronik, Bristol Myers Squibb, Boehringer Ingelheim, CardioValve, Daiichi Sankyo, Edwards Lifesciences, Medtronic, Novartis, Pfizer, and Sanofi; and has received research funding from the Deutsche Forschungsgemeinschaft, the Bundeministerium für Bildung und Forschun, the European Union, Abbott, Bayer, Bristol Myers Squibb, Boehringer Ingelheim, Edwards Lifesciences, Medtronic, Novartis, and Pfizer. Dr Stefanini has received speaker fees from Abbott Vascular, Boston Scientific, and Pfizer/Bristol Myers Squibb; research grants to his institution from Boston Scientific. Dr Latib has served as a consultant for Abbott, Medtronic, Edwards Lifesciences, Boston Scientific, Neovasc, Shifamed, and Philips. Dr Porto has received consulting or speaker fees from Biotronik, Abiomed, Medtronic, Terumo, Philips, Sanofi, Amgen, Daiichi Sankyo, AstraZeneca, and Bayer, not related to this work. Dr Grube has served on the Speakers Bureau/Scientific Advisory Board for Medtronic, Boston Scientific, JenaValve, and High Life; and owns equity interest in Millipede, Pi-Cardia, Ancora, Laminar, ReNiva Medical, and Shockwave. Dr Stone has received speaker honoraria from Medtronic, Pulnovo, and Infraredx; has served as a consultant for Valfix, TherOx, Robocath, HeartFlow, Ablative Solutions, Vectorious, Miracor, Neovasc, Abiomed, Ancora, Elucid Bio, Occlutech, CorFlow, Apollo Therapeutics, Impulse Dynamics, Cardiomech, Gore, Amgen, and Adona Medical; owns equity/options in Ancora, Cagent, Applied Therapeutics, the Biostar family of funds, SpectraWave, Orchestra Biomed, Aria, Cardiac Success, Valfix, and Xenter; has a daughter who is an employee at Medtronic; and his employer (Mount Sinai Hospital) has received research support from Abbott, Abiomed, Bioventrix, Cardiovascular Systems, Philips, Biosense Webster, Shockwave, Vascular Dynamics, and V-wave. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2023 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)

Published
2023
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41. Impact of different guidewires on the implantation depth using the largest self-expandable TAVI device.

Author

Veulemans V, Wilde N, Wienemann H, Adrichem R, Hokken TW, Al-Kassou B, Shamekhi J, Mauri V, Maier O, Jung C, Horn P, Adam M, Nickenig G, Baldus S, Van Mieghem NM, Kelm M, Sedaghat A, and Zeus T

Abstract

Background: The deployment process of the largest self-expandable device (STHV-34) during transcatheter aortic valve implantation (TAVI) might be challenging due to stabilization issues. Whether the use of different TAVI-guidewires impact the procedural success and outcome is not well-known. Therefore, we sought to evaluate the impact of non-Lunderquist (NLu) vs. the Lunderquist (Lu) guidewires during TAVI using the STHV-34 on the procedural and 30-day outcomes., Methods: The primary study endpoint was defined as the final implantation depth (ID) depending on the selected guidewire strategy. Key secondary endpoints included VARC-3-defined complications., Results: The study cohort included 398 patients of four tertiary care institutions, of whom 79.6% (317/398) had undergone TAVI using NLu and 20.4% (81/398) using Lu guidewires. Baseline characteristics did not substantially differ between NLu and Lu patients. The average ID was higher in the Lu cohort (NLu vs. Lu: -5.2 [-7.0-(-3.5)] vs. -4.5 [-6.0-(-3.0)]; p = 0.022 * ). The optimal ID was reached in 45.0% of patients according to former and only in 20.1% according to nowadays best practice recommendations. There was no impact of the guidewire use on the 30-day outcomes, including conduction disturbances and pacemaker need (NLu vs. Lu: 15.1 vs. 18.5%; p = 0.706)., Conclusion: The use of the Lunderquist TM guidewire was associated with a higher ID during TAVI with the STHV-34 without measurable benefits in the 30-day course concerning conduction disturbances and associated pacemaker need. Whether using different guidewires might impact the outcome in challenging anatomies should be further investigated in randomized studies under standardized conditions., Competing Interests: VV, CJ, and TZ have received consulting fees, travel expenses, or study honoraria from Medtronic, Edwards Lifesciences, and Boston Scientific. GN and MA have received speaker honoraria and research grants from Abbott, Abiomed, Medtronic, Boston Scientific, and Edwards Lifesciences. SB has received speaker honoraria from Abbott Medical and Edwards LifeSciences and has received research grants from Abbott Medical. NVM has grant support from Abbott Vascular, Biotronik, Boston Scientific, Medtronic, Edwards Lifesciences, Abiomed, PulseCath BV, Daiichi Sankyo, Pie Medical. MK has received institutional grant support and/or personal fees from Philips, Abbott, Medtronik, Boston Scientific, Mars, Boehringer Ingelheim, Daiichi-Sanyko GmbH, Amgen, Ancora Heart, and B. Braun. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Veulemans, Wilde, Wienemann, Adrichem, Hokken, Al-Kassou, Shamekhi, Mauri, Maier, Jung, Horn, Adam, Nickenig, Baldus, Van Mieghem, Kelm, Sedaghat and Zeus.)

Published
2023
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42. Leaflet Thickening and Motion After Transcatheter Aortic Valve Replacement: Design and Rationale of the Rotterdam Edoxaban Trial.

Author

van Wiechen MP, El Azzouzi I, Knol WG, Adrichem R, Hokken TW, Ooms JF, de Ronde-Tillmans MJ, Daemen J, de Jaegere PP, Hirsch A, Budde RPJ, and Van Mieghem NM

Subjects
Humans, Anticoagulants adverse effects, Aortic Valve diagnostic imaging, Aortic Valve surgery, Factor Xa Inhibitors adverse effects, Platelet Aggregation Inhibitors adverse effects, Heart Valve Prosthesis adverse effects, Thrombosis diagnostic imaging, Thrombosis etiology, Thrombosis prevention & control, Transcatheter Aortic Valve Replacement adverse effects
Abstract

Background: Multislice computed tomography (MSCT) may reveal hypo-attenuated leaflet thickening (HALT) and/or reduced leaflet motion (RELM) in approximately 15 % of patients after transcatheter aortic valve replacement (TAVR). These supposedly thrombogenic phenomena may be associated with neurological events and increased transprosthetic gradients. It is unclear whether oral anticoagulant therapy -specifically a factor Xa inhibitor- could affect the incidence of HALT/RELM., Study Design: The Rotterdam EDOXaban (REDOX) trial is an investigator-initiated, single-center, prospective registry in which 100 patients with no formal indication for oral anticoagulant drugs or dual antiplatelet therapy, will receive a 3-month treatment with edoxaban, followed by a MSCT to detect HALT/RELM. The primary endpoint is the incidence of HALT at 3-months follow-up. Secondary endpoints include the incidence of RELM at 3 months; change in transprosthetic gradients at 1 year and the clinical composite endpoint of all-cause death, myocardial infarction (MI), ischemic stroke, systemic thromboembolism, valve thrombosis and major bleeding (International Society on Thrombosis and Hemostasis [ISTH] definition) at 1 year follow up. The study is powered to demonstrate with 90 % statistical power and a 0.025 alpha a 4 % incidence of HALT with edoxaban as compared to the expected 15 % rate with an antiplatelet regimen and will enroll 100 patients to account for loss of follow-up or CT-drop out., Conclusion: The REDOX trial will investigate the short-term effect of an Xa-inhibitor on the incidence of HALT after TAVR. (ClinicalTrials.gov Identifier: NCT04171726)., Competing Interests: Declaration of competing interest Joost Daemen received institutional research support from Abbott Vascular, Boston Scientific, Medtronic, Pie Medical and PulseCath BV, and consultancy and speaker fees from Boston Scientific, ReCor, Pie Medical, Medtronic and PulseCath BV. Nicolas Van Mieghem received research grants from Abbott, Boston Scientific, Edwards Lifesciences, Teleflex, Medtronic, Daiichi Sankyo, PulseCath BV. All other authors declared no conflict of interest., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2022
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43. Impact of membranous septum length on pacemaker need with different transcatheter aortic valve replacement systems: The INTERSECT registry.

Author

Hokken TW, Muhemin M, Okuno T, Veulemans V, Lopes BB, Beneduce A, Vittorio R, Ooms JF, Adrichem R, Neleman T, Kardys I, Daemen J, Chieffo A, Montorfano M, Cavalcante J, Zeus T, Pilgrim T, Toggweiler S, and Van Mieghem NM

Subjects
Humans, Male, Aged, 80 and over, Female, Risk Factors, Treatment Outcome, Predictive Value of Tests, Registries, Aortic Valve diagnostic imaging, Aortic Valve surgery, Prosthesis Design, Transcatheter Aortic Valve Replacement adverse effects, Aortic Valve Stenosis diagnostic imaging, Aortic Valve Stenosis surgery, Heart Valve Prosthesis, Pacemaker, Artificial
Abstract

Background: New permanent pacemaker implantation (new-PPI) remains a compelling issue after Transcatheter Aortic Valve Replacement (TAVR). Previous studies reported the relationship between a short MS length and the new-PPI post-TAVR with a self-expanding THV. However, this relationship has not been investigated in different currently available THV. Therefore, the aim of this study was to investigate the association between membranous septum (MS)-length and new-PPI after TAVR with different Transcatheter Heart Valve (THV)-platforms., Methods: We included patients with a successful TAVR-procedure and an analyzable pre-procedural multi-slice computed tomography. MS-length was measured using a standardized methodology. The primary endpoint was the need for new-PPI within 30 days after TAVR., Results: In total, 1811 patients were enrolled (median age 81.9 years [IQR 77.2-85.4], 54% male). PPI was required in 275 patients (15.2%) and included respectively 14.2%, 20.7% and 6.3% for Sapien3, Evolut and ACURATE-THV(p ​< ​0.01). Median MS-length was significantly shorter in patients with a new-PPI (3.7 ​mm [IQR 2.2-5.1] vs. 4.1 ​mm [IQR 2.8-6.0], p ​= ​<0.01). Shorter MS-length was a predictor for PPI in patients receiving a Sapien3 (OR 0.87 [95% CI 0.79-0.96], p ​= ​<0.01) and an Evolut-THV (OR 0.91 [95% CI 0.84-0.98], p ​= ​0.03), but not for an ACURATE-THV (OR 0.99 [95% CI 0.79-1.21], p ​= ​0.91). By multivariable analysis, first-degree atrioventricular-block (OR 2.01 [95% CI 1.35-3.00], p = <0.01), right bundle branch block (OR 8.33 [95% CI 5.21-13.33], p = <0.01), short MS-length (OR 0.89 [95% CI 0.83-0.97], p ​< ​0.01), annulus area (OR 1.003 [95% CI 1.001-1.005], p ​= ​0.04), NCC implantation depth (OR 1.13 [95% CI 1.07-1.19] and use of Evolut-THV(OR 1.54 [95% CI 1.03-2.27], p ​= ​0.04) were associated with new-PPI., Conclusion: MS length was an independent predictor for PPI across different THV platforms, except for the ACURATE-THV. Based on our study observations within the total cohort, we identified 3 risk groups by MS length: MS length ≤3 ​mm defined a high-risk group for PPI (>20%), MS length 3-7 ​mm intermediate risk for PPI (10-20%) and MS length > 7 ​mm defined a low risk for PPI (<10%). Anatomy-tailored-THV-selection may mitigate the need for new-PPI in patients undergoing TAVR., Competing Interests: Declaration of competing interest Thijmen W. Hokken: none. Mohammed Muhemin: none. Taishi Okuno: none. Verena Veulemans has consulting fees from Medtronic and Edwards lifesciences. Bernardo B. Lopes: none. Alessandro Beneduce: none. Romano Vittorio: none. Joris F. Ooms: none. Rik Adrichem: none. Tara Neleman: none. Isabella Kardys: none. Joost Daemen has received institutional grants from Abbott Vascular, ACIST Medical, Astra Zeneca, Boston Scientific, Medtronic, Microport, Pie Medical and ReCor Medical. A. Chieffo has received speaker/consultant fees from Abbott, Abiomed, Biosensor, Cardinal Health, GADA, and Magenta. Matteo Montorfano has honoraria from Medtronic, Boston Scientific and Abbott. Joao Cavalcante: none. Tobias Zeus has received grants from Medtronic and Edwards lifesciences. Thomas Pilgrim reports research grants to the institution from Edwards Lifesciences, Boston Scientifc and Biotronik, personal fees from Biotronik and Boston Scientific, and other from HighLife SAS. Stefan Toggweiler: has consulting fees from Boston Schientific, Medtronic, Biosensors, Shockwave, Teleflex, Medira, Atheart Medical and VeoSource and stock options from Hi-D imaging. Nicolas M. Van Mieghem received research grants and advisory fees from Abbott, Boston Scientific Corporation, Edwards Lifesciences, Medtronic, Teleflex, Daiichi Sankyo; and from Ancora Heart., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2022
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44. Incidence and mechanisms of bioprosthetic dysfunction after transcatheter implantation of a mechanically-expandable heart valve.

Author

Nuis RJ, Yee J, Adrichem R, Hokken TW, Lenzen M, Daemen J, de Jaegere PP, and Van Mieghem NM

Subjects
Humans, Male, Aged, Aged, 80 and over, Female, Incidence, Treatment Outcome, Aortic Valve diagnostic imaging, Aortic Valve surgery, Prosthesis Design, Heart Valve Prosthesis adverse effects, Aortic Valve Stenosis surgery, Transcatheter Aortic Valve Replacement methods, Thrombosis, Endocarditis epidemiology, Endocarditis etiology
Abstract

Background: The mechanically-expandable transcatheter valve is no longer commercially available, yet clinical and echocardiographic surveillance is imperative for thousands of patients who received transcatheter aortic valve implantation (TAVI) with this platform., Aims: We aimed to determine the incidence and mechanism of bioprosthetic valve dysfunction (BVD) following TAVI with mechanically-expandable valves., Methods: From 2013 to 2020, all 234 patients who underwent TAVI with the LOTUS valve were included. BVD was categorised as (i) structural valve deterioration (SVD), (ii) non-structural valve dysfunction (NSVD), (iii) clinical valve thrombosis and (iv) endocarditis, according to the Valve Academic Research Consortium-3 criteria., Results: The mean age was 79±7 years, 60% were male, and the mean Society of Thoracic Surgeons score was 4.2±2.9%. The technical success rate was 94% and the 30-day device success rate was 78%. All-cause mortality at 1 year was 15%; median follow-up duration was 36 (IQR 18-60) months during which 47% of patients died. One hundred and three patients had ≥1 type of BVD (44%), which predominantly consisted of NSVD (39%, mostly because of ≥moderate patient-prosthesis mismatch). BVD during follow-up included endocarditis (3.4%), clinical valve thrombosis (3.4%) and SVD (1.3%). Both endocarditis and clinically apparent valve thrombosis occurred early and late after TAVI and resulted in valve-related deaths in 38% and 13% of patients, respectively. Overall, ≥moderate haemodynamic valve deterioration occurred in 5.5% and bioprosthetic failure in 7.3%, leading to valve-related deaths in 36% of cases., Conclusions: BVD represents a relevant health issue after TAVI with a mechanically-expandable valve. Serious but reversible causes of BVD include endocarditis and clinically apparent valve thrombosis, both carrying a time-independent hazard post-TAVI.

Published
2022
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45. Management and Outcome of Acute Ischemic Stroke Complicating Transcatheter Aortic Valve Replacement.

Author

Levi A, Linder M, Seiffert M, Witberg G, Pilgrim T, Tomii D, Talmor-Barkan Y, Van Mieghem NM, Adrichem R, Codner P, Smith DH, Arunothayaraj S, Perl L, Finkelstein A, Loewenstein I, Findler M, Søndergaard L, De Backer O, Wang C, Barnea R, Tarantini G, Fovino LN, Vaknin-Assa H, Mylotte D, Lunardi M, Raphaeli G, Webb JG, Akodad M, Colombo A, Mangieri A, Latib A, Kargoli F, Giannini F, Ielasi A, Cockburn J, Higgen FL, Aviram I, Gitto M, Hokken TW, Auriel E, and Kornowski R

Subjects
Aortic Valve diagnostic imaging, Aortic Valve surgery, Humans, Postoperative Complications etiology, Registries, Risk Factors, Treatment Outcome, Aortic Valve Stenosis complications, Aortic Valve Stenosis diagnostic imaging, Aortic Valve Stenosis surgery, Ischemic Stroke, Stroke diagnostic imaging, Stroke etiology, Stroke therapy, Transcatheter Aortic Valve Replacement adverse effects
Abstract

Background: Despite advances in transcatheter aortic valve replacement (TAVR), periprocedural acute ischemic stroke remains a concern., Objectives: The aims of this study were to investigate acute ischemic stroke complicating TAVR (AISCT) and to describe the indications and outcomes of interventions to treat AISCT., Methods: An international multicenter registry was established focusing on AISCT within 30 days of TAVR. Stroke severity was assessed using the National Institutes of Health Stroke Scale. Primary outcomes were 1-year all-cause death and neurologic disability status at 90 days according to modified Rankin scale score., Results: Of 16,615 TAVR procedures, 387 patients with AISCT were included (2.3%). Rates of 1-year death were 28.9%, 35.9%, and 77.5% in patients with mild, moderate, and severe stroke, respectively (P < 0.001). Although 348 patients were managed conservatively, 39 patients (10.1%) underwent neurointervention (NI) with either mechanical thrombectomy (n = 26) or thrombolytic therapy (n = 13). In a subanalysis excluding patients with mild stroke, there was no clear 1-year survival benefit for NI compared with conservative management (47.6% vs 41.1%, respectively; P = 0.78). In a logistic regression model controlling for stroke severity, NI was associated with 2.9-fold odds (95% CI: 1.2-7.0; P = 0.016) of independent survival at 90 days., Conclusions: AISCT carries significant morbidity and mortality, which is correlated with stroke severity. The present findings suggest that neurologic disability for patients with moderate or worse stroke could potentially be improved by timely intervention and highlight the importance of collaboration between cardiologists and neurologists to optimize AISCT outcomes., Competing Interests: Funding Support and Author Disclosures Dr Pilgrim has received research grants to the institution from Edwards Lifesciences, Boston Scientific, and Biotronik; has received personal fees from Biotronik and Boston Scientific; has received other compensation from HighLife SAS and Medira; and is a proctor for Medtronic. Dr De Backer has received research grants and consulting fees from Abbott and Boston Scientific. Dr Søndergaard has received consulting fees and institutional research grants from Abbott, Boston Scientific, Edwards Lifesciences, and Medtronic. Dr Van Mieghem has received research grant support from Abbott, Boston Scientific, Edwards Lifesciences, Medtronic, PulseCath BV, and Daiichi Sankyo; and has received advisory fees from Abbott, Boston Scientific, Ancora, Medtronic, PulseCath BV, and Daiichi Sankyo. Dr Webb has been a consultant to and has received research funding from Edwards Lifesciences, Medtronic, and Boston Scientific. Dr Cockburn is a proctor for Boston Scientific. Dr Seiffert has served as a consultant for JenaValve and Boston Scientific; has received travel compensation from Edwards Lifesciences, JenaValve, Boston Scientific, and Biotronik; and has received speaker honoraria from Medtronic. Dr Mangieri has received a research grant (to the institution) from Boston Scientific; and has served on a medical advisory board for Boston Scientific. Dr Latib has served on advisory boards for Medtronic and Abbott; and has been a consultant to Edwards Lifesciences. Dr Akodad has received research funding from Medtronic, Biotronik, MUSE Explore, and Federation Française de Cardiologie. Dr Perl is a consultant for Edwards Lifesciences. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2022. Published by Elsevier Inc.)

Published
2022
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46. The Impact of the COVID-19 Pandemic on the Clinical Status of Patients Referred for TAVR.

Author

Ooms JF, Gunes D, Hokken TW, Adrichem R, Nuis RJ, De Ronde-Tillmans M, Goudzwaard J, Mattace-Raso F, Daemen J, and Van Mieghem NM

Subjects
Aortic Valve surgery, Humans, Pandemics, Risk Factors, Treatment Outcome, Aortic Valve Stenosis diagnostic imaging, Aortic Valve Stenosis surgery, Balloon Valvuloplasty, COVID-19, Heart Valve Prosthesis, Transcatheter Aortic Valve Replacement adverse effects
Abstract

Competing Interests: Declaration of Competing Interest Joost Daemen received institutional grant/research support from Astra Zeneca, Abbott Vascular, Boston Scientific, ACIST Medical, Medtronic, Pie Medical, and ReCor medical. Nicolas Van Mieghem received research grant support from Abbott Vascular, Boston Scientific, Medtronic, Edwards Lifesciences, Daiichi Sankyo, PulseCath BV. The other authors have no conflict of interest to declare.

Published
2022
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47. Rationale and design of SAVI-AoS: A physiologic study of patients with symptomatic moderate aortic valve stenosis and preserved left ventricular ejection fraction.

Author

Eerdekens R, Tonino P, Zelis J, Adrichem R, Ahn JM, Demandt J, Eftekhari A, El Farissi M, Freeman P, Rahman Ihdayhid A, Kakouros N, Kim DH, Lee SA, Van Mieghem NM, Qureshi W, and Johnson NP

Abstract

Background: Moderate aortic valve stenosis occurs twice as often as severe aortic stenosis (AS) and carries a similarly poor prognosis. Current European and American guidelines offer limited insight into moderate AS (MAS) patients with unexplained symptoms. Measuring valve physiology at rest while most patients experience symptoms during exertion might represent a conceptual limitation in the current grading of AS severity. The stress aortic valve index (SAVI) may delineate hemodynamically significant AS among patients with MAS., Objectives: To investigate the diagnostic value of SAVI in symptomatic MAS patients with normal left ventricular ejection fraction (LVEF ≥ 50%): aortic valve area (AVA) > 1 cm 2 plus either mean valve gradient (MG) 15-39 mmHg or maximal aortic valve velocity (AOV max) 2.5-3.9 m/s. Short-term objectives include associations with symptom burden, functional capacity, and cardiac biomarkers. Long-term objectives include clinical outcomes., Methods and Results: Multicenter, non-blinded, observational cohort. AS severity will be graded invasively (aortic valve pressure measurements with dobutamine stress testing for SAVI) and non-invasively (echocardiography during dobutamine and exercise stress). Computed tomography (CT) of the aortic valve will be scored for calcium, and hemodynamics simulated using computational fluid dynamics. Cardiac biomarkers and functional parameters will be serially monitored. The primary objective is to see how SAVI and conventional measures (MG, AVA and Vmax) correlate with clinical parameters (quality of life survey, 6-minute walk test [6MWT], and biomarkers)., Conclusions: The SAVI-AoS study will extensively evaluate patients with unexplained, symptomatic MAS to determine any added value of SAVI versus traditional, resting valve parameters., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Author(s).)

Published
2022
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48. Cusp Overlap Versus 3-Cusps-Aligned Transcatheter Aortic Valve Depth Assessment With Different Angiography Projections by Multidetector Computed Tomography.

Author

Hokken TW, Wolff QM, Schermers T, van Wiechen MP, Ooms JF, Adrichem R, Hirsch A, Budde RP, Daemen J, and Van Mieghem NM

Subjects
Angiography, Humans, Multidetector Computed Tomography methods, Treatment Outcome, Aortic Valve diagnostic imaging, Aortic Valve surgery, Aortic Valve Stenosis diagnostic imaging, Aortic Valve Stenosis surgery
Published
2022
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49. PepBiotics, novel cathelicidin-inspired antimicrobials to fight pulmonary bacterial infections.

Author

van Eijk M, van Dijk A, van der Ent CK, Arets HGM, Breukink E, van Os N, Adrichem R, van der Water S, Lino Gómez R, Kristensen M, Hessing M, Jekhmane S, Weingarth M, Veldhuizen RAW, Veldhuizen EJA, and Haagsman HP

Subjects
Animals, Anti-Bacterial Agents administration & dosage, Anti-Bacterial Agents chemistry, Antimicrobial Cationic Peptides administration & dosage, Antimicrobial Cationic Peptides chemistry, Cells, Cultured, Dose-Response Relationship, Drug, Humans, Injections, Spinal, Male, Mice, Mice, Inbred C57BL, Microbial Sensitivity Tests, Cathelicidins, Anti-Bacterial Agents pharmacology, Antimicrobial Cationic Peptides pharmacology, Bacterial Infections drug therapy, Pseudomonas aeruginosa drug effects, Staphylococcus aureus drug effects
Abstract

Background: Antimicrobial peptides are considered potential alternatives to antibiotics. Here we describe the antibacterial properties of a family of novel cathelicidin-related (CR-) peptides, which we named PepBiotics, against bacteria typically present in cystic fibrosis (CF) patients., Methods: Broth dilution assays were used to determine antibacterial activity of PepBiotics under physiological conditions, as well as development of bacterial resistance against these peptides. Toxicity was tested in mice and cell cultures while molecular interactions of PepBiotics with bacterial membrane components was determined using CD, ITC and LPS/LTA induced macrophage studies., Results: A relatively small number of PepBiotics remained highly antibacterial against CF-related respiratory pathogens Pseudomonas aeruginosa and Staphylococcus aureus, at high ionic strength and low pH. Interestingly, these PepBiotics also prevented LPS/LTA induced activation of macrophages and was shown to be non-toxic to primary human nasal epithelial cells. Furthermore, both P. aeruginosa and S. aureus were unable to induce resistance against CR-163 and CR-172, two PepBiotics selected for their excellent antimicrobial and immunomodulatory properties. Toxicity studies in mice indicated that intratracheal administration of CR-163 was well tolerated in vivo. Finally, interaction of CR-163 with bacterial-type anionic membranes but not with mammalian-type (zwitterionic lipid) membranes was confirmed using ITC and 31 P solid state NMR., Conclusions: PepBiotics are a promising novel class of highly active antimicrobial peptides, of which CR-163 showed the most potential for treatment of clinically relevant (CF-) pathogens in physiological conditions., General Significance: These observations emphasize the therapeutic potential of PepBiotics against CF-related bacterial respiratory infections., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2021
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50. Individualized Thromboprophylaxis in Patients with Lower-Leg Cast Immobilization-A Validation and Subgroup Analysis in the POT-CAST Trial.

Author

Nemeth B, van Adrichem R, Nelissen R, le Cessie S, and Cannegieter SC

Subjects
Adult, Body Mass Index, Female, Humans, Leg Injuries complications, Leg Injuries epidemiology, Male, Medical History Taking, Middle Aged, Netherlands epidemiology, Research Design, Risk Factors, Venous Thromboembolism etiology, Venous Thromboembolism prevention & control, Anticoagulants administration & dosage, Casts, Surgical adverse effects, Heparin, Low-Molecular-Weight administration & dosage, Leg Injuries surgery, Venous Thromboembolism epidemiology
Abstract

Background:  A small subgroup of patients treated with lower-leg cast immobilization develops venous thromboembolism (VTE)., Objectives:  (1) Identify risk factors for VTE in patients with cast immobilization, (2) assess the effectiveness of thromboprophylaxis in low- and high-risk groups, and (3) validate the performance of the L-TRiP(cast) score., Methods:  Data from the POT-CAST trial were used. A total of 1,519 patients with lower-leg cast immobilization were randomized to a prophylactic dose of low-molecular-weight heparin or no treatment., Primary Outcome: symptomatic VTE within 3 months. Absolute risks (ARs) were determined for low- and high-risk subgroups. For several risk factors, relative risks (RRs) for VTE were estimated with corresponding 95% confidence intervals (CIs). For validating the L-TRiP(cast) score, a discrimination and calibration analysis were performed., Results:  Patients with a body mass index of > 30 kg/m 2 and those with a VTE in their family history had an increased VTE risk, RR 3.8 (95% CI, 1.5-9.4) and RR 2.4 (95% CI, 1.0-5.6), respectively. Concerning injury-specific risk factors, patients with an Achilles tendon rupture or those who were surgically treated had the highest risk of VTE, AR at 8.5% (95% CI, 3.7-16.1) and AR 3.5% (95% CI, 1.3-7.5), respectively. There were no subgroups in which thromboprophylaxis was effective for prevention of symptomatic VTE. The area under the curve for the L-TRiP(cast) score was 0.69 (95% CI, 0.58-0.80)., Conclusion:  Thromboprophylaxis was not effective for VTE prevention following lower-leg cast immobilization in any risk category. Low- and high-risk individuals could be identified using the L-TRiP(cast) score. The best treatment strategy for these patients is yet to be determined., Competing Interests: None declared., (Georg Thieme Verlag KG Stuttgart · New York.)

Published
2019
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