Your search keyword '"Van Malderen, Sophie"' showing total 5 results

1. Comparative study of the failure rates among 3 implantable defibrillator leads.

Author

van Malderen, Sophie C.H., Szili-Torok, Tamas, Yap, Sing C., Hoeks, Sanne E., Zijlstra, Felix, and Theuns, Dominic A.M.J.

Abstract

Background: After the introduction of the Biotronik Linox S/SD high-voltage lead, several cases of early failure have been observed.Objective: The purpose of this article was to assess the performance of the Linox S/SD lead in comparison to 2 other contemporary leads.Methods: We used the prospective Erasmus MC ICD registry to identify all implanted Linox S/SD (n = 408), Durata (St. Jude Medical, model 7122) (n = 340), and Endotak Reliance (Boston Scientific, models 0155, 0138, and 0158) (n = 343) leads. Lead failure was defined by low- or high-voltage impedance, failure to capture, sense or defibrillate, or the presence of nonphysiological signals not due to external interference.Results: During a median follow-up of 5.1 years, 24 Linox (5.9%), 5 Endotak (1.5%), and 5 Durata (1.5%) leads failed. At 5-year follow-up, the cumulative failure rate of Linox leads (6.4%) was higher than that of Endotak (0.4%; P < .0001) and Durata (2.0%; P = .003) leads. The incidence rate was higher in Linox leads (1.3 per 100 patient-years) than in Endotak and Durata leads (0.2 and 0.3 per 100 patient-years, respectively; P < .001). A log-log analysis of the cumulative hazard for Linox leads functioning at 3-year follow-up revealed a stable failure rate of 3% per year. The majority of failures consisted of noise (62.5%) and abnormal impedance (33.3%).Conclusion: This study demonstrates a higher failure rate of Linox S/SD high-voltage leads compared to contemporary leads. Although the mechanism of lead failure is unclear, the majority presents with abnormal electrical parameters. Comprehensive monitoring of Linox S/SD high-voltage leads includes remote monitoring to facilitate early detection of lead failure. [ABSTRACT FROM AUTHOR]

Published

2016

2. What the internist should know about hereditary muscle channelopathies

Author

Bissay, Véronique and Van Malderen, Sophie C. H.

Abstract

AbstractObjectives:Non-dystrophic myotonia, periodic paralysis and, to a certain extent, myotonic dystrophies are rare hereditary skeletal muscle channelopathies, charactarized by myotonia or episodic muscle weakness. This review highlights the diagnostic challenges and treatment options.Results: Some of these rare skeletal muscle disorders are associated with a broad range of systemic and nonspecific muscle symptoms. Consequently, patients are often referred to the internist before seeing a neurologist. This article provides clinical clues to better diagnose an tackle these unique disorders.Conclusion: A increased knowledge will reduce the diagnostic delay, improve monitoring and treatment, and might even prevent potentially life-threatening conditions as seen in DM.

Published

2018

3. Prognostic Value of Programmed Electrical Stimulation in Brugada Syndrome.

Author

Sieira, Juan, Conte, Giulio, Ciconte, Giuseppe, de Asmundis, Carlo, Chierchia, Gian-Battista, Baltogiannis, Giannis, Di Giovanni, Giacomo, Yukio Saitoh, Irfan, Ghazala, Casado-Arroyo, Ruben, Juliá, Justo, Meir, Mark La, Wellens, Francis, Wauters, Kristel, Van Malderen, Sophie, Pappaert, Gudrun, and Brugada, Pedro

Published

2015

4. SCN4A variants and Brugada syndrome: phenotypic and genotypic overlap between cardiac and skeletal muscle sodium channelopathies

Author

Bissay, Véronique, Van Malderen, Sophie CH, Keymolen, Kathelijn, Lissens, Willy, Peeters, Uschi, Daneels, Dorien, Jansen, Anna C, Pappaert, Gudrun, Brugada, Pedro, De Keyser, Jacques, and Van Dooren, Sonia

Abstract

SCN5A mutations involving the α-subunit of the cardiac voltage-gated muscle sodium channel (NaV1.5) result in different cardiac channelopathies with an autosomal-dominant inheritance such as Brugada syndrome. On the other hand, mutations in SCN4A encoding the α-subunit of the skeletal voltage-gated sodium channel (NaV1.4) cause non-dystrophic myotonia and/or periodic paralysis. In this study, we investigated whether cardiac arrhythmias or channelopathies such as Brugada syndrome can be part of the clinical phenotype associated with SCN4A variants and whether patients with Brugada syndrome present with non-dystrophic myotonia or periodic paralysis and related gene mutations. We therefore screened seven families with different SCN4A variants and non-dystrophic myotonia phenotypes for Brugada syndrome and performed a neurological, neurophysiological and genetic work-up in 107 Brugada families. In the families with an SCN4A-associated non-dystrophic myotonia, three patients had a clinical diagnosis of Brugada syndrome, whereas we found a remarkably high prevalence of myotonic features involving different genes in the families with Brugada syndrome. One Brugada family carried an SCN4A variant that is predicted to probably affect function, one family suffered from a not genetically confirmed non-dystrophic myotonia, one family was diagnosed with myotonic dystrophy (DMPK gene) and one family had a Thomsen disease myotonia congenita (CLCN1 variant that affects function). Our findings and data suggest a possible involvement of SCN4A variants in the pathophysiological mechanism underlying the development of a spontaneous or drug-induced type 1 electrocardiographic pattern and the occurrence of malignant arrhythmias in some patients with Brugada syndrome.

Published

2016

5. Prognostic Value of Programmed Electrical Stimulation in Brugada Syndrome

Author

Sieira, Juan, Conte, Giulio, Ciconte, Giuseppe, de Asmundis, Carlo, Chierchia, Gian-Battista, Baltogiannis, Giannis, Di Giovanni, Giacomo, Saitoh, Yukio, Irfan, Ghazala, Casado-Arroyo, Ruben, Juliá, Justo, La Meir, Mark, Wellens, Francis, Wauters, Kristel, Van Malderen, Sophie, Pappaert, Gudrun, and Brugada, Pedro

Published

2015