TREATMENT OF MITRAL VALVE INSUFFICIENCY BY SHAPE MEMORY POLYMER BASED ACTIVE ANNULOPLASTY

Pilar Lafont Morgado; Andrés Díaz Lantada; Héctor Lorenzo-Yustos; Julio Muñoz-García; Ignacio Rada Martínez; Antonio Jiménez Ramos; José Luis Hernández Riesco

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Paper

TREATMENT OF MITRAL VALVE INSUFFICIENCY BY SHAPE MEMORY POLYMER BASED ACTIVE ANNULOPLASTY

Topics: Biomaterials; Biomechanical Devices; Emerging Technologies

In Proceedings of the First International Conference on Biomedical Electronics and Devices - Volume 1: BIODEVICES, 17-22, 2008 , Funchal, Madeira, Portugal

Authors: Pilar Lafont Morgado ¹ ; Andrés Díaz Lantada ¹ ; Héctor Lorenzo-Yustos ¹ ; Julio Muñoz-García ¹ ; Ignacio Rada Martínez ² ; Antonio Jiménez Ramos ² and José Luis Hernández Riesco ²

Affiliations: ¹ División de Ingeniería de Máquinas – E.T.S.I. Industriales – Universidad Politécnica de Madrid, Spain ; ² Hospital Gómez Ulla, Spain

Keyword(s): Shape Memory Polymers (SMP), Mitral valve Insufficiency, Annuloplasty ring, Laser Stereolithography, Silicone mould vacuum casting, Biomaterials.

Related Ontology Subjects/Areas/Topics: Biomaterials ; Biomechanical Devices ; Biomedical Engineering ; Biomedical Instruments and Devices ; Emerging Technologies ; Telecommunications ; Wireless and Mobile Technologies ; Wireless Information Networks and Systems

Abstract: Active materials are capable of responding in a controlled way to different external physical or chemical stimuli by changing some of their properties. These materials can be used to design and develop sensors, actuators and multifunctional systems with a large number of applications for developing medical devices. (for both surgery and implants). Shape memory polymers are active materials with thermo-mechanical coupling (changes in temperature induce shape changes) and a capacity to recover from high levels of distortion, (much greater than that shown by shape memory alloys), which combined with a lower density and cost has favoured the appearance of numerous applications. In many cases, these materials are of medical grade, which increases the chances of obtaining biocompatible devices. This paper presents the design, manufacture, “shape memory” programming process and in vitro trials of an active annuloplasty ring for the treatment of mitral valve insufficiency, developed by using shape memory polymers. This has been done with the collaboration betweeen researchers from Universidad Politécnica de Madrid and doctors from the Hospital General Central de la Defensa. (More)

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Lafont Morgado, P.; Díaz Lantada, A.; Lorenzo-Yustos, H.; Muñoz-García, J.; Rada Martínez, I.; Jiménez Ramos, A. and Luis Hernández Riesco, J. (2008). TREATMENT OF MITRAL VALVE INSUFFICIENCY BY SHAPE MEMORY POLYMER BASED ACTIVE ANNULOPLASTY. In Proceedings of the First International Conference on Biomedical Electronics and Devices (BIOSTEC 2008) - Volume 1: BIODEVICES; ISBN 978-989-8111- 17-3; ISSN 2184-4305, SciTePress, pages 17-22. DOI: 10.5220/0001046400170022

@conference{biodevices08,
author={Pilar {Lafont Morgado}. and Andrés {Díaz Lantada}. and Héctor Lorenzo{-}Yustos. and Julio Muñoz{-}García. and Ignacio {Rada Martínez}. and Antonio {Jiménez Ramos}. and José {Luis Hernández Riesco}.},
title={TREATMENT OF MITRAL VALVE INSUFFICIENCY BY SHAPE MEMORY POLYMER BASED ACTIVE ANNULOPLASTY},
booktitle={Proceedings of the First International Conference on Biomedical Electronics and Devices (BIOSTEC 2008) - Volume 1: BIODEVICES},
year={2008},
pages={17-22},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0001046400170022},
isbn={978-989-8111- 17-3},
issn={2184-4305},
}

TY - CONF

JO - Proceedings of the First International Conference on Biomedical Electronics and Devices (BIOSTEC 2008) - Volume 1: BIODEVICES
TI - TREATMENT OF MITRAL VALVE INSUFFICIENCY BY SHAPE MEMORY POLYMER BASED ACTIVE ANNULOPLASTY
SN - 978-989-8111- 17-3
IS - 2184-4305
AU - Lafont Morgado, P.
AU - Díaz Lantada, A.
AU - Lorenzo-Yustos, H.
AU - Muñoz-García, J.
AU - Rada Martínez, I.
AU - Jiménez Ramos, A.
AU - Luis Hernández Riesco, J.
PY - 2008
SP - 17
EP - 22
DO - 10.5220/0001046400170022
PB - SciTePress