Resistance and Stability of A New Method for Bonding Biological Materials Using Sutures and Biological Adhesives
Identifieur interne : 001387 ( Main/Exploration ); précédent : 001386; suivant : 001388Resistance and Stability of A New Method for Bonding Biological Materials Using Sutures and Biological Adhesives
Auteurs : J. M. García Paéz [Niger] ; A. Carrera Sanmartín [Espagne] ; E. Jorge Herrero [Espagne] ; I. Millan [Espagne] ; A. Cordon [Espagne] ; A. Rocha ; M. A. Maestro [Espagne] ; G. Téllez [Espagne] ; J. L. Castillo-Olivares [Espagne]Source :
- Journal of biomaterials applications [ 0885-3282 ] ; 2005-01.
Descripteurs français
- Wicri :
- topic : Biomatériau.
English descriptors
- KwdEn :
- Amorphous material, Anisotropic behavior, Available suture material, Biological adhesives, Biological materials, Biomaterials, Biomed, Bioprostheses, Bioprosthetic, Bioprosthetic heart valve leaflets, Bovine pericardium, Calf pericardium, Cardiac, Cardiac bioprostheses, Carrera, Collagen fibers, Confidence interval, Control samples, Curves unit elongation, Elastic behavior, Elastic limit, Elongation, Garcia paez, Gluing, Glutaraldehyde, Heart valve, High degree, Jorge herrero, Leaflet, Limited durability, Longitudinal, Longitudinal samples, Longitudinal samples transected, Longitudinal series, Longitudinally, Lsgc, Mater, Mechanical behavior, Mechanical resistance, Paez, Pericardium, Reversible elongation, Rupture, Sestafe, Significant differences, Standard deviation, Surg, Suture, Sutured, Suturing, Tensile, Tensile stress, Tensile testing, Tissue overlap, Tissue selection criteria, Transected, Transverse, Transverse direction, Transverse samples, Transverse samples transected, Tsgc, Unit elongation, Valve, Valve leaflets, bioadhesives, bioprostheses, mechanical resistance, pericardium, sutures.
- Teeft :
- Amorphous material, Anisotropic behavior, Available suture material, Biological adhesives, Biological materials, Biomaterials, Biomed, Bioprostheses, Bioprosthetic, Bioprosthetic heart valve leaflets, Bovine pericardium, Calf pericardium, Cardiac, Cardiac bioprostheses, Carrera, Collagen fibers, Confidence interval, Control samples, Curves unit elongation, Elastic behavior, Elastic limit, Elongation, Garcia paez, Gluing, Glutaraldehyde, Heart valve, High degree, Jorge herrero, Leaflet, Limited durability, Longitudinal, Longitudinal samples, Longitudinal samples transected, Longitudinal series, Longitudinally, Lsgc, Mater, Mechanical behavior, Mechanical resistance, Paez, Pericardium, Reversible elongation, Rupture, Sestafe, Significant differences, Standard deviation, Surg, Suture, Sutured, Suturing, Tensile, Tensile stress, Tensile testing, Tissue overlap, Tissue selection criteria, Transected, Transverse, Transverse direction, Transverse samples, Transverse samples transected, Tsgc, Unit elongation, Valve, Valve leaflets.
Abstract
The valve leaflets of cardiac bioprostheses are secured and shaped by sutures which, given their high degree of resistance and poor elasticity, have been implicated in the generation of stresses within the leaflets, contributing to the failure of the bioprostheses. Bioadhesives are bonding materials that have begun to be utilized in surgery, although there is a lack of experience in their use with inert tissues or bioprostheses. Tensile testing is performed until rupture in samples of calf pericardium, a biomaterial employed in the manufacture of bioprosthetic heart valve leaflets. One hundred and thirty-two trials are carried out in three types of samples: intact or control tissue (n = 12); samples transected and glued in an overlapping manner with a cyanoacrylate (n = 60); and samples transected, sewn with a commercially available suture material and reinforced at the suture holes with the same cyanoacrylate (n = 60). Seven days after their preparation, 12 samples from each group, including the controls, are subjected to tensile testing until rupture and the findings are compared. In the stability study, groups of 12 each of the remaining 48 glued and 48 sutured and glued samples underwent tensile testing until rupture on days 30, 60, 90, and 120, after their preparation. The results show that bonding with the adhesive provided a resistance ranging between 1.04 and 1.87 kg, probably insufficient for use in valve leaflets, but also afforded a high degree of elasticity. After 120 days, both the glued and the sutured and glued series show excellent elastic behavior, with no rigidity or hardening of the pericardium. These samples present reversible elongation, or strain, when they surpass their elastic limit at rupture. This finding may be due to a load concentration that is damaging to the pericardium, to the behavior of the tissue as an amorphous material, or perhaps to both circumstances. These results need to be confirmed in future studies as they may be of value in the design and manufacture of cardiac bioprostheses.
Url:
DOI: 10.1177/0885328205046633
Affiliations:
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M. García" last="Paéz">J. M. García Paéz</name><affiliation wicri:level="1"><country wicri:rule="url">Niger</country><wicri:regionArea>Servicio de Cirugía Experimental, Clínica Puerta de Hierro, San Martín de Porres 4, 28035 Madrid</wicri:regionArea><wicri:noRegion>28035 Madrid</wicri:noRegion></affiliation></author><author wicri:is="90%"><name sortKey="Sanmartin, A Carrera" sort="Sanmartin, A Carrera" uniqKey="Sanmartin A" first="A. Carrera" last="Sanmartín">A. Carrera Sanmartín</name><affiliation wicri:level="2"><country xml:lang="fr">Espagne</country><wicri:regionArea>Departamento de Mecánica Estructural y Resistencia de Materiales, Escuela Técnica Superior de Ingenieros Industriales, José Gutiérrez Abascal 2, 28006 Madrid</wicri:regionArea><placeName><region nuts="2" type="communauté">Communauté de Madrid</region></placeName></affiliation></author><author wicri:is="90%"><name sortKey="Herrero, E Jorge" sort="Herrero, E Jorge" uniqKey="Herrero E" first="E. Jorge" last="Herrero">E. Jorge Herrero</name><affiliation wicri:level="2"><country xml:lang="fr">Espagne</country><wicri:regionArea>Servicio de Cirugía Experimental, Clínica Puerta de Hierro, San Martín de Porres 4, 28035 Madrid</wicri:regionArea><placeName><region nuts="2" type="communauté">Communauté de Madrid</region></placeName></affiliation></author><author wicri:is="90%"><name sortKey="Millan, I" sort="Millan, I" uniqKey="Millan I" first="I." last="Millan">I. Millan</name><affiliation wicri:level="2"><country xml:lang="fr">Espagne</country><wicri:regionArea>Servicio de Bioestadística, Clínica Puerta de Hierro, San Martín de Porres 4, 28035 Madrid</wicri:regionArea><placeName><region nuts="2" type="communauté">Communauté de Madrid</region></placeName></affiliation></author><author wicri:is="90%"><name sortKey="Cordon, A" sort="Cordon, A" uniqKey="Cordon A" first="A." last="Cordon">A. Cordon</name><affiliation wicri:level="2"><country xml:lang="fr">Espagne</country><wicri:regionArea>Departamento de Mecánica Estructural y Resistencia de Materiales, Escuela Técnica Superior de Ingenieros Industriales, José Gutiérrez Abascal 2, 28006 Madrid</wicri:regionArea><placeName><region nuts="2" type="communauté">Communauté de Madrid</region></placeName></affiliation></author><author wicri:is="90%"><name sortKey="Rocha, A" sort="Rocha, A" uniqKey="Rocha A" first="A." last="Rocha">A. Rocha</name></author><author wicri:is="90%"><name sortKey="Maestro, M A" sort="Maestro, M A" uniqKey="Maestro M" first="M. A." last="Maestro">M. A. 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Castillo-Olivares</name><affiliation wicri:level="2"><country xml:lang="fr">Espagne</country><wicri:regionArea>Servicio de Cirugía Experimental, Clínica Puerta de Hierro, San Martín de Porres 4, 28035 Madrid</wicri:regionArea><placeName><region nuts="2" type="communauté">Communauté de Madrid</region></placeName></affiliation></author></analytic><monogr></monogr><series><title level="j">Journal of biomaterials applications</title><title level="j" type="abbrev">J Biomater Appl</title><idno type="ISSN">0885-3282</idno><idno type="eISSN">1530-8022</idno><imprint><publisher>SAGE Publications</publisher><date type="published" when="2005-01">2005-01</date><biblScope unit="volume">19</biblScope><biblScope unit="issue">3</biblScope><biblScope unit="page" from="215">215</biblScope><biblScope unit="page" to="236">236</biblScope></imprint><idno type="ISSN">0885-3282</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0885-3282</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Amorphous material</term><term>Anisotropic behavior</term><term>Available suture material</term><term>Biological adhesives</term><term>Biological materials</term><term>Biomaterials</term><term>Biomed</term><term>Bioprostheses</term><term>Bioprosthetic</term><term>Bioprosthetic heart valve leaflets</term><term>Bovine pericardium</term><term>Calf pericardium</term><term>Cardiac</term><term>Cardiac bioprostheses</term><term>Carrera</term><term>Collagen fibers</term><term>Confidence interval</term><term>Control samples</term><term>Curves unit elongation</term><term>Elastic behavior</term><term>Elastic limit</term><term>Elongation</term><term>Garcia paez</term><term>Gluing</term><term>Glutaraldehyde</term><term>Heart valve</term><term>High degree</term><term>Jorge herrero</term><term>Leaflet</term><term>Limited durability</term><term>Longitudinal</term><term>Longitudinal samples</term><term>Longitudinal samples transected</term><term>Longitudinal series</term><term>Longitudinally</term><term>Lsgc</term><term>Mater</term><term>Mechanical behavior</term><term>Mechanical resistance</term><term>Paez</term><term>Pericardium</term><term>Reversible elongation</term><term>Rupture</term><term>Sestafe</term><term>Significant differences</term><term>Standard deviation</term><term>Surg</term><term>Suture</term><term>Sutured</term><term>Suturing</term><term>Tensile</term><term>Tensile stress</term><term>Tensile testing</term><term>Tissue overlap</term><term>Tissue selection criteria</term><term>Transected</term><term>Transverse</term><term>Transverse direction</term><term>Transverse samples</term><term>Transverse samples transected</term><term>Tsgc</term><term>Unit elongation</term><term>Valve</term><term>Valve leaflets</term><term>bioadhesives</term><term>bioprostheses</term><term>mechanical resistance</term><term>pericardium</term><term>sutures</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Amorphous material</term><term>Anisotropic behavior</term><term>Available suture material</term><term>Biological adhesives</term><term>Biological materials</term><term>Biomaterials</term><term>Biomed</term><term>Bioprostheses</term><term>Bioprosthetic</term><term>Bioprosthetic heart valve leaflets</term><term>Bovine pericardium</term><term>Calf pericardium</term><term>Cardiac</term><term>Cardiac bioprostheses</term><term>Carrera</term><term>Collagen fibers</term><term>Confidence interval</term><term>Control samples</term><term>Curves unit elongation</term><term>Elastic behavior</term><term>Elastic limit</term><term>Elongation</term><term>Garcia paez</term><term>Gluing</term><term>Glutaraldehyde</term><term>Heart valve</term><term>High degree</term><term>Jorge herrero</term><term>Leaflet</term><term>Limited durability</term><term>Longitudinal</term><term>Longitudinal samples</term><term>Longitudinal samples transected</term><term>Longitudinal series</term><term>Longitudinally</term><term>Lsgc</term><term>Mater</term><term>Mechanical behavior</term><term>Mechanical resistance</term><term>Paez</term><term>Pericardium</term><term>Reversible elongation</term><term>Rupture</term><term>Sestafe</term><term>Significant differences</term><term>Standard deviation</term><term>Surg</term><term>Suture</term><term>Sutured</term><term>Suturing</term><term>Tensile</term><term>Tensile stress</term><term>Tensile testing</term><term>Tissue overlap</term><term>Tissue selection criteria</term><term>Transected</term><term>Transverse</term><term>Transverse direction</term><term>Transverse samples</term><term>Transverse samples transected</term><term>Tsgc</term><term>Unit elongation</term><term>Valve</term><term>Valve leaflets</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Biomatériau</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">The valve leaflets of cardiac bioprostheses are secured and shaped by sutures which, given their high degree of resistance and poor elasticity, have been implicated in the generation of stresses within the leaflets, contributing to the failure of the bioprostheses. Bioadhesives are bonding materials that have begun to be utilized in surgery, although there is a lack of experience in their use with inert tissues or bioprostheses. Tensile testing is performed until rupture in samples of calf pericardium, a biomaterial employed in the manufacture of bioprosthetic heart valve leaflets. One hundred and thirty-two trials are carried out in three types of samples: intact or control tissue (n = 12); samples transected and glued in an overlapping manner with a cyanoacrylate (n = 60); and samples transected, sewn with a commercially available suture material and reinforced at the suture holes with the same cyanoacrylate (n = 60). Seven days after their preparation, 12 samples from each group, including the controls, are subjected to tensile testing until rupture and the findings are compared. In the stability study, groups of 12 each of the remaining 48 glued and 48 sutured and glued samples underwent tensile testing until rupture on days 30, 60, 90, and 120, after their preparation. The results show that bonding with the adhesive provided a resistance ranging between 1.04 and 1.87 kg, probably insufficient for use in valve leaflets, but also afforded a high degree of elasticity. After 120 days, both the glued and the sutured and glued series show excellent elastic behavior, with no rigidity or hardening of the pericardium. These samples present reversible elongation, or strain, when they surpass their elastic limit at rupture. This finding may be due to a load concentration that is damaging to the pericardium, to the behavior of the tissue as an amorphous material, or perhaps to both circumstances. These results need to be confirmed in future studies as they may be of value in the design and manufacture of cardiac bioprostheses.</div></front></TEI><affiliations><list><country><li>Espagne</li><li>Niger</li></country><region><li>Communauté de Madrid</li></region></list><tree><noCountry><name sortKey="Rocha, A" sort="Rocha, A" uniqKey="Rocha A" first="A." last="Rocha">A. Rocha</name></noCountry><country name="Niger"><noRegion><name sortKey="Paez, J M Garcia" sort="Paez, J M Garcia" uniqKey="Paez J" first="J. M. García" last="Paéz">J. M. García Paéz</name></noRegion></country><country name="Espagne"><region name="Communauté de Madrid"><name sortKey="Sanmartin, A Carrera" sort="Sanmartin, A Carrera" uniqKey="Sanmartin A" first="A. Carrera" last="Sanmartín">A. Carrera Sanmartín</name></region><name sortKey="Castillo Olivares, J L" sort="Castillo Olivares, J L" uniqKey="Castillo Olivares J" first="J. L." last="Castillo-Olivares">J. L. Castillo-Olivares</name><name sortKey="Cordon, A" sort="Cordon, A" uniqKey="Cordon A" first="A." last="Cordon">A. Cordon</name><name sortKey="Herrero, E Jorge" sort="Herrero, E Jorge" uniqKey="Herrero E" first="E. Jorge" last="Herrero">E. Jorge Herrero</name><name sortKey="Maestro, M A" sort="Maestro, M A" uniqKey="Maestro M" first="M. A." last="Maestro">M. A. Maestro</name><name sortKey="Millan, I" sort="Millan, I" uniqKey="Millan I" first="I." last="Millan">I. Millan</name><name sortKey="Tellez, G" sort="Tellez, G" uniqKey="Tellez G" first="G." last="Téllez">G. Téllez</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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