Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/47354
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dc.contributor.authorCuadrado, A.
dc.contributor.authorYánez, A.
dc.contributor.authorCarta, J. A.
dc.contributor.authorGarcés, G.
dc.contributor.otherCuadrado Hernandez, Alberto
dc.contributor.otherYanez Santana, Alejandro
dc.date.accessioned2018-11-23T12:53:26Z-
dc.date.available2018-11-23T12:53:26Z-
dc.date.issued2013
dc.identifier.issn1350-4533
dc.identifier.urihttp://hdl.handle.net/10553/47354-
dc.description.abstractThis paper analyses the suitability of a system comprising a Dynamic Compression Plate (DCP) and Screw Locking Elements (SLEs) to allow sufficient interfragmentary motion to promote secondary bone healing in osteoporotic fractures.Four fixation systems were mounted on bone-simulating reinforced epoxy bars filled with solid rigid polyurethane foam. Group 1, used for comparison purposes, represents a system comprised of a Locking Compression Plate (LCP) and eight locking screws. Groups 2 and 3 represent a system comprised of a DCP plate with eight cortical screws and two SLEs placed on the screws furthest from (group 2) and nearest to (group 3) the fracture. Group 4 represents the system comprised of a DCP plate with SLEs placed on all eight cortical screws. Cyclic compression tests of up to 10,000 load cycles were performed in order to determine the parameters of interest, namely the stiffnesses and the interfragmentary motion of the various configurations under consideration. Tukey's multiple comparison test was used to analyse the existence or otherwise of significant differences between the means of the groups.At 10,000 cycles, interfragmentary motion at the far cortex for group 2 was 0.60 +/- 0.04 mm and for group 3 0.59 +/- 0.03 mm (there being no significant differences: p = 0.995). The mean interfragmentary motion at the far cortex of the LCP construct was 70% less than that of the two groups with 2SLEs (there being significant differences: p = 1.1 x 10(-8)). In the case of group 4 this figure was 45% less than in groups 2 and 3 (there being significant differences: p = 5.6 x 10(-6)). At 10,000 cycles, interfragmentary motion at the near cortex for group 2 was 0.24 +/- 0.06 mm and for group 30.24 +/- 0.03 mm (there being no significant differences: p = 1.000). The mean interfragmentary motion at the near cortex of the LCP construct was 70.8% less than that of the two groups with 2SLEs (there being significant differences: p = 0.011). In the case of group 4 this figure was 66.7% less than in groups 2 and 3 (there being significant differences: p = 0.016). The mean stiffness at 10,000 cycles was 960 +/- 110 N mm(-1) for group 2 and 969 +/- 53 N mm(-1) for group 3 (there being no significant differences: p = 1.000). For group 1 (the LCP construct) the mean stiffness at 10,000 cycles was 3144 +/- 446 N mm(-1), 3.25 times higher than that of groups 2 and 3 (there being significant differences: p = 0.00002), and 1.6 times higher than that of the DCP + 8SLEs construct (1944 +/- 408 N mm-1, there being significant differences: p = 0.007).It is concluded that using the DCP + 2SLEs construct sufficient interfragmentary motion is ensured to promote secondary bone healing. However, if too many SLEs are used the result may be, as with the LCP, an excessively rigid system for callus formation. (c) 2012 IPEM. Published by Elsevier Ltd. All rights reserved.
dc.publisher1350-4533
dc.relation.ispartofMedical Engineering and Physics
dc.sourceMedical Engineering and Physics[ISSN 1350-4533],v. 35, p. 852-859
dc.subject.otherFar Cortical Locking
dc.subject.otherPlate Fixation
dc.subject.otherCompression Plate
dc.subject.otherBiomechanical Evaluation
dc.subject.otherMechanical Validation
dc.subject.otherInternal Fixators
dc.subject.otherStiffness
dc.subject.otherConstructs
dc.subject.otherFemurs
dc.subject.otherNumber
dc.titleSuitability of DCPs with screw locking elements to allow sufficient interfragmentary motion to promote secondary bone healing of osteoporotic fractures
dc.typeinfo:eu-repo/semantics/Articlees
dc.typeArticlees
dc.identifier.doi10.1016/j.medengphy.2012.08.018
dc.identifier.scopus84890860582
dc.identifier.isi000320413400017
dcterms.isPartOfMedical Engineering & Physics
dcterms.sourceMedical Engineering & Physics[ISSN 1350-4533],v. 35 (6), p. 852-859
dc.contributor.authorscopusid7005588567
dc.contributor.authorscopusid56423836100
dc.contributor.authorscopusid7003652043
dc.contributor.authorscopusid56406565300
dc.description.lastpage859
dc.description.firstpage852
dc.relation.volume35
dc.type2Artículoes
dc.identifier.wosWOS:000320413400017
dc.contributor.daisngid3815560
dc.contributor.daisngid150475
dc.contributor.daisngid35037967
dc.contributor.daisngid1198474
dc.contributor.daisngid197246
dc.contributor.daisngid34942581
dc.identifier.investigatorRIDI-2050-2015
dc.identifier.investigatorRIDNo ID
dc.contributor.wosstandardWOS:Cuadrado, A
dc.contributor.wosstandardWOS:Yanez, A
dc.contributor.wosstandardWOS:Carta, JA
dc.contributor.wosstandardWOS:Garces, G
dc.date.coverdateEnero 2013
dc.identifier.ulpgces
dc.description.sjr0,834
dc.description.jcr1,839
dc.description.sjrqQ2
dc.description.jcrqQ2
dc.description.scieSCIE
item.grantfulltextnone-
item.fulltextSin texto completo-
crisitem.author.deptGIR Biomaterials and Biomechanics Research Group-
crisitem.author.deptDepartamento de Ingeniería Mecánica-
crisitem.author.deptGIR Biomaterials and Biomechanics Research Group-
crisitem.author.deptDepartamento de Ingeniería Mecánica-
crisitem.author.deptGIR Group for the Research on Renewable Energy Systems-
crisitem.author.deptDepartamento de Ingeniería Mecánica-
crisitem.author.orcid0000-0002-8599-781X-
crisitem.author.orcid0000-0002-1736-552X-
crisitem.author.orcid0000-0003-1379-0075-
crisitem.author.parentorgDepartamento de Ingeniería Mecánica-
crisitem.author.parentorgDepartamento de Ingeniería Mecánica-
crisitem.author.parentorgDepartamento de Ingeniería Mecánica-
crisitem.author.fullNameCuadrado Hernández, Alberto Javier-
crisitem.author.fullNameYánez Santana, Manuel Alejandro-
crisitem.author.fullNameCarta González, José Antonio-
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