6533b828fe1ef96bd12879b8
RESEARCH PRODUCT
Positioning of the cross-stitch on the modified Kessler core tendon suture
F Gomar-sanchoLuis Gil-santosJorge Más-estellésManuel Monleón-pradassubject
ResistanceBiomedical Engineering030230 surgeryTendonsBiomaterials03 medical and health sciences0302 clinical medicineSuture (anatomy)Tendon InjuriesTensile StrengthmedicineHumansOrthopedic ProceduresBiomechanicsFlexor tendonOrthodontics030222 orthopedicsSuturesFlexor tendonSuture TechniquesBiomechanicsCore suturePlastic Surgery ProceduresEvidence levelBiomechanical PhenomenaTendonCore (optical fiber)Core and peripheral suturemedicine.anatomical_structureCross-stitchMechanics of MaterialsFISICA APLICADAMAQUINAS Y MOTORES TERMICOSGeologyRepairdescription
[EN] Cryopreserved human tendons were sutured with different variations of a modified Kessler-type grasping suture in a series of different designs in order to assess the influence of the distance between the cross-stitch on the core suture (5 and 10 mm from the cut tendon edge) on the peripheral suture. An original mathematical model was employed to explain the mechanical behavior (strength, deformation, and distribution of load) of the different suture designs. The effect of the peripheral epitendinous suture, combined with the distance of the core suture, was evaluated. The variation of core suture distance had no relevant consequences on the overall resilience of the design. However, increasing the distance between the cross-stitches of the core suture reduces the deformation that is absorbed not only by the core suture itself but also by the peripheral suture. Adding a peripheral epitendinous suture to a 10-mm design almost doubles the breaking load in absolute values. The mathematical model predicts that the peripheral suture will support a greater load when the distance of the core suture cross-stitches is increased. The evidence level is II.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-01-01 |