Fine tuning of the side-to-side tenorrhaphy: A biomechanical study assessing different side-to-side suture techniques in a porcine tendon model.

Recent studies conclude that a new technique for tendon transfers, the side-to-side tenorrhaphy by Fridén (FR) provides higher biomechanical stability than the established standard first described by Pulvertaft (PT). The aim of this study was to optimize side-to-side tenorrhaphies. We compared PT an...

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Autores principales: Christina J Wilhelm, Marc A Englbrecht, Rainer Burgkart, Carina Micheler, Jan Lang, Christine S Hagen, Riccardo E Giunta, Nikolaus Wachtel
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Publicado: Public Library of Science (PLoS) 2021
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spelling oai:doaj.org-article:82dcd1168fbd42d0920644fb5bbcef4d2021-12-02T20:17:21ZFine tuning of the side-to-side tenorrhaphy: A biomechanical study assessing different side-to-side suture techniques in a porcine tendon model.1932-620310.1371/journal.pone.0257038https://doaj.org/article/82dcd1168fbd42d0920644fb5bbcef4d2021-01-01T00:00:00Zhttps://doi.org/10.1371/journal.pone.0257038https://doaj.org/toc/1932-6203Recent studies conclude that a new technique for tendon transfers, the side-to-side tenorrhaphy by Fridén (FR) provides higher biomechanical stability than the established standard first described by Pulvertaft (PT). The aim of this study was to optimize side-to-side tenorrhaphies. We compared PT and FR tenorrhaphies as well as a potential improvement, termed Woven-Fridén tenorrhaphy (WF), with regard to biomechanical stability. Our results demonstrate superior biomechanical stability and lower bulk of FR and, in particular, WF over PT tenorrhaphies. The WF and FR technnique therefore seem to be a notable alternative to the established standard tenorrhaphy as they display lower bulk and higher stability, permitting successful immediate active mobilization after surgery.Christina J WilhelmMarc A EnglbrechtRainer BurgkartCarina MichelerJan LangChristine S HagenRiccardo E GiuntaNikolaus WachtelPublic Library of Science (PLoS)articleMedicineRScienceQENPLoS ONE, Vol 16, Iss 10, p e0257038 (2021)
institution DOAJ
collection DOAJ
language EN
topic Medicine
R
Science
Q
spellingShingle Medicine
R
Science
Q
Christina J Wilhelm
Marc A Englbrecht
Rainer Burgkart
Carina Micheler
Jan Lang
Christine S Hagen
Riccardo E Giunta
Nikolaus Wachtel
Fine tuning of the side-to-side tenorrhaphy: A biomechanical study assessing different side-to-side suture techniques in a porcine tendon model.
description Recent studies conclude that a new technique for tendon transfers, the side-to-side tenorrhaphy by Fridén (FR) provides higher biomechanical stability than the established standard first described by Pulvertaft (PT). The aim of this study was to optimize side-to-side tenorrhaphies. We compared PT and FR tenorrhaphies as well as a potential improvement, termed Woven-Fridén tenorrhaphy (WF), with regard to biomechanical stability. Our results demonstrate superior biomechanical stability and lower bulk of FR and, in particular, WF over PT tenorrhaphies. The WF and FR technnique therefore seem to be a notable alternative to the established standard tenorrhaphy as they display lower bulk and higher stability, permitting successful immediate active mobilization after surgery.
format article
author Christina J Wilhelm
Marc A Englbrecht
Rainer Burgkart
Carina Micheler
Jan Lang
Christine S Hagen
Riccardo E Giunta
Nikolaus Wachtel
author_facet Christina J Wilhelm
Marc A Englbrecht
Rainer Burgkart
Carina Micheler
Jan Lang
Christine S Hagen
Riccardo E Giunta
Nikolaus Wachtel
author_sort Christina J Wilhelm
title Fine tuning of the side-to-side tenorrhaphy: A biomechanical study assessing different side-to-side suture techniques in a porcine tendon model.
title_short Fine tuning of the side-to-side tenorrhaphy: A biomechanical study assessing different side-to-side suture techniques in a porcine tendon model.
title_full Fine tuning of the side-to-side tenorrhaphy: A biomechanical study assessing different side-to-side suture techniques in a porcine tendon model.
title_fullStr Fine tuning of the side-to-side tenorrhaphy: A biomechanical study assessing different side-to-side suture techniques in a porcine tendon model.
title_full_unstemmed Fine tuning of the side-to-side tenorrhaphy: A biomechanical study assessing different side-to-side suture techniques in a porcine tendon model.
title_sort fine tuning of the side-to-side tenorrhaphy: a biomechanical study assessing different side-to-side suture techniques in a porcine tendon model.
publisher Public Library of Science (PLoS)
publishDate 2021
url https://doaj.org/article/82dcd1168fbd42d0920644fb5bbcef4d
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