Purpose: We reviewed the clinical outcomes resulting from various closure techniques used following endoscopic endonasal surgery for lesions in the sellar and parasellar regions. We compared our current closure technique, which uses a biological matrix of native equine collagen (TissuDura) fixed with fibrin sealant (Tisseel), with the technique we employed previously, using autologous materials, in order to assess the comparative efficacy and tolerability of both methods over the medium- to long-term. Methods: A review was conducted of all cases of endonasal endoscopic intervention carried out in our institution between 1997 and 2007. Operations performed between January 1st 1997 and December 31st 2003 involved a sellar closure technique using autologous materials, either alone or supported by fibrin sealant. From January 1st 2004, sellar reconstruction techniques involving resorbable heterologous materials were used in the closure phases. Post-operatively, clinico-endoscopic assessments took place at 15 days, 1, 3, and 6 months and yearly thereafter, supplemented by magnetic resonance imaging (MRI) scanning at 3 months and annually. Results: Between January 1st 1997 and December 31st 2003, 79 operations were performed in which the sellar closure technique involved the use of autologous materials. Between January 1st 2004 and January 1st 2008, 125 operations were performed in which biomaterials were used for sellar closure. The incidence of complications (fluid fistula) was 2.5% in the autologous materials closure group and 1.6% in the biomaterials closure group. The most marked difference between the two approaches was seen at 1-month follow-up, when restoration of mucociliary transport in the sphenoidal sinus and physiological functionality of the nasal mucosa and paranasal sinuses were observed to be superior in the biomaterials patient cohort. Conclusions: The development of biomaterials for closure of the sellar floor offers a viable alternative to traditional techniques using autologous materials. © 2009 Springer-Verlag.

Endonasal approaches to the sellar and parasellar regions: Closure techniques using biomaterials

Canevari F. R. M.
2009-01-01

Abstract

Purpose: We reviewed the clinical outcomes resulting from various closure techniques used following endoscopic endonasal surgery for lesions in the sellar and parasellar regions. We compared our current closure technique, which uses a biological matrix of native equine collagen (TissuDura) fixed with fibrin sealant (Tisseel), with the technique we employed previously, using autologous materials, in order to assess the comparative efficacy and tolerability of both methods over the medium- to long-term. Methods: A review was conducted of all cases of endonasal endoscopic intervention carried out in our institution between 1997 and 2007. Operations performed between January 1st 1997 and December 31st 2003 involved a sellar closure technique using autologous materials, either alone or supported by fibrin sealant. From January 1st 2004, sellar reconstruction techniques involving resorbable heterologous materials were used in the closure phases. Post-operatively, clinico-endoscopic assessments took place at 15 days, 1, 3, and 6 months and yearly thereafter, supplemented by magnetic resonance imaging (MRI) scanning at 3 months and annually. Results: Between January 1st 1997 and December 31st 2003, 79 operations were performed in which the sellar closure technique involved the use of autologous materials. Between January 1st 2004 and January 1st 2008, 125 operations were performed in which biomaterials were used for sellar closure. The incidence of complications (fluid fistula) was 2.5% in the autologous materials closure group and 1.6% in the biomaterials closure group. The most marked difference between the two approaches was seen at 1-month follow-up, when restoration of mucociliary transport in the sphenoidal sinus and physiological functionality of the nasal mucosa and paranasal sinuses were observed to be superior in the biomaterials patient cohort. Conclusions: The development of biomaterials for closure of the sellar floor offers a viable alternative to traditional techniques using autologous materials. © 2009 Springer-Verlag.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11567/1052169
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