Sealing effectiveness of a novel NHS-POx based patch: experiments in a dynamic ex vivo porcine lung

BACKGROUND: Sealants are used to prevent prolonged pulmonary air leakage (PAL) after lung resections (incidence 5.6–30%). However, clinical evidence to support sealant use is insufficient, with an unmet need for a more effective product. We compared a novel gelatin patch impregnated with functionali...

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Autores principales: Hermans, Bob P., Li, Wilson W. L., Roozen, Edwin A., van Dort, Daniël I. M., Evers, Jort, van der Heijden, Erik H. F. M., van der Heide, Stefan M., van Goor, Harry, Verhagen, Ad F. T. M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: AME Publishing Company 2023
Materias:
Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10407471/
https://www.ncbi.nlm.nih.gov/pubmed/37559645
http://dx.doi.org/10.21037/jtd-22-1821
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author Hermans, Bob P.
Li, Wilson W. L.
Roozen, Edwin A.
van Dort, Daniël I. M.
Evers, Jort
van der Heijden, Erik H. F. M.
van der Heide, Stefan M.
van Goor, Harry
Verhagen, Ad F. T. M.
author_facet Hermans, Bob P.
Li, Wilson W. L.
Roozen, Edwin A.
van Dort, Daniël I. M.
Evers, Jort
van der Heijden, Erik H. F. M.
van der Heide, Stefan M.
van Goor, Harry
Verhagen, Ad F. T. M.
author_sort Hermans, Bob P.
collection PubMed
description BACKGROUND: Sealants are used to prevent prolonged pulmonary air leakage (PAL) after lung resections (incidence 5.6–30%). However, clinical evidence to support sealant use is insufficient, with an unmet need for a more effective product. We compared a novel gelatin patch impregnated with functionalized polyoxazolines (NHS-POx) (GATT-Patch) to commercially available sealant products. METHODS: GATT-Patch Single/Double layers were compared to Progel(®), Coseal(®), Hemopatch(®) and TachoSil(®) in an ex vivo porcine lung model (first experiment). Based on these results, a second head-to-head comparison between GATT-Patch Single and Hemopatch(®) was performed. Air leakage (AL) was assessed in three settings using increasing ventilatory pressures (max =70 cmH(2)O): (I) baseline, (II) with 25 mm × 25 mm superficial pleural defect, and (III) after sealant application. Lungs floating on saline (37 ℃) were video recorded for visual AL assessment. Pressure and tidal volumes were collected from the ventilator, and bursting pressure (BP), AL and AL-reduction were determined. RESULTS: Per sealant 10 measurements were performed (both experiments). In the first experiment, BP was superior for GATT-Patch Double (60±24 cmH(2)O) compared to TachoSil(®) (30±11 cmH(2)O, P<0.001), Hemopatch(®) (33±6 cmH(2)O, P=0.006), Coseal(®) (25±13 cmH(2)O, P=0.001) and Progel(®) (33±11 cmH(2)O, P=0.005). AL-reduction was superior for GATT-Patch Double (100%±1%) compared to Hemopatch(®) (46%±50%, P=0.010) and TachoSil(®) (31%±29%, P<0.001), and also for GATT-Patch Single (100%±14%, P=0.004) and Progel (89%±40%, P=0.027) compared to TachoSil(®). In the second experiment, GATT-Patch Single was superior regarding BP (45±10 vs. 40±6 cmH(2)O, P=0.043) and AL-reduction (100%±11% vs. 68%±40%, P=0.043) when compared to Hemopatch(®). CONCLUSIONS: The novel NHS-POx patch shows promise as a lung sealant, demonstrating elevated BP, good adhesive strength and a superior AL-reduction.
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spelling pubmed-104074712023-08-09 Sealing effectiveness of a novel NHS-POx based patch: experiments in a dynamic ex vivo porcine lung Hermans, Bob P. Li, Wilson W. L. Roozen, Edwin A. van Dort, Daniël I. M. Evers, Jort van der Heijden, Erik H. F. M. van der Heide, Stefan M. van Goor, Harry Verhagen, Ad F. T. M. J Thorac Dis Original Article BACKGROUND: Sealants are used to prevent prolonged pulmonary air leakage (PAL) after lung resections (incidence 5.6–30%). However, clinical evidence to support sealant use is insufficient, with an unmet need for a more effective product. We compared a novel gelatin patch impregnated with functionalized polyoxazolines (NHS-POx) (GATT-Patch) to commercially available sealant products. METHODS: GATT-Patch Single/Double layers were compared to Progel(®), Coseal(®), Hemopatch(®) and TachoSil(®) in an ex vivo porcine lung model (first experiment). Based on these results, a second head-to-head comparison between GATT-Patch Single and Hemopatch(®) was performed. Air leakage (AL) was assessed in three settings using increasing ventilatory pressures (max =70 cmH(2)O): (I) baseline, (II) with 25 mm × 25 mm superficial pleural defect, and (III) after sealant application. Lungs floating on saline (37 ℃) were video recorded for visual AL assessment. Pressure and tidal volumes were collected from the ventilator, and bursting pressure (BP), AL and AL-reduction were determined. RESULTS: Per sealant 10 measurements were performed (both experiments). In the first experiment, BP was superior for GATT-Patch Double (60±24 cmH(2)O) compared to TachoSil(®) (30±11 cmH(2)O, P<0.001), Hemopatch(®) (33±6 cmH(2)O, P=0.006), Coseal(®) (25±13 cmH(2)O, P=0.001) and Progel(®) (33±11 cmH(2)O, P=0.005). AL-reduction was superior for GATT-Patch Double (100%±1%) compared to Hemopatch(®) (46%±50%, P=0.010) and TachoSil(®) (31%±29%, P<0.001), and also for GATT-Patch Single (100%±14%, P=0.004) and Progel (89%±40%, P=0.027) compared to TachoSil(®). In the second experiment, GATT-Patch Single was superior regarding BP (45±10 vs. 40±6 cmH(2)O, P=0.043) and AL-reduction (100%±11% vs. 68%±40%, P=0.043) when compared to Hemopatch(®). CONCLUSIONS: The novel NHS-POx patch shows promise as a lung sealant, demonstrating elevated BP, good adhesive strength and a superior AL-reduction. AME Publishing Company 2023-07-10 2023-07-31 /pmc/articles/PMC10407471/ /pubmed/37559645 http://dx.doi.org/10.21037/jtd-22-1821 Text en 2023 Journal of Thoracic Disease. All rights reserved. https://creativecommons.org/licenses/by-nc-nd/4.0/Open Access Statement: This is an Open Access article distributed in accordance with the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International License (CC BY-NC-ND 4.0), which permits the non-commercial replication and distribution of the article with the strict proviso that no changes or edits are made and the original work is properly cited (including links to both the formal publication through the relevant DOI and the license). See: https://creativecommons.org/licenses/by-nc-nd/4.0 (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle Original Article
Hermans, Bob P.
Li, Wilson W. L.
Roozen, Edwin A.
van Dort, Daniël I. M.
Evers, Jort
van der Heijden, Erik H. F. M.
van der Heide, Stefan M.
van Goor, Harry
Verhagen, Ad F. T. M.
Sealing effectiveness of a novel NHS-POx based patch: experiments in a dynamic ex vivo porcine lung
title Sealing effectiveness of a novel NHS-POx based patch: experiments in a dynamic ex vivo porcine lung
title_full Sealing effectiveness of a novel NHS-POx based patch: experiments in a dynamic ex vivo porcine lung
title_fullStr Sealing effectiveness of a novel NHS-POx based patch: experiments in a dynamic ex vivo porcine lung
title_full_unstemmed Sealing effectiveness of a novel NHS-POx based patch: experiments in a dynamic ex vivo porcine lung
title_short Sealing effectiveness of a novel NHS-POx based patch: experiments in a dynamic ex vivo porcine lung
title_sort sealing effectiveness of a novel nhs-pox based patch: experiments in a dynamic ex vivo porcine lung
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10407471/
https://www.ncbi.nlm.nih.gov/pubmed/37559645
http://dx.doi.org/10.21037/jtd-22-1821
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