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Which flexible ureteroscopes (digital vs. fiber-optic) can easily reach the difficult lower pole calices and have better end-tip deflection: In vitro study on K-Box. A PETRA evaluation

Which flexible ureteroscopes (digital vs. fiber-optic) can easily reach the difficult lower pole calices and have better end-tip deflection: In vitro study on K-Box. A PETRA evaluation
Which flexible ureteroscopes (digital vs. fiber-optic) can easily reach the difficult lower pole calices and have better end-tip deflection: In vitro study on K-Box. A PETRA evaluation

BACKGROUND AND PURPOSE: Modern flexible ureteroscopes (fURSs) have good deflection, but despite this, approaching an acute angled calix can still be difficult. The goals of our in vitro study were to assess the ability of the available modern fURSs to effectively access the sharp angled calices and to compare the end-tip deflection of the various fiber-optic and digital fURSs.

MATERIALS AND METHODS: Using a bench-training model for FURS (K-Box, Porgès-Coloplast), we tried to access an acute angled calix with nine different fURSs (BOA vision, COBRA vision, R.Wolf; FLEX X2, FLEX Xc, K.Storz; LithoVue, Boston Scientific; URF-P5, URF-P6, URF-V, URF-V2, Olympus). Passing the fURSs through a ureteral access sheath (ReTrace, Porgès-Coloplast), the maximum end-tip deflection for every fURS was measured with the tip extended out from the sheath at 1, 2, 3, and 4 cm. Two ranking methods were designed for scoring the fURSs, one based on total ranking points and the other on total degrees of deflection.

RESULTS: While all fiber-optic fURSs (except URF-P6) were able to access the sharp angled calix, none of the digital fURSs (except FLEX Xc) reached the difficult angled calix. Similarly, all fiber-optic fURSs had better end-tip deflection compared with the digital fURSs, except FLEX Xc, which was as deflectable as the fiber-optic fURSs. The fURSs showed an end-tip deflection (median difference of almost 21°) in favor of fiber-optic fURSs. Based on the scoring, the highest ranked fURS (best deflection) was FLEX X2 and the lowest ranked fURS (worst deflection) was URF-V2.

CONCLUSIONS: Digital fURSs were less effective in accessing the sharp angled calix and they had lesser end-tip deflection compared with the fiber-optic counterparts. When approaching a difficult lower pole calix, it might be better to use a fiber-optic fURS.

Equipment Design, Fiber Optic Technology, Humans, Kidney Calices, Ureteroscopes, Ureteroscopy, Journal Article
0892-7790
630-637
Dragos, Laurian B.
abd83e0d-c173-42c7-b457-d1a876775668
Somani, Bhaskar K.
ab5fd1ce-02df-4b88-b25e-8ece396335d9
Sener, Emre T.
1940003e-2aa0-4dff-8ecf-20ae84abdb88
Buttice, Salvatore
95832a21-ed26-4b33-aed2-08c926408c2c
Proietti, Silvia
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Ploumidis, Achilles
912f53a6-e680-4f6f-8ae9-2477f8584611
Iacoboaie, Catalin T.
2e30090a-62db-499a-abc8-74ddcf8dcb93
Doizi, Steeve
78d0331b-2eee-459b-97bd-8e728868211e
Traxer, Olivier
2fa78817-b6f8-4f00-b389-c9c9ddbd01f3
Dragos, Laurian B.
abd83e0d-c173-42c7-b457-d1a876775668
Somani, Bhaskar K.
ab5fd1ce-02df-4b88-b25e-8ece396335d9
Sener, Emre T.
1940003e-2aa0-4dff-8ecf-20ae84abdb88
Buttice, Salvatore
95832a21-ed26-4b33-aed2-08c926408c2c
Proietti, Silvia
7f914fa5-58b1-4a55-9a48-4c995d26f512
Ploumidis, Achilles
912f53a6-e680-4f6f-8ae9-2477f8584611
Iacoboaie, Catalin T.
2e30090a-62db-499a-abc8-74ddcf8dcb93
Doizi, Steeve
78d0331b-2eee-459b-97bd-8e728868211e
Traxer, Olivier
2fa78817-b6f8-4f00-b389-c9c9ddbd01f3

Dragos, Laurian B., Somani, Bhaskar K., Sener, Emre T., Buttice, Salvatore, Proietti, Silvia, Ploumidis, Achilles, Iacoboaie, Catalin T., Doizi, Steeve and Traxer, Olivier (2017) Which flexible ureteroscopes (digital vs. fiber-optic) can easily reach the difficult lower pole calices and have better end-tip deflection: In vitro study on K-Box. A PETRA evaluation. Journal of Endourology, 31 (7), 630-637. (doi:10.1089/end.2017.0109).

Record type: Article

Abstract

BACKGROUND AND PURPOSE: Modern flexible ureteroscopes (fURSs) have good deflection, but despite this, approaching an acute angled calix can still be difficult. The goals of our in vitro study were to assess the ability of the available modern fURSs to effectively access the sharp angled calices and to compare the end-tip deflection of the various fiber-optic and digital fURSs.

MATERIALS AND METHODS: Using a bench-training model for FURS (K-Box, Porgès-Coloplast), we tried to access an acute angled calix with nine different fURSs (BOA vision, COBRA vision, R.Wolf; FLEX X2, FLEX Xc, K.Storz; LithoVue, Boston Scientific; URF-P5, URF-P6, URF-V, URF-V2, Olympus). Passing the fURSs through a ureteral access sheath (ReTrace, Porgès-Coloplast), the maximum end-tip deflection for every fURS was measured with the tip extended out from the sheath at 1, 2, 3, and 4 cm. Two ranking methods were designed for scoring the fURSs, one based on total ranking points and the other on total degrees of deflection.

RESULTS: While all fiber-optic fURSs (except URF-P6) were able to access the sharp angled calix, none of the digital fURSs (except FLEX Xc) reached the difficult angled calix. Similarly, all fiber-optic fURSs had better end-tip deflection compared with the digital fURSs, except FLEX Xc, which was as deflectable as the fiber-optic fURSs. The fURSs showed an end-tip deflection (median difference of almost 21°) in favor of fiber-optic fURSs. Based on the scoring, the highest ranked fURS (best deflection) was FLEX X2 and the lowest ranked fURS (worst deflection) was URF-V2.

CONCLUSIONS: Digital fURSs were less effective in accessing the sharp angled calix and they had lesser end-tip deflection compared with the fiber-optic counterparts. When approaching a difficult lower pole calix, it might be better to use a fiber-optic fURS.

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e-pub ahead of print date: 13 June 2017
Published date: July 2017
Keywords: Equipment Design, Fiber Optic Technology, Humans, Kidney Calices, Ureteroscopes, Ureteroscopy, Journal Article

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Local EPrints ID: 419046
URI: http://eprints.soton.ac.uk/id/eprint/419046
ISSN: 0892-7790
PURE UUID: 51ed2bcd-b5c2-4490-94f1-b4386d1a214f

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Date deposited: 28 Mar 2018 16:30
Last modified: 15 Mar 2024 19:02

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Contributors

Author: Laurian B. Dragos
Author: Emre T. Sener
Author: Salvatore Buttice
Author: Silvia Proietti
Author: Achilles Ploumidis
Author: Catalin T. Iacoboaie
Author: Steeve Doizi
Author: Olivier Traxer

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