Optical diagnostics for upper urinary tract urothelial cancer: technology, thresholds, and clinical applications

Mieke T. J. Bus; D. Martijn de Bruin; Dirk J. Faber; Guido M. Kamphuis; Patricia J. Zondervan; M. Pilar Laguna Pes; Theo M. de Reijke; Olivier Traxer; Ton G. van Leeuwen; Jean J. M. C. H. de La Rosette

doi:https://doi.org/10.1089/end.2014.0551

Optical diagnostics for upper urinary tract urothelial cancer: technology, thresholds, and clinical applications

Mieke T. J. Bus, D. Martijn de Bruin, Dirk J. Faber, Guido M. Kamphuis, Patricia J. Zondervan, M. Pilar Laguna Pes, Theo M. de Reijke, Olivier Traxer, Ton G. van Leeuwen, Jean J. M. C. H. de La Rosette

Research output: Contribution to journal › Review article › Academic › peer-review

42 Citations (Scopus)

Abstract

Developments in optical diagnostics have potential for less invasive diagnosis of upper urinary tract urothelial carcinoma (UUT-UC). This systematic review provides an overview of technology, applications, and limitations of recently developed optical diagnostics in the upper urinary tract and outlines their potential for future clinical applications. In addition, current evidence was evaluated. A PubMed literature search was performed and articles on narrow band imaging (NBI), photodynamic diagnosis (PDD), Storz professional imaging enhancement system (SPIES), optical coherence tomography (OCT), and confocal laser endomicroscopy (CLE) regarding UUT-UC were reviewed for data extraction. Study quality was reviewed according to Quality Assessment of Diagnostic Accuracy Studies and Innovation, Development, Exploration, Assessment, and Long-term follow-up (IDEAL) standards. Four articles available for quality assessment, demonstrated high level of evidence, but low level of IDEAL stage. NBI and SPIES enhance contrast of mucosal surface and vascular structures, improving tumor detection rate. A first in vivo study showed promising results. PDD uses fluorescence to improve tumor detection rate. However, due to the acute angle of the ureterorenoscopes there is an increased risk of false positives. OCT produces cross-sectional high-resolution images, providing information on tumor grade and stage. A pilot study showed promising diagnostic accuracy. CLE allows ultrahigh-resolution microscopy of tissue resulting in images of the cellular structure. CLE cannot be applied in vivo in the upper urinary tract yet, due to technical limitations. NBI, SPIES, and PDD aim at improving visualization of UUT-UC through contrast enhancement. OCT and CLE aim at providing real-time predictions of histopathological diagnosis. For all techniques, more research has to be conducted before these techniques can be implemented in the routine management of UUT-UC. All techniques might be of value in specific clinical scenarios and allow for integration, for example, OCT with NBI, and could therefore improve tumor detection and staging and help in selecting the optimal treatment for the individual patient

Original language	English
Pages (from-to)	113-123
Journal	Journal of endourology / Endourological Society
Volume	29
Issue number	2
DOIs	https://doi.org/10.1089/end.2014.0551
Publication status	Published - 2015

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Bus, M. T. J., de Bruin, D. M., Faber, D. J., Kamphuis, G. M., Zondervan, P. J., Laguna Pes, M. P., de Reijke, T. M., Traxer, O., van Leeuwen, T. G., & de La Rosette, J. J. M. C. H. (2015). Optical diagnostics for upper urinary tract urothelial cancer: technology, thresholds, and clinical applications. Journal of endourology / Endourological Society, 29(2), 113-123. https://doi.org/10.1089/end.2014.0551

@article{b1dba6eb9d924cdbb8508f949261093b,

title = "Optical diagnostics for upper urinary tract urothelial cancer: technology, thresholds, and clinical applications",

abstract = "Developments in optical diagnostics have potential for less invasive diagnosis of upper urinary tract urothelial carcinoma (UUT-UC). This systematic review provides an overview of technology, applications, and limitations of recently developed optical diagnostics in the upper urinary tract and outlines their potential for future clinical applications. In addition, current evidence was evaluated. A PubMed literature search was performed and articles on narrow band imaging (NBI), photodynamic diagnosis (PDD), Storz professional imaging enhancement system (SPIES), optical coherence tomography (OCT), and confocal laser endomicroscopy (CLE) regarding UUT-UC were reviewed for data extraction. Study quality was reviewed according to Quality Assessment of Diagnostic Accuracy Studies and Innovation, Development, Exploration, Assessment, and Long-term follow-up (IDEAL) standards. Four articles available for quality assessment, demonstrated high level of evidence, but low level of IDEAL stage. NBI and SPIES enhance contrast of mucosal surface and vascular structures, improving tumor detection rate. A first in vivo study showed promising results. PDD uses fluorescence to improve tumor detection rate. However, due to the acute angle of the ureterorenoscopes there is an increased risk of false positives. OCT produces cross-sectional high-resolution images, providing information on tumor grade and stage. A pilot study showed promising diagnostic accuracy. CLE allows ultrahigh-resolution microscopy of tissue resulting in images of the cellular structure. CLE cannot be applied in vivo in the upper urinary tract yet, due to technical limitations. NBI, SPIES, and PDD aim at improving visualization of UUT-UC through contrast enhancement. OCT and CLE aim at providing real-time predictions of histopathological diagnosis. For all techniques, more research has to be conducted before these techniques can be implemented in the routine management of UUT-UC. All techniques might be of value in specific clinical scenarios and allow for integration, for example, OCT with NBI, and could therefore improve tumor detection and staging and help in selecting the optimal treatment for the individual patient",

author = "Bus, {Mieke T. J.} and {de Bruin}, {D. Martijn} and Faber, {Dirk J.} and Kamphuis, {Guido M.} and Zondervan, {Patricia J.} and {Laguna Pes}, {M. Pilar} and {de Reijke}, {Theo M.} and Olivier Traxer and {van Leeuwen}, {Ton G.} and {de La Rosette}, {Jean J. M. C. H.}",

year = "2015",

doi = "https://doi.org/10.1089/end.2014.0551",

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Bus, MTJ, de Bruin, DM , Faber, DJ , Kamphuis, GM , Zondervan, PJ, Laguna Pes, MP, de Reijke, TM, Traxer, O, van Leeuwen, TG & de La Rosette, JJMCH 2015, 'Optical diagnostics for upper urinary tract urothelial cancer: technology, thresholds, and clinical applications', Journal of endourology / Endourological Society, vol. 29, no. 2, pp. 113-123. https://doi.org/10.1089/end.2014.0551

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T1 - Optical diagnostics for upper urinary tract urothelial cancer: technology, thresholds, and clinical applications

AU - Bus, Mieke T. J.

AU - de Bruin, D. Martijn

AU - Faber, Dirk J.

AU - Kamphuis, Guido M.

AU - Zondervan, Patricia J.

AU - Laguna Pes, M. Pilar

AU - de Reijke, Theo M.

AU - Traxer, Olivier

AU - van Leeuwen, Ton G.

AU - de La Rosette, Jean J. M. C. H.

PY - 2015

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N2 - Developments in optical diagnostics have potential for less invasive diagnosis of upper urinary tract urothelial carcinoma (UUT-UC). This systematic review provides an overview of technology, applications, and limitations of recently developed optical diagnostics in the upper urinary tract and outlines their potential for future clinical applications. In addition, current evidence was evaluated. A PubMed literature search was performed and articles on narrow band imaging (NBI), photodynamic diagnosis (PDD), Storz professional imaging enhancement system (SPIES), optical coherence tomography (OCT), and confocal laser endomicroscopy (CLE) regarding UUT-UC were reviewed for data extraction. Study quality was reviewed according to Quality Assessment of Diagnostic Accuracy Studies and Innovation, Development, Exploration, Assessment, and Long-term follow-up (IDEAL) standards. Four articles available for quality assessment, demonstrated high level of evidence, but low level of IDEAL stage. NBI and SPIES enhance contrast of mucosal surface and vascular structures, improving tumor detection rate. A first in vivo study showed promising results. PDD uses fluorescence to improve tumor detection rate. However, due to the acute angle of the ureterorenoscopes there is an increased risk of false positives. OCT produces cross-sectional high-resolution images, providing information on tumor grade and stage. A pilot study showed promising diagnostic accuracy. CLE allows ultrahigh-resolution microscopy of tissue resulting in images of the cellular structure. CLE cannot be applied in vivo in the upper urinary tract yet, due to technical limitations. NBI, SPIES, and PDD aim at improving visualization of UUT-UC through contrast enhancement. OCT and CLE aim at providing real-time predictions of histopathological diagnosis. For all techniques, more research has to be conducted before these techniques can be implemented in the routine management of UUT-UC. All techniques might be of value in specific clinical scenarios and allow for integration, for example, OCT with NBI, and could therefore improve tumor detection and staging and help in selecting the optimal treatment for the individual patient

AB - Developments in optical diagnostics have potential for less invasive diagnosis of upper urinary tract urothelial carcinoma (UUT-UC). This systematic review provides an overview of technology, applications, and limitations of recently developed optical diagnostics in the upper urinary tract and outlines their potential for future clinical applications. In addition, current evidence was evaluated. A PubMed literature search was performed and articles on narrow band imaging (NBI), photodynamic diagnosis (PDD), Storz professional imaging enhancement system (SPIES), optical coherence tomography (OCT), and confocal laser endomicroscopy (CLE) regarding UUT-UC were reviewed for data extraction. Study quality was reviewed according to Quality Assessment of Diagnostic Accuracy Studies and Innovation, Development, Exploration, Assessment, and Long-term follow-up (IDEAL) standards. Four articles available for quality assessment, demonstrated high level of evidence, but low level of IDEAL stage. NBI and SPIES enhance contrast of mucosal surface and vascular structures, improving tumor detection rate. A first in vivo study showed promising results. PDD uses fluorescence to improve tumor detection rate. However, due to the acute angle of the ureterorenoscopes there is an increased risk of false positives. OCT produces cross-sectional high-resolution images, providing information on tumor grade and stage. A pilot study showed promising diagnostic accuracy. CLE allows ultrahigh-resolution microscopy of tissue resulting in images of the cellular structure. CLE cannot be applied in vivo in the upper urinary tract yet, due to technical limitations. NBI, SPIES, and PDD aim at improving visualization of UUT-UC through contrast enhancement. OCT and CLE aim at providing real-time predictions of histopathological diagnosis. For all techniques, more research has to be conducted before these techniques can be implemented in the routine management of UUT-UC. All techniques might be of value in specific clinical scenarios and allow for integration, for example, OCT with NBI, and could therefore improve tumor detection and staging and help in selecting the optimal treatment for the individual patient

U2 - https://doi.org/10.1089/end.2014.0551

DO - https://doi.org/10.1089/end.2014.0551

M3 - Review article

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JO - Journal of endourology / Endourological Society

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