Endoscopy 2007; 39: E316
DOI: 10.1055/s-2007-966797
Unusual cases and technical notes

© Georg Thieme Verlag KG Stuttgart · New York

Combined use of narrow-band imaging magnification endoscopy and miniprobe confocal laser microscopy in neoplastic Barrett's esophagus

S.  Miehlke1 , A.  Morgner1 , D.  Aust2 , A.  Madisch1 , M.  Vieth3 , G.  Baretton2
  • 1Medical Department I, University Hospital Dresden, Dresden, Germany
  • 2Institute of Pathology, University Hospital Dresden, Dresden, Germany
  • 3Institute of Pathology, Klinikum Bayreuth, Bayreuth, Germany
Further Information

S. Miehlke, MD

Medical Department I

Technical University Hospital

Fetscherstrasse 74

01307 Dresden

Germany

Fax: +49-51-458-5859

Email: stephan.miehlke@uniklinikum-dresden.de

Publication History

Publication Date:
08 January 2008 (online)

Table of Contents

The identification of intraepithelial neoplasia in Barrett’s esophagus in cases where there are no visible focal lesions remains a challenge. Novel techniques such as narrow-band imaging-assisted magnification endoscopy or confocal laser microscopy could, however, improve the endoscopic detection of neoplasia in Barrett’s esophagus [1,2]. A miniprobe-based confocal laser microscopy system (Cellvizio-GI; Mauna Kea Technologies, Paris, France) became available recently which allows the application of laser microscopy with any conventional endoscope and mosaic imaging [3,4].

In this report we describe the combined use of these two techniques in two patients with long-segment Barrett’s esophagus in whom previous random biopsies had led to a suspicion of neoplasia. First, narrow-band imaging magnification endoscopy (GIF-Q160Z; Olympus Optical Co., Tokyo, Japan) was performed and this identified multifocal mucosal abnormalities and irregular vessels ([Fig. 1]) that were suggestive of neoplasia. Subsequently, 5 mL fluorescein 1 % was injected intravenously and miniprobe confocal laser microscopy (Mauna Kea Technologies Cellvizio-GI® and Z-probe, confocal plane 100 μm) was applied via the working channel of the endoscope ([Fig. 2]). With confocal laser microscopy and mosaic imaging of multiple individual image frames, an highly irregular mucosal architecture, with enlarged glandular structures, highly irregular mucosal vessels, and so called ”black cells” were visualized ([Fig. 3]). Targeted biopsies of the identified areas confirmed multifocal low-grade neoplasia in one patient and high-grade neoplasia in the other patient.

Zoom Image

Fig. 1 Neoplastic Barrett’s esophagus visualized by narrow-band imaging magnification endoscopy.

Zoom Image

Fig. 2 Application of miniprobe confocal laser microscopy.

Zoom Image

Fig. 3 Mosaic imaging of neoplastic Barrett’s esophagus by miniprobe confocal laser microscopy.

These cases demonstrate that the combined use of miniprobe confocal laser microscopy and narrow-band imaging magnification endoscopy is feasible. Further studies are necessary to investigate whether the detection of Barrett’s neoplasia can be further optimized by the combined use of these novel techniques.

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References

S. Miehlke, MD

Medical Department I

Technical University Hospital

Fetscherstrasse 74

01307 Dresden

Germany

Fax: +49-51-458-5859

Email: stephan.miehlke@uniklinikum-dresden.de

#

References

S. Miehlke, MD

Medical Department I

Technical University Hospital

Fetscherstrasse 74

01307 Dresden

Germany

Fax: +49-51-458-5859

Email: stephan.miehlke@uniklinikum-dresden.de

Zoom Image

Fig. 1 Neoplastic Barrett’s esophagus visualized by narrow-band imaging magnification endoscopy.

Zoom Image

Fig. 2 Application of miniprobe confocal laser microscopy.

Zoom Image

Fig. 3 Mosaic imaging of neoplastic Barrett’s esophagus by miniprobe confocal laser microscopy.