Endoscopy International Open (Jan 2016)

Performance of novel tissue harmonic echo imaging using endoscopic ultrasound for pancreatic diseases

  • Kazuyuki Matsumoto,
  • Akio Katanuma,
  • Hiroyuki Maguchi,
  • Kuniyuki Takahashi,
  • Manabu Osanai,
  • Kei Yane,
  • Toshifumi Kin,
  • Ryo Takaki,
  • Tomoaki Matsumori,
  • Katsushige Gon,
  • Akiko Tomonari,
  • Masanori Nojima

DOI
https://doi.org/10.1055/s-0034-1393367
Journal volume & issue
Vol. 04, no. 01
pp. E42 – E50

Abstract

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Background and study aims: Recently, tissue harmonic echo (THE) imaging has advanced with the development of a new endoscopic ultrasound (EUS) monitor/processing unit. With this new technology, penetration (THE-P) and resolution (THE-R) images can be obtained. The aim of this study was to investigate the performance of this novel THE imaging using a new processing unit for pancreatic diseases. Patients and methods: Fifty patients with pancreatic lesions (38 cystic, 12 solid) were retrospectively analyzed. At each examination, 3 EUS images of the same pancreatic lesion were obtained using B-mode, THE-P mode, and THE-R mode imaging. Each set of EUS images was randomly arranged and evaluated independently by 4 physicians blinded to the imaging technique. Images were compared using a Likert scale 5-point grading system for each parameter. Results: For cystic lesions, THE-P mode images were significantly superior to conventional B-mode images for visualizing the boundary, septum, nodules, and total image quality (P < 0.05). THE-R mode images were significantly superior to conventional B-mode images for visualizing the boundary, septum, and total image quality (P < 0.05). However, for solid lesions, there was no significant difference in all the evaluation points between THE-P and conventional B-mode images. THE-R mode images were inferior to conventional B-mode images for visualizing the boundary, internal structure, and total image quality (P < 0.05). Conclusions: For pancreatic cystic lesions, THE mode images provided better lesion characterization than conventional B-mode images. Further research is required to determine if this improvement will result in improved EUS diagnostics.