Intraoperative Perfusion Assessment in Enhanced Reality Using Quantitative Optical Imaging: An Experimental Study in a Pancreatic Partial Ischemia Model

Overview

Journal Diagnostics (Basel)

Specialty Radiology

Date 2021 Jan 12

PMID 33430038

Citations 14

Authors

Taiga Wakabayashi

Manuel Barberio

Takeshi Urade

Raoul Pop

Emilie Seyller

Margherita Pizzicannella

Pietro Mascagni

Anne-Laure Charles

Yuta Abe

Bernard Geny

Andrea Baiocchini

Yuko Kitagawa

Jacques Marescaux

Eric Felli

Michele Diana

Affiliations

Soon will be listed here.

Abstract

To reduce the risk of pancreatic fistula after pancreatectomy, a satisfactory blood flow at the pancreatic stump is considered crucial. Our group has developed and validated a real-time computational imaging analysis of tissue perfusion, using fluorescence imaging, the fluorescence-based enhanced reality (FLER). Hyperspectral imaging (HSI) is another emerging technology, which provides tissue-specific spectral signatures, allowing for perfusion quantification. Both imaging modalities were employed to estimate perfusion in a porcine model of partial pancreatic ischemia. Perfusion quantification was assessed using the metrics of both imaging modalities (slope of the time to reach maximum fluorescence intensity and tissue oxygen saturation (StO2), for FLER and HSI, respectively). We found that the HSI-StO2 and the FLER slope were statistically correlated using the Spearman analysis (R = 0.697; = 0.013). Local capillary lactate values were statistically correlated to the HSI-StO2 and to the FLER slope (R = -0.88; < 0.001 and R = -0.608; = 0.0074). HSI-based and FLER-based lactate prediction models had statistically similar predictive abilities ( = 0.112). Both modalities are promising to assess real-time pancreatic perfusion. Clinical translation in human pancreatic surgery is currently underway.

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