Quantification of indocyanine green near-infrared fluorescence bowel perfusion assessment in colorectal surgery

Robin A. Faber; Floris P. Tange; Hidde A. Galema; Thomas C. Zwaan; Fabian A. Holman; Koen C.M.J. Peeters; Pieter J. Tanis; Cornelis Verhoef; Jacobus Burggraaf; J. Sven D. Mieog; Merlijn Hutteman; Stijn Keereweer; Alexander L. Vahrmeijer; Joost R. van der Vorst; Denise E. Hilling

doi:10.1007/s00464-023-10140-8

Quantification of indocyanine green near-infrared fluorescence bowel perfusion assessment in colorectal surgery

Robin A. Faber, Floris P. Tange, Hidde A. Galema, Thomas C. Zwaan, Fabian A. Holman, Koen C.M.J. Peeters, Pieter J. Tanis, Cornelis Verhoef, Jacobus Burggraaf, J. Sven D. Mieog, Merlijn Hutteman, Stijn Keereweer, Alexander L. Vahrmeijer, Joost R. van der Vorst, Denise E. Hilling^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Background: Indocyanine green near-infrared fluorescence bowel perfusion assessment has shown its potential benefit in preventing anastomotic leakage. However, the surgeon's subjective visual interpretation of the fluorescence signal limits the validity and reproducibility of the technique. Therefore, this study aimed to identify objective quantified bowel perfusion patterns in patients undergoing colorectal surgery using a standardized imaging protocol. Method: A standardized fluorescence video was recorded. Postoperatively, the fluorescence videos were quantified by drawing contiguous region of interests (ROIs) on the bowel. For each ROI, a time-intensity curve was plotted from which perfusion parameters (n = 10) were derived and analyzed. Furthermore, the inter-observer agreement of the surgeon’s subjective interpretation of the fluorescence signal was assessed. Results: Twenty patients who underwent colorectal surgery were included in the study. Based on the quantified time-intensity curves, three different perfusion patterns were identified. Similar for both the ileum and colon, perfusion pattern 1 had a steep inflow that reached its peak fluorescence intensity rapidly, followed by a steep outflow. Perfusion pattern 2 had a relatively flat outflow slope immediately followed by its plateau phase. Perfusion pattern 3 only reached its peak fluorescence intensity after 3 min with a slow inflow gradient preceding it. The inter-observer agreement was poor-moderate (Intraclass Correlation Coefficient (ICC): 0.378, 95% CI 0.210–0.579). Conclusion: This study showed that quantification of bowel perfusion is a feasible method to differentiate between different perfusion patterns. In addition, the poor-moderate inter-observer agreement of the subjective interpretation of the fluorescence signal between surgeons emphasizes the need for objective quantification.

Original language	English
Pages (from-to)	6824-6833
Number of pages	10
Journal	Surgical Endoscopy
Volume	37
Issue number	9
DOIs	https://doi.org/10.1007/s00464-023-10140-8
Publication status	Published - Sept 2023

Bibliographical note

Funding Information:
We thank Alexandra Brandt-Kerkhof and Gaston Franssen for their contribution in assessing the fluorescence signal on the recorded fluorescence videos.

Publisher Copyright:
© 2023, The Author(s).

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Faber, R. A., Tange, F. P., Galema, H. A., Zwaan, T. C., Holman, F. A., Peeters, K. C. M. J., Tanis, P. J., Verhoef, C., Burggraaf, J., Mieog, J. S. D., Hutteman, M., Keereweer, S., Vahrmeijer, A. L., van der Vorst, J. R., & Hilling, D. E. (2023). Quantification of indocyanine green near-infrared fluorescence bowel perfusion assessment in colorectal surgery. Surgical Endoscopy, 37(9), 6824-6833. https://doi.org/10.1007/s00464-023-10140-8

@article{288ef59356d64e3b84822ba9b85fb035,

title = "Quantification of indocyanine green near-infrared fluorescence bowel perfusion assessment in colorectal surgery",

abstract = "Background: Indocyanine green near-infrared fluorescence bowel perfusion assessment has shown its potential benefit in preventing anastomotic leakage. However, the surgeon's subjective visual interpretation of the fluorescence signal limits the validity and reproducibility of the technique. Therefore, this study aimed to identify objective quantified bowel perfusion patterns in patients undergoing colorectal surgery using a standardized imaging protocol. Method: A standardized fluorescence video was recorded. Postoperatively, the fluorescence videos were quantified by drawing contiguous region of interests (ROIs) on the bowel. For each ROI, a time-intensity curve was plotted from which perfusion parameters (n = 10) were derived and analyzed. Furthermore, the inter-observer agreement of the surgeon{\textquoteright}s subjective interpretation of the fluorescence signal was assessed. Results: Twenty patients who underwent colorectal surgery were included in the study. Based on the quantified time-intensity curves, three different perfusion patterns were identified. Similar for both the ileum and colon, perfusion pattern 1 had a steep inflow that reached its peak fluorescence intensity rapidly, followed by a steep outflow. Perfusion pattern 2 had a relatively flat outflow slope immediately followed by its plateau phase. Perfusion pattern 3 only reached its peak fluorescence intensity after 3 min with a slow inflow gradient preceding it. The inter-observer agreement was poor-moderate (Intraclass Correlation Coefficient (ICC): 0.378, 95% CI 0.210–0.579). Conclusion: This study showed that quantification of bowel perfusion is a feasible method to differentiate between different perfusion patterns. In addition, the poor-moderate inter-observer agreement of the subjective interpretation of the fluorescence signal between surgeons emphasizes the need for objective quantification.",

author = "Faber, {Robin A.} and Tange, {Floris P.} and Galema, {Hidde A.} and Zwaan, {Thomas C.} and Holman, {Fabian A.} and Peeters, {Koen C.M.J.} and Tanis, {Pieter J.} and Cornelis Verhoef and Jacobus Burggraaf and Mieog, {J. Sven D.} and Merlijn Hutteman and Stijn Keereweer and Vahrmeijer, {Alexander L.} and {van der Vorst}, {Joost R.} and Hilling, {Denise E.}",

note = "Funding Information: We thank Alexandra Brandt-Kerkhof and Gaston Franssen for their contribution in assessing the fluorescence signal on the recorded fluorescence videos. Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = sep,

doi = "10.1007/s00464-023-10140-8",

language = "English",

volume = "37",

pages = "6824--6833",

journal = "Surgical Endoscopy",

issn = "0930-2794",

publisher = "Springer",

number = "9",

}

Faber, RA, Tange, FP, Galema, HA, Zwaan, TC, Holman, FA, Peeters, KCMJ, Tanis, PJ , Verhoef, C, Burggraaf, J, Mieog, JSD, Hutteman, M, Keereweer, S, Vahrmeijer, AL, van der Vorst, JR & Hilling, DE 2023, 'Quantification of indocyanine green near-infrared fluorescence bowel perfusion assessment in colorectal surgery', Surgical Endoscopy, vol. 37, no. 9, pp. 6824-6833. https://doi.org/10.1007/s00464-023-10140-8

TY - JOUR

T1 - Quantification of indocyanine green near-infrared fluorescence bowel perfusion assessment in colorectal surgery

AU - Faber, Robin A.

AU - Tange, Floris P.

AU - Galema, Hidde A.

AU - Zwaan, Thomas C.

AU - Holman, Fabian A.

AU - Peeters, Koen C.M.J.

AU - Tanis, Pieter J.

AU - Verhoef, Cornelis

AU - Burggraaf, Jacobus

AU - Mieog, J. Sven D.

AU - Hutteman, Merlijn

AU - Keereweer, Stijn

AU - Vahrmeijer, Alexander L.

AU - van der Vorst, Joost R.

AU - Hilling, Denise E.

N1 - Funding Information: We thank Alexandra Brandt-Kerkhof and Gaston Franssen for their contribution in assessing the fluorescence signal on the recorded fluorescence videos. Publisher Copyright: © 2023, The Author(s).

PY - 2023/9

Y1 - 2023/9

N2 - Background: Indocyanine green near-infrared fluorescence bowel perfusion assessment has shown its potential benefit in preventing anastomotic leakage. However, the surgeon's subjective visual interpretation of the fluorescence signal limits the validity and reproducibility of the technique. Therefore, this study aimed to identify objective quantified bowel perfusion patterns in patients undergoing colorectal surgery using a standardized imaging protocol. Method: A standardized fluorescence video was recorded. Postoperatively, the fluorescence videos were quantified by drawing contiguous region of interests (ROIs) on the bowel. For each ROI, a time-intensity curve was plotted from which perfusion parameters (n = 10) were derived and analyzed. Furthermore, the inter-observer agreement of the surgeon’s subjective interpretation of the fluorescence signal was assessed. Results: Twenty patients who underwent colorectal surgery were included in the study. Based on the quantified time-intensity curves, three different perfusion patterns were identified. Similar for both the ileum and colon, perfusion pattern 1 had a steep inflow that reached its peak fluorescence intensity rapidly, followed by a steep outflow. Perfusion pattern 2 had a relatively flat outflow slope immediately followed by its plateau phase. Perfusion pattern 3 only reached its peak fluorescence intensity after 3 min with a slow inflow gradient preceding it. The inter-observer agreement was poor-moderate (Intraclass Correlation Coefficient (ICC): 0.378, 95% CI 0.210–0.579). Conclusion: This study showed that quantification of bowel perfusion is a feasible method to differentiate between different perfusion patterns. In addition, the poor-moderate inter-observer agreement of the subjective interpretation of the fluorescence signal between surgeons emphasizes the need for objective quantification.

AB - Background: Indocyanine green near-infrared fluorescence bowel perfusion assessment has shown its potential benefit in preventing anastomotic leakage. However, the surgeon's subjective visual interpretation of the fluorescence signal limits the validity and reproducibility of the technique. Therefore, this study aimed to identify objective quantified bowel perfusion patterns in patients undergoing colorectal surgery using a standardized imaging protocol. Method: A standardized fluorescence video was recorded. Postoperatively, the fluorescence videos were quantified by drawing contiguous region of interests (ROIs) on the bowel. For each ROI, a time-intensity curve was plotted from which perfusion parameters (n = 10) were derived and analyzed. Furthermore, the inter-observer agreement of the surgeon’s subjective interpretation of the fluorescence signal was assessed. Results: Twenty patients who underwent colorectal surgery were included in the study. Based on the quantified time-intensity curves, three different perfusion patterns were identified. Similar for both the ileum and colon, perfusion pattern 1 had a steep inflow that reached its peak fluorescence intensity rapidly, followed by a steep outflow. Perfusion pattern 2 had a relatively flat outflow slope immediately followed by its plateau phase. Perfusion pattern 3 only reached its peak fluorescence intensity after 3 min with a slow inflow gradient preceding it. The inter-observer agreement was poor-moderate (Intraclass Correlation Coefficient (ICC): 0.378, 95% CI 0.210–0.579). Conclusion: This study showed that quantification of bowel perfusion is a feasible method to differentiate between different perfusion patterns. In addition, the poor-moderate inter-observer agreement of the subjective interpretation of the fluorescence signal between surgeons emphasizes the need for objective quantification.

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U2 - 10.1007/s00464-023-10140-8

DO - 10.1007/s00464-023-10140-8

M3 - Article

C2 - 37286750

AN - SCOPUS:85161357996

SN - 0930-2794

VL - 37

SP - 6824

EP - 6833

JO - Surgical Endoscopy

JF - Surgical Endoscopy

IS - 9

ER -

Quantification of indocyanine green near-infrared fluorescence bowel perfusion assessment in colorectal surgery

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