Establishing reference curves for vital tissue perfusion using quantitative near-infrared fluorescence imaging with indocyanine green

Purpose Assessment of tissue perfusion using near-infrared fluorescence (NIR) with indocyanine green (ICG) is gaining popularity, however reliable and objective interpretation remains a challenge. Therefore, this study aimed to establish reference curves for vital tissue perfusion across target tiss...

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Published in:Langenbeck's archives of surgery 2025-01, Vol.410 (1), Article 28
Main Authors: Tange, Floris P., Peul, Roderick C., van den Hoven, Pim, Koning, Stefan, Kruiswijk, Mo W., Faber, Robin A., Verduijn, Pieter S., van Rijswijk, Carla S. P., Galema, Hidde A., Hilling, Denise E., van Dijk, Sam P. J., van Ginhoven, Tessa M., Keereweer, Stijn, Mureau, Marc A. M., Feitsma, Eline A., Noltes, Milou E., Kruijff, Schelto, Driessen, Caroline, Achiam, Michael P., Schepers, Abbey, van Schaik, Jan, Mieog, J. Sven D., Vahrmeijer, Alexander L., Hamming, Jaap F., van der Vorst, Joost R.
Format: Article
Language:English
Subjects:
Abdominal Surgery
Cardiac Surgery
General Surgery
Medicine
Medicine & Public Health
Thoracic Surgery
Traumatic Surgery
Vascular Surgery
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Summary:Purpose Assessment of tissue perfusion using near-infrared fluorescence (NIR) with indocyanine green (ICG) is gaining popularity, however reliable and objective interpretation remains a challenge. Therefore, this study aimed to establish reference curves for vital tissue perfusion across target tissues using this imaging modality. Methods Data from five prospective study cohorts conducted in three Dutch academic medical centres between December 2018 and June 2023 was included. Quantitative analysis using time-intensity curves was performed in ten target tissues, including the colon, ileum, gastric conduit, deep inferior epigastric artery perforator (DIEP) flap, skin of the foot, trachea, sternocleidomastoid muscle (SCM), carotid artery, parathyroid gland, and skin of the neck. Results A total of 178 patients were included in this study, representing 303 target tissues. Three different patterns of reference curves were identified based on a subjective assessment. Seven out of ten tissues showed a reference curve with rapid inflow (median time-to-max (tmax): 13.0–17.8 s, median maximum-normalized-slope (slope norm): 10.6–12.6%/sec), short outflow (median area-under-the-curve of tmax + 60 s (AUC60): 65.0–85.1%) followed by a gradual/absent outflow. Secondly, the DIEP flap and SCM tissue showed a reference curve with longer inflow (median tmax: 24.0, 22.0 s, median slope norm: 9.3, 9.7%/sec respectively) and reduced outflow (median AUC60: 89.1, 89.0% respectively). Thirdly, the skin of the foot showed slow inflow (median tmax 141.1 s, median norm slope 2.1%/sec) without outflow. Conclusion This study demonstrates reference curves for vital tissue perfusion of multiple target tissues identified with ICG NIR fluorescence imaging, providing a critical step towards the clinical implementation of this technique.
ISSN:1435-2451
1435-2451
DOI:10.1007/s00423-024-03589-1