BACKGROUND: The purpose of this study is to introduce a new method, indocyanine green fluorescence imaging (ICG-FI), as an adjunct to distal pressure measurements in patients with peripheral arterial disease and symptomatic lower limb ischemia. METHODS: A total of 34 patients with peripheral arterial disease, including 11 with claudication (Fontaine II), 7 with rest pain (FIII), and 16 with an ulcer or gangrene (FIV), were enrolled. After an intravenous injection of ICG (0.1 mg/kg), foot perfusion was recorded by an infrared light camera. Fluorescence intensity was plotted on a time-intensity curve using recorded images, allowing the calculation of new parameters. Severity of ischemia was assessed as the duration between the rising point and half value of maximum brightness (T½). The difference in the fluorescence intensity between 10 seconds after the rising point and baseline (PDE10) was compared with the transcutaneous oxygen pressure (tcPO2) at the same site (n=51). RESULTS: Median T½ was 23 seconds in FII, 41 seconds in FIII (P<0.05), and 17 seconds in FIV patients. PDE10 correlated moderately with tcpO2 (r2=0.5). A cut-off value (PDE10=28) predicted a critically ischemic limb (FIII and FIV), defined as tcpO2<30 mm Hg with a sensitivity of 100% and specificity of 86.6%. CONCLUSIONS: Local tissue perfusion can be quantitatively evaluated by using ICG fluorescence imaging. It is a safe, fast, noncontact method of imaging, which may be useful even at the ulcer itself and in the circumferential area.
BACKGROUND: The purpose of this study is to introduce a new method, indocyanine green fluorescence imaging (ICG-FI), as an adjunct to distal pressure measurements in patients with peripheral arterial disease and symptomatic lower limb ischemia. METHODS: A total of 34 patients with peripheral arterial disease, including 11 with claudication (Fontaine II), 7 with rest pain (FIII), and 16 with an ulcer or gangrene (FIV), were enrolled. After an intravenous injection of ICG (0.1 mg/kg), foot perfusion was recorded by an infrared light camera. Fluorescence intensity was plotted on a time-intensity curve using recorded images, allowing the calculation of new parameters. Severity of ischemia was assessed as the duration between the rising point and half value of maximum brightness (T½). The difference in the fluorescence intensity between 10 seconds after the rising point and baseline (PDE10) was compared with the transcutaneous oxygen pressure (tcPO2) at the same site (n=51). RESULTS: Median T½ was 23 seconds in FII, 41 seconds in FIII (P<0.05), and 17 seconds in FIV patients. PDE10 correlated moderately with tcpO2 (r2=0.5). A cut-off value (PDE10=28) predicted a critically ischemic limb (FIII and FIV), defined as tcpO2<30 mm Hg with a sensitivity of 100% and specificity of 86.6%. CONCLUSIONS: Local tissue perfusion can be quantitatively evaluated by using ICG fluorescence imaging. It is a safe, fast, noncontact method of imaging, which may be useful even at the ulcer itself and in the circumferential area.
Authors: Jarrod D Predina; Andrew D Newton; Christopher Corbett; Michael Shin; Lydia Frenzel Sulfyok; Olugbenga T Okusanya; Edward J Delikatny; Shuming Nie; Colleen Gaughan; Doraid Jarrar; Taine Pechet; John C Kucharczuk; Sunil Singhal Journal: J Thorac Cardiovasc Surg Date: 2018-12-14 Impact factor: 5.209
Authors: Lauren N Goncalves; Pim van den Hoven; Jan van Schaik; Laura Leeuwenburgh; Cas H F Hendricks; Pieter S Verduijn; Koen E A van der Bogt; Carla S P van Rijswijk; Abbey Schepers; Alexander L Vahrmeijer; Jaap F Hamming; Joost R van der Vorst Journal: Life (Basel) Date: 2021-05-11