Continuous Thermodilution Method to Assess Coronary Flow Reserve - 23/01/21
, Elena Izaga-Torralba, MD a, Fernando Rivero Crespo, MD b, Livia Gheorghe, MD a, c, Dolores Cañadas-Pruaño, MD a, c, Josep Gómez-Lara, MD, PhD d, Etelvino Silva, MSC, PhD c, Inmaculada Noval-Morillas, MD a, c, Ricardo Zayas Rueda, MD a, c, Germán Calle-Pérez, MD a, c, Rafael Vázquez-García, MD, PhD a, c, Fernando Alfonso, MD PhD bHighlights |
• | The currently available methods for invasively assessed CFR have limitations. |
• | Recently, a new method has been validated to quantify maximum coronary absolute flow. |
• | This method is based on coronary thermodilution using continuous saline infusion. |
• | This is a direct, free-adenosine, operator-independent and reproducible method. |
• | This study demonstrate the feasibility of this new method to calculate CFR. |
Résumé |
Coronary flow reserve (CFR) is a well-validated flow-based physiological parameter that has shown value in clinical risk stratification. CFR can be invasively assessed, classically by Doppler and, more recently, by thermodilution with saline boluses (CFRthermo-bolus). Alternatively, continuous thermodilution is a novel operator-independent, highly-reproducible technique to invasively quantify maximum absolute coronary flow (AF). This study aimed to assess the feasibility of this method to quantify resting AF and to determine CFR (CFRThermo-infusion) as compared with CFRthermo-bolus. Sixty-two consecutive patients with suspicion of coronary disease and absence of significant epicardial lesions were prospectively investigated. AF at maximal hyperemia (20 mL/min) and at lower infusion rates (6-8-10-12 mL/min) were systematically measured using a dedicated catheter and a temperature/pressure guidewire. The absence of baseline Pd/Pa decrease at 6 (0.15 ± 0.2%), 8 (0.17 ± 0.18%) and 10 mL/min (0.2 ± 0.12%) demonstrated absence of hyperemia at ≤10 mL/min (all p = NS). However, at 12 mL/min hyperemia was confirmed by a significant decrease in Pd/Pa (1.3 ± 1.5%, p <0.01) and increase in AF from 10 mL/min to 12 mL/min (31.4 ± 28.1 mL, p <0.05). All curve tracings at 10 mL/min (129/129, 100%) were adequate versus only (7/15, 53%) and (15/18, 17%) at 6 mL/min, and 8 mL/min, respectively, and this infusion-rate was considered to determine resting-AF. CFRThermo-infusion was determined as the ratio of hyperemic-AF (20 mL/min) by resting-AF (10 mL/min). Mean CFRThermo-infusion was 2.56 ± 0.9 and CFRthermo-bolus 2.49 ± 1. Both parameters showed a good correlation (r = 0.76; p <0.001) and intraclass agreement (ICC = 0.76; p <0.001).The continuous thermodilution method enables to quantify resting-AF providing a novel clinical tool to determine CRF. CFRThermo-infusion shows a good correlation with CFRthermo-bolus..
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Vol 141
P. 31-37 - février 2021 Retour au numéro
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