RSS-Feed abonnieren
PDF herunterladen
DOI: 10.1055/s-0034-1383815
Intraoperative Measurement of Fractional Flow Reserve in Off-Pump Coronary Artery Bypass: A Pilot Study
Publikationsverlauf
25. Februar 2014
21. April 2014
Publikationsdatum:
17. Juli 2014 (online)
Abstract
Backgrounds Fractional flow reserve of myocardium (FFRmyo) is a functional study of significant coronary artery stenosis, defined as the ratio of the pressure distal to the stenosis (poststenosis) divided by the pressure of aortic root (prestenosis). Instead of cath laboratory, we could measure it in operating room for off-pump coronary artery bypass (OPCAB) surgery and here shared our methods in the pilot study.
Methods and Results We used needles, catheters, and pressure tracing but without guidewires or fluoroscopy to measure FFRmyo during OPCAB. In February 2010, we conducted the pilot study and collected 32 anastomosis data from 10 patients. Without revising the anastomosis plans based on coronary angiographies, 24 FFRmyo of the 32 anastomoses (75%) were less than 0.75, which represented significant functional stenosis. The FFRmyo measurements did not lead to any adverse events.
Conclusion The measurement of fractional flow reserve in OPCAB is safe and feasible. It can serve as a functional assessment of coronary artery stenosis in adjuvant to conventional coronary angiography.
-
References
- 1 Pijls NH, van Son JA, Kirkeeide RL, De Bruyne B, Gould KL. Experimental basis of determining maximum coronary, myocardial, and collateral blood flow by pressure measurements for assessing functional stenosis severity before and after percutaneous transluminal coronary angioplasty. Circulation 1993; 87 (4) 1354-1367
- 2 De Bruyne B, Bartunek J, Sys SU, Heyndrickx GR. Relation between myocardial fractional flow reserve calculated from coronary pressure measurements and exercise-induced myocardial ischemia. Circulation 1995; 92 (1) 39-46
- 3 Pijls NH, Van Gelder B, Van der Voort P , et al. Fractional flow reserve. A useful index to evaluate the influence of an epicardial coronary stenosis on myocardial blood flow. Circulation 1995; 92 (11) 3183-3193
- 4 Aqel R, Zoghbi GJ, Hage F, Dell'Italia L, Iskandrian AE. Hemodynamic evaluation of coronary artery bypass graft lesions using fractional flow reserve. Catheter Cardiovasc Interv 2008; 72 (4) 479-485
- 5 Ferguson Jr TB, Chen C, Babb JD, Efird JT, Daggubati R, Cahill JM. Fractional flow reserve-guided coronary artery bypass grafting: can intraoperative physiologic imaging guide decision making?. J Thorac Cardiovasc Surg 2013; 146 (4) 824-835 , e1
- 6 Toth G, De Bruyne B, Casselman F , et al. Fractional flow reserve-guided versus angiography-guided coronary artery bypass graft surgery. Circulation 2013; 128 (13) 1405-1411
- 7 Wilson RF. Assessing the severity of coronary-artery stenoses. N Engl J Med 1996; 334 (26) 1735-1737
- 8 Kern MJ, de Bruyne B, Pijls NH. From research to clinical practice: current role of intracoronary physiologically based decision making in the cardiac catheterization laboratory. J Am Coll Cardiol 1997; 30 (3) 613-620
- 9 Pijls NH. Optimum guidance of complex PCI by coronary pressure measurement. Heart 2004; 90 (9) 1085-1093
- 10 Pijls NH, Bech GJ, De Bruyne B, van Straten A. Clinical assessment of functional stenosis severity: use of coronary pressure measurements for the decision to bypass a lesion. Ann Thorac Surg 1997; 63 (6, Suppl): S6-S11
- 11 Bech GJ, De Bruyne B, Pijls NH , et al. Fractional flow reserve to determine the appropriateness of angioplasty in moderate coronary stenosis: a randomized trial. Circulation 2001; 103 (24) 2928-2934
- 12 Bech GJ, Droste H, Pijls NH , et al. Value of fractional flow reserve in making decisions about bypass surgery for equivocal left main coronary artery disease. Heart 2001; 86 (5) 547-552