OBJECTIVES: We aimed to validate the technique of measuring the coronary flow reserve (CFR) with coronary pressure measurements against an established thermodilution technique. BACKGROUND: The CFR has traditionally required measurement of coronary blood flow velocity with the Doppler wire and, more recently, using a thermodilution technique with the coronary pressure wire. However, recent work has suggested that the CFR may be derived from pressure measurements alone (the ratio of the square root of the pressure drop across an epicardial stenosis during hyperemia to that value at rest). This depends on the assumption that friction losses across a coronary stenosis are negligible. METHODS: We compared pressure-derived CFR values with those obtained by the thermodilution technique using the intracoronary pressure wire in 38 stenoses in 34 patients with significant coronary stenoses undergoing percutaneous intervention. We also compared these two techniques of measuring CFR in 25 stenoses (6 vessels) artificially created by inflating small balloons within a stented coronary artery after percutaneous intervention. RESULTS: There is a close linear relationship between pressure-derived and thermodilution CFR in native (r(2) = 0.52; p < 0.001) and artificial stenoses (r(2) = 0.54; p < 0.05), although the pressure-derived technique appears to systematically underestimate CFR values in both situations. This applies to native and artificial stenoses. CONCLUSIONS: Coronary flow reserve cannot be measured merely with pressure alone, and it cannot be safely assumed that friction losses are negligible across a native coronary stenosis. These data suggest that friction loss is an important determinant of the pressure gradient along an atherosclerotic coronary artery.
OBJECTIVES: We aimed to validate the technique of measuring the coronary flow reserve (CFR) with coronary pressure measurements against an established thermodilution technique. BACKGROUND: The CFR has traditionally required measurement of coronary blood flow velocity with the Doppler wire and, more recently, using a thermodilution technique with the coronary pressure wire. However, recent work has suggested that the CFR may be derived from pressure measurements alone (the ratio of the square root of the pressure drop across an epicardial stenosis during hyperemia to that value at rest). This depends on the assumption that friction losses across a coronary stenosis are negligible. METHODS: We compared pressure-derived CFR values with those obtained by the thermodilution technique using the intracoronary pressure wire in 38 stenoses in 34 patients with significant coronary stenoses undergoing percutaneous intervention. We also compared these two techniques of measuring CFR in 25 stenoses (6 vessels) artificially created by inflating small balloons within a stented coronary artery after percutaneous intervention. RESULTS: There is a close linear relationship between pressure-derived and thermodilution CFR in native (r(2) = 0.52; p < 0.001) and artificial stenoses (r(2) = 0.54; p < 0.05), although the pressure-derived technique appears to systematically underestimate CFR values in both situations. This applies to native and artificial stenoses. CONCLUSIONS: Coronary flow reserve cannot be measured merely with pressure alone, and it cannot be safely assumed that friction losses are negligible across a native coronary stenosis. These data suggest that friction loss is an important determinant of the pressure gradient along an atherosclerotic coronary artery.
Authors: Gábor Tamás Szabó; Áron Üveges; Balázs Tar; András Ágoston; Azzaya Dorj; Csaba Jenei; Rudolf Kolozsvári; Benjamin Csippa; Dániel Czuriga; Zsolt Kőszegi Journal: J Clin Med Date: 2021-04-28 Impact factor: 4.241
Authors: Paul D Morris; Rebecca Gosling; Iwona Zwierzak; Holli Evans; Louise Aubiniere-Robb; Krzysztof Czechowicz; Paul C Evans; D Rodney Hose; Patricia V Lawford; Andrew J Narracott; Julian P Gunn Journal: Cardiovasc Res Date: 2021-05-25 Impact factor: 13.081
Authors: Christopher M Cook; Allen Jeremias; Ricardo Petraco; Sayan Sen; Sukhjinder Nijjer; Matthew J Shun-Shin; Yousif Ahmad; Guus de Waard; Tim van de Hoef; Mauro Echavarria-Pinto; Martijn van Lavieren; Rasha Al Lamee; Yuetsu Kikuta; Yasutsugu Shiono; Ashesh Buch; Martijn Meuwissen; Ibrahim Danad; Paul Knaapen; Akiko Maehara; Bon-Kwon Koo; Gary S Mintz; Javier Escaned; Gregg W Stone; Darrel P Francis; Jamil Mayet; Jan J Piek; Niels van Royen; Justin E Davies Journal: JACC Cardiovasc Interv Date: 2017-12-26 Impact factor: 11.195