Physiological Reports (Mar 2023)

Retracted: Microvascular resistance reserve in the presence of functionally significant epicardial stenosis and changes after revascularization

  • Yoshihiro Hanyu,
  • Masahiro Hoshino,
  • Eisuke Usui,
  • Tomoyo Sugiyama,
  • Yoshihisa Kanaji,
  • Masahiro Hada,
  • Tatsuhiro Nagamine,
  • Kai Nogami,
  • Hiroki Ueno,
  • Kodai Sayama,
  • Kazuki Matsuda,
  • Tatsuya Sakamoto,
  • Taishi Yonetsu,
  • Tetsuo Sasano,
  • Tsunekazu Kakuta

DOI
https://doi.org/10.14814/phy2.15627
Journal volume & issue
Vol. 11, no. 5
pp. n/a – n/a

Abstract

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Abstract In the presence of functionally significant epicardial lesions, microvascular resistance reserve (MRR) calculation needs incorporation of collateral flow. Coronary fractional flow reserve (FFRcor) requiring coronary wedge pressure (Pw), which is an essential part of the true MRR calculation, is reportedly estimated by myocardial FFR (FFRmyo) not requiring Pw measurement. We sought to find an equation to calculate MRR without the need for Pw. Furthermore, we assessed changes in MRR after percutaneous coronary intervention (PCI). An equation to estimate FFRcor was developed from a cohort of 230 patients who underwent physiological measurements and PCI. Corrected MRR was calculated using this equation and compared with true MRR in 115 patients of the different set of the validation cohort. True MRR was calculated using FFRcor. FFRcor and FFRmyo showed a strong linear relationship (r2 = 0.86) and an equation was FFRcor = 1.36 × FFRmyo – 0.34. This equation provided no significant difference between corrected MRR and true MRR in the validation cohort. Pre‐PCI lower coronary flow reserve and higher index of microcirculatory resistance were independent predictors of pre‐PCI decreased true MRR. True MRR significantly decreased after PCI. In conclusion, MRR can be accurately corrected using an equation for FFRcor estimation without Pw.

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