Bharat Khialani scite author profile

Background Post–percutaneous coronary intervention (PCI) fractional flow reserve ≥0.90 is an accepted marker of procedural success, and a cutoff of ≥0.95 has recently been proposed for post‐PCI instantaneous wave‐free ratio. However, stability of nonhyperemic pressure ratios (NHPRs) post‐PCI is not well characterized, and transient reactive submaximal hyperemia post‐PCI may affect their precision. We performed this study to assess stability and reproducibility of NHPRs post‐PCI. Methods and Results Fifty‐seven patients (age, 63.77±10.67 years; men, 71%) underwent hemodynamic assessment immediately post‐PCI and then after a recovery period of 10, 20, and 30 minutes and repeated at 3 months. Manual offline analysis was performed to derive resting and hyperemic pressure indexes (Pd/Pa resting pressure gradient, mathematically derived instantaneous wave‐free ratio, resting full cycle ratio, and fractional flow reserve) and microcirculatory resistances (basal microvascular resistance and index of microvascular resistance). Transient submaximal hyperemia occurring post‐PCI was demonstrated by longer thermodilution time at 30 minutes compared with immediately post‐PCI; mean difference of thermodilution time was 0.17 seconds (95% CI, 0.07–0.26 seconds; P =0.04). Basal microcirculatory resistance was also higher at 30 minutes than immediately post‐PCI; mean difference of basal microvascular resistance was 10.89 mm Hg.s (95% CI, 2.25–19.52 mm Hg.s; P =0.04). Despite this, group analysis confirmed no significant differences in the values of resting whole cycle pressure ratios (Pd/Pa and resting full cycle ratio) as well as diastolic pressure ratios (diastolic pressure ratio and mathematically derived instantaneous wave‐free ratio). Whole cardiac cycle NHPRs demonstrated the best overall stability post‐PCI, and 1 in 5 repeated diastolic NHPRs crossed the clinical decision threshold. Conclusions Whole cycle NHPRs demonstrate better reproducibility and clinical precision post‐PCI than diastolic NHPRs, possibly because of less perturbation from predominantly diastolic reactive hyperemia and left ventricular stunning. Registration URL: https://clinicaltrials.gov/ct2/show/NCT03502083 ; Unique identifier: NCT03502083 and URL: https://clinicaltrials.gov/ct2/show/NCT03076476 ; Unique identifier: NCT03076476.

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GLP-1 vasodilatation in humans with coronary artery disease is not adenosine mediated

Aetesam-ur-Rahman

Giblett

Khialani

et al. 2021

BMC Cardiovasc Disord

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Background Incretin therapies appear to provide cardioprotection and improve cardiovascular outcomes in patients with diabetes, but the mechanism of this effect remains elusive. We have previously shown that glucagon-like peptide (GLP)-1 is a coronary vasodilator and we sought to investigate if this is an adenosine-mediated effect. Methods We recruited 41 patients having percutaneous coronary intervention (PCI) for stable angina and allocated them into four groups administering a specific study-related infusion following successful PCI: GLP-1 infusion (Group G) (n = 10); Placebo, normal saline infusion (Group P) (n = 11); GLP-1 + Theophylline infusion (Group GT) (n = 10); and Theophylline infusion (Group T) (n = 10). A pressure wire assessment of coronary distal pressure and flow velocity (thermodilution transit time—Tmn) at rest and hyperaemia was performed after PCI and repeated following the study infusion to derive basal and index of microvascular resistance (BMR and IMR). Results There were no significant differences in the demographics of patients recruited to our study. Most of the patients were not diabetic. GLP-1 caused significant reduction of resting Tmn that was not attenuated by theophylline: mean delta Tmn (SD) group G − 0.23 s (0.27) versus group GT − 0.18 s (0.37), p = 0.65. Theophylline alone (group T) did not significantly alter resting flow velocity compared to group GT: delta Tmn in group T 0.04 s (0.15), p = 0.30. The resulting decrease in BMR observed in group G persisted in group GT: − 20.83 mmHg s (24.54 vs. − 21.20 mmHg s (30.41), p = 0.97. GLP-1 did not increase circulating adenosine levels in group GT more than group T: delta median adenosine − 2.0 ng/ml (− 117.1, 14.8) versus − 0.5 ng/ml (− 19.6, 9.4); p = 0.60. Conclusion The vasodilatory effect of GLP-1 is not abolished by theophylline and GLP-1 does not increase adenosine levels, indicating an adenosine-independent mechanism of GLP-1 coronary vasodilatation. Trial registration: The local research ethics committee approved the study (National Research Ethics Service-NRES Committee, East of England): REC reference 14/EE/0018. The study was performed according to institutional guidelines, was registered on http://www.clinicaltrials.gov (unique identifier: NCT03502083) and the study conformed to the principles outlined in the Declaration of Helsinki.

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Management of arrhythmias in pulmonary hypertension

Reddy

Nethercott

Khialani

et al. 2021

J Interv Card Electrophysiol

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Bharat Khialani

Transcatheter management of severe aortic stenosis during the COVID-19 pandemic

Impact of Pre-Procedural Blood Pressure on Long-Term Outcomes Following Percutaneous Coronary Intervention

Coronary Flow Variations Following Percutaneous Coronary Intervention Affect Diastolic Nonhyperemic Pressure Ratios More Than the Whole Cycle Ratios

GLP-1 vasodilatation in humans with coronary artery disease is not adenosine mediated

Management of arrhythmias in pulmonary hypertension

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