Impact of biomarker type on periprocedural myocardial infarction in patients undergoing elective PCI
Background Periprocedural myocardial infarction (MI) according to the Society for Cardiovascular Angiography and Interventions (SCAI) criteria has prognostic relevance among patients undergoing percutaneous coronary intervention (PCI). However, it is unclear whether the type of cardiac biomarker used for the diagnosis of periprocedural MI plays a role in terms of event frequency and outcomes. Objectives To compare the characteristics of SCAI periprocedural MI based on creatine kinase-myocardial band fraction (CK-MB) vs. high-sensitivity cardiac troponin (hs-cTn) in patients undergoing elective PCI. Methods Between 2017 and 2021, periprocedural MI was assessed in a prospective study. The primary clinical outcome of interest was all-cause death at 1-year follow-up. Results A total of 1010 patients undergoing elective PCI was included. SCAI periprocedural MI based on CK-MB vs. hs-cTnI occurred in 1.8% and 13.5% of patients, respectively. hs-cTnI periprocedural MI in the absence of concomitant CK-MB criteria was associated with lower rates of ancillary criteria, including angiographic, ECG, and cardiac imaging criteria. At 1-year follow-up, periprocedural MI defined by CK-MB (adjusted hazard ratio, HR, 4.27, 95% confidence intervals, CI, 1.23–14.8; p = 0.022) but not hs-cTnI (adjusted HR 2.04, 95%CI 0.94–4.45; p = 0.072) was associated with a higher risk of all-cause death. Hs-cTnI periprocedural MI was not predictive of death unless accompanied by CK-MB criteria (adjusted HR 4.64, 95%CI 1.32–16.31; p = 0.017). Conclusions In the setting of elective PCI, using hs-cTn instead of CK-MB resulted in a substantial increase in SCAI periprocedural MI events, which were not prognostically relevant in the absence of concurrent CK-MB elevations.
Aims Non-invasive myocardial work (MW) quantification has emerged in the last years as an alternative echocardiographic tool for myocardial function assessment. This new parameter provides a less loading-dependent evaluation of myocardial performance through the combined assessment of global longitudinal strain (GLS) and non-invasive left ventricle (LV) pressures. The role of MW as a marker of cardiac dysfunction and reverse remodelling in patients with severe aortic stenosis (AS) after aortic valve implantation (TAVI) has not been adequately investigated. This study aims to evaluate MW indices as early echocardiographic markers of LV reverse remodelling within a month after TAVI and their prognostic value. Methods and results We conducted a single-centre prospective study, enrolling 70 consecutive patients (mean age 80.1 ± 5.5 years) with severe AS undergoing TAVI between 2018 and 2020, selected from the EffecTAVI registry. Exclusion criteria were prior valve surgery, severe mitral stenosis, permanent atrial fibrillation, left bundle branch block (LBBB) at baseline, and suboptimal quality of speckle-tracking image analysis. Echocardiographic assessment was performed before TAVI and at 30-day follow-up. Clinical, demographic, and resting echocardiographic data were recorded, including quantification of 2D global longitudinal strain (GLS), global work index (GWI), global constructive work (GCW), global wasted work (GWW), and global work efficiency (GWE). LV peak systolic pressure was estimated non-invasively from the sum of systolic blood pressure and trans-aortic mean gradient. One month after the procedure, there was a significant improvement of LV GLS (−17.94 ± 4.24% vs. −19.35 ± 4.31%, before and after TAVI respectively, P = 0.002), as well as a significant reduction of GWI (2430 ± 586 mmHg% vs. 1908 ± 472 mmHg%, P < 0.001), GCW (2828 ± 626 mmHg% vs. 2206 ± 482 mmHg%, P < 0.001), and GWW (238 ± 207 mmHg% vs. 171 ± 118 mmHg%, P = 0.006). Conversely, MWE did not significantly change early after intervention (90.53 ± 6.05% vs. 91.45 ± 5.05%, P = 0.204). After TAVI, 30 patients (42.8%) developed LV dyssynchrony due to LBBB or pacemaker implantation. When the population was divided according to the presence or absence of LV dyssynchrony at 30-day follow-up, a significant reduction in GWW was found only in those without dyssynchrony (244 ± 241 vs. 141 ± 110 mmHg% with and without dyssynchrony respectively, P = 0.002). Consistently, in this subgroup, MWE significantly improved post-TAVI (90 ± 7 vs. 93 ± 5%, P = 0.002), while a trend of MWE reduction was observed in patients who developed dyssynchrony post-TAVI (91 ± 4 vs. 89 ± 5%, P = 0.164). In the overall population, a baseline value of MWE< 92% was associated with an increased rate of cardiovascular events (composite of all-cause death and rehospitalization for heart failure) at 1-year follow-up (22.2 vs. 3.1%, long rank, P = 0.016). Conclusions In patients with severe AS undergoing TAVI a significant reduction of GWW and improvement of MWE can be detected only in those who did not develop LV dyssynchrony. In this setting, MWE lower than 92% at baseline is associated with poor outcome. Thus, MWE could represent an alternative tool for myocardial function assessment in patients receiving TAVI.
Aims Complex percutaneous coronary intervention (PCI) patients have greater risk of peri-procedural complications, with potential to be associated with poor short-term and late prognosis. Cangrelor is an intravenous P2Y12 receptor inhibitor characterized by rapid onset and offset effect of platelet inhibition which reduced the risk of thrombotic complications. Cangrelor use is currently approved in patients naïve from oral P2Y12 inhibitors with chronic (CCS) or acute coronary syndrome (ACS) undergoing PCI with a IIb recommendation by European guidelines. Yet, the process of switching from cangrelor to oral P2Y12 inhibitor remains uncertain. Methods and Results POMPEII study (NCT04790032) is a prospective registry conducted at Federico II University of Naples enrolling all patients undergoing PCI and receiving cangrelor administration. Pharmacodynamic (PD) assessments were performed at baseline, at 30 minutes, 3 hours and 4-6 hours after cangrelor initiation with 3 assays: 1) the gold standard light transmittance aggregometry (LTA) (20- and 5-µM adenosine diphosphate [ADP] stimuli); 2) VerifyNow P2Y12-test; 3) Multiplate electrode aggregometry (MEA), ADP-test. We enrolled 41 patients undergoing elective complex PCI. All patients were P2Y12 inhibitor naïve and received aspirin, unfractionated heparin, and cangrelor (30-µg/kg bolus followed by 4-µg/kg/min infusion for 2 hours) prior to the start of PCI per standard of care. All patients showed low P2Y12 reactivity at 30 minutes during cangrelor infusion with a mean inhibition of platelet aggregation (IPA, %) of 55.7±18.0% at LTA 20-µM ADP test (34% with IPA ≤50%, 19.5% with IPA≥70%, 4.9% with IPA ≥80% and none IPA ≥90%). High residual platelet reactivity (HRPR) was observed in 1 case (2.4%) as shown by LTA (both 20- and 5-µM ADP stimuli) but not confirmed by VerifyNow and MEA. HRPR was observed in 55% at at 3h and 22.5% at 4-6h at LTA 20-µM and consistently with other assays. All patients with HRPR after cangrelor stop had received clopidogrel as switching drug, while no HRPR was observed in the 4 patients switching to ticagrelor. Conclusions Cangrelor showed to be effective and safe in patients undergoing complex PCI at high thrombotic risk. The switch from cangrelor to clopidogrel could expose patients to a variable period of on-treatment HRPR with inadequate platelet inhibition probably due to the fast offset of cangrelor effect and delay of oral drug effect, while the use of ticagrelor soon after cangrelor start might be ideal to cover the gap. This might be of relevance in such a delicate clinical setting.
Aims Primary percutaneous coronary intervention (PCI) represents the preferred revascularization strategy among patients with acute ST-segment elevation myocardial infarction (STEMI). A decline in the rates of primary PCI has been observed globally during the outbreak of coronavirus disease-19 (COVID-19). Fear of exposure to in-hospital infection has been hypothesized as the main mechanism of this phenomenon, also contributing to a delayed presentation of patients with STEMI. However, a formal assessment of initial electrocardiograms (ECGs) among STEMI patients during the COVID-19 pandemic is still lacking. We therefore compared pre-hospital ECGs of STEMI patients hospitalized in Italy after the first reported case of COVID-19 on 21 February 2020 with data from the same period in 2019 to identifying potential changes between the two periods. Methods and results Prehospital ECGs were obtained from the STEMI care network in the Campania region. Deidentified ECGs were analysed by two expert reviewers who were blinded to date of recording. Pathological Q-waves were defined as a Q-wave with a duration ≥40 ms and/or depth ≥25% of the R-wave in the same lead or the presence of a Q-wave equivalent. These criteria have been shown to be associated with final infarct size at cardiac magnetic resonance. For all conventional STEMI, the timing of STEMI onset was estimated with the Anderson-Wilkins (AW) acuteness score, ranging from 1 (least acute) to 4 (most acute). From 21 February 2020 to 16 April 2020, a total of 3239 pre-hospital ECGs were recorded by the emergency medical system and 167 (5.15%) were classified as STEMI. During the same period in 2019, 3505 pre-hospital ECGs were recorded, and 196 (5.59%) were classified as STEMI. There was no difference between the two study periods in terms of age, gender, type, and location of STEMI (Table 1). Pathological Q-waves were present in 54.5% of ECGs recorded during the COVID-19 period compared with 22.1% of ECGs recorded in the same period in 2019 (risk difference 32.3, 95% confidence intervals [CI]: 21.2–43.5 percentage points). There was also an increase in the mean number of Q-waves during the COVID-19 compared with the control period (1.4 vs. 0.9; P < 0.001). These findings remained similar when QS- and qR complexes were analysed separately. Consistently, the AW score was significantly lower during the COVID-19 period (2.4 vs. 2.8; P < 0.001). Conclusions Prehospital ECGs of STEMI patients during the COVID-19 pandemic presented more frequently with signs of late ischemia compared with the equivalent period in 2019. Approximately, one out of two patients had already pathological Q-waves in the initial ECG. The AW acuteness score is superior to patient history (historical timing) in predicting myocardial salvage and mortality after reperfusion in STEMI patients, thus explaining the higher mortality rate and the increased risk of infarct-related complications observed during the COVID-19 pandemic.
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