BackgroundCardiac arrest (CA) affects over 600,000 patients in the USA annually. Despite large-scale public health and educational initiatives, survival rates are lower in certain racial and socioeconomic groups. MethodsA county-level cross-sectional longitudinal study using death data of patients aged 15 years or more from the US Centers for Disease Control and Prevention's Wide-Ranging Online Data for Epidemiologic Research (WONDER) database from 1999 to 2020. CAs were identified using the International Classification of Diseases, tenth revision, clinical modification codes. ResultsThe CA-related deaths between 1999 and 2020 were 7,710,211 in the entire USA. The annual CA related age-adjusted mortality rates (CA-MR) declined through 2019 (132.9 to 89.7 per 100,000 residents), followed by an increase in 2020 (104.5 per 100,000). White patients constituted 82 % of all deaths and 51 % were female. The overall CA-MR during the study period was 104.48 per 100,000 persons. The CA-MR was higher for men as compared with women (123.5 vs. 89.7 per 100,000) and higher for Black as compared with White adults (154.4 vs. 99.1 per 100,000). ConclusionsCA-MR in the overall population has declined, followed by an increase in 2020, which is likely the impact of the COVID-19 pandemic. There were also significant racial and sex differences in mortality rates.

BackgroundThe benefit of prehospital 12‑lead electrocardiogram (PH-ECG) performed by emergency medical service personnel at the site of first medical contact (FMC) in patients with ST-segment elevation myocardial infarction (STEMI) with cardiogenic shock (CS-STEMI) remains unclear. This study aimed to investigate the effect of PH-ECG on door-to-device time in patients with CS-STEMI. MethodsThis study enrolled CS-STEMI (Killip class IV) patients who were transferred directly to hospitals by ambulance (n = 517) from the Kanagawa Acute Cardiovascular Registry database. Patients were divided into PH-ECG (+) (n = 270) and PH-ECG (−) (n = 247) groups. Patients who experienced out-of-hospital cardiac arrest, who did not undergo emergent coronary intervention, or whose data were missing were excluded. Patient characteristics, FMC-to-door time, door-to-device time, and in-hospital mortality were compared between the groups. ResultsThe patient backgrounds of the PH-ECG (+) and PH-ECG (−) groups were comparable. The peak creatinine kinase level was greater in the PH-ECG (+) group than in the PH-ECG (−) group [2756 (1292–6009) IU/ml vs. 2270 (957–5258) IU/ml, p = 0.048]. The FMC-to-door time was similar between the two groups [25 (20−33) min vs. 27 (20–35) min, p = 0.530], while the door-to-device time was significantly shorter in the PH-ECG group [74 (52–103) min vs. 83 (62–111) min, p = 0.007]. In-hospital mortality did not differ between the two groups (18 % vs. 21 %, p = 0.405). Multivariable logistic regression analyses revealed that PH-ECG (+) was independently associated with a door-to-device time < 60 min [odds ratio (95 % confidence intervals): 1.88 (1.24–2.83), p = 0.003]. ConclusionsPH-ECG was significantly associated with shorter door-to-device times in patients with CS-STEMI. Further studies with larger populations and more defined protocols are required to evaluate the utility of PH-ECG in patients with CS-STEMI.

BackgroundIn hypertrophic cardiomyopathy (HCM), the determinants of exercise tolerance and the usefulness of exercise stress echocardiography (ESE) for predicting hard endpoints have not been fully investigated. We aimed to assess the key parameters of ESE for exercise tolerance and the factors predictive of cardiovascular events and new-onset atrial fibrillation (AF) in patients with HCM. MethodsSeventy-four consecutive patients with HCM who underwent ESE and with an ejection fraction >50 % were enrolled. The primary endpoint was a composite of cardiovascular death, heart failure hospitalization, ventricular fibrillation or tachycardia, and ventricular assist device implantation. The secondary endpoint was new-onset AF. ResultsThe primary endpoint occurred in 13 patients. The left and right ventricular functions during exercise were responsible for decreased exercise tolerance. Peak exercise e’ and tricuspid annular plane systolic excursion (TAPSE) significantly predicted increased primary outcome risk (hazard ratio 1.35, 95 % confidence interval 1.10–1.76, p = 0.003; hazard ratio 1.19, 95 % confidence interval 1.07–1.32, p = 0.002, respectively), and the results were consistent even after adjustment by maximum workload. These ESE parameters improved the prognostic model containing estimated glomerular filtration rate (eGFR) and left atrial (LA) volume index. In AF-naive patients (n = 58), LA volume, peak exercise LA reservoir strain, and left ventricular outflow tract (LVOT) pressure gradient predicted new-onset AF. ConclusionsIn patients with HCM, ESE parameters related to left and right ventricular function were responsible for low exercise tolerance. Furthermore, e’ and TAPSE at peak workload could be useful for predicting cardiovascular events in addition to eGFR and LA volume index at baseline. LVOT pressure gradient and LA function during exercise predicted new-onset AF.

BackgroundFractional flow reserve (FFR) and non-hyperemic indices are invasive standards for evaluating functional significance of coronary stenosis. However, data are limited about outcomes in vessels with concordant and discordant physiological results, particularly with a ratio of distal coronary to aortic pressure (Pd/Pa) at rest. MethodsThis was a single-center, retrospective, observational study. Coronary physiological indices including FFR, resting full-cycle ratio (RFR), and resting Pd/Pa were invasively evaluated in vessels with intermediate coronary artery stenosis. FFR ≤0.80, RFR ≤0.89, and resting Pd/Pa ≤0.92 were considered physiologically positive. Vessels were divided into three groups according to the results of FFR, RFR, and resting Pd/Pa: concordant positive (all positive for FFR, RFR, and resting Pd/Pa), concordant negative (all negative for FFR, RFR, and resting Pd/Pa), and discordant groups. The primary endpoint was target vessel failure (TVF) defined as a composite of cardiac death and target vessel myocardial infarction and unplanned revascularization. ResultsOf 987 vessels included, 311 (31.5 %), 263 (26.6 %), and 413 (41.9 %) were in the concordant positive, discordant, and concordant negative groups. During a median follow-up period of 417 (208–756) days, TVF occurred more frequently in the concordant positive group, followed by the discordant and concordant negative groups (7.7 % vs. 4.6 % vs. 2.4 %, p = 0.004). TVF increasingly accrued during long-term follow-up, while discordant results of RFR and resting Pd/Pa did not result in worse outcomes compared with negative RFR and resting Pd/Pa. ConclusionThe combined assessment of FFR with RFR and resting Pd/Pa stratified TVF risks in vessels with intermediate coronary stenosis.

BackgroundSevere aortic stenosis (AS) is the most common valvular disease in the USA. Patients undergoing urgent or emergent transcatheter aortic valve replacement (TAVR) have worse clinical outcomes than those undergoing non-urgent procedures. No studies have examined the impact of procedural TAVR timing on outcomes in AS complicated by acute heart failure (AHF). AimsWe aimed to evaluate differences in in-hospital mortality and clinical outcomes between early (<48 h) vs. late (≥48 h) TAVR in patients hospitalized with AHF using a real-world US database. MethodsWe queried the National Inpatient Sample database to identify hospitalizations with a diagnosis of AHF, aortic valve disease, and a TAVR procedure (2015–2020). The associations between TAVR timing and clinical outcomes were examined using logistic regression model. ResultsA total of 25,290 weighted AHF hospitalizations were identified, of which 6855 patients (27.1 %) underwent early TAVR, and 18,435 (72.9 %) late TAVR. Late TAVR patients had higher in-hospital mortality rate (2.2 % vs. 2.8 %, p < 0.01) on unadjusted analysis but no significant difference following adjustment for demographic, clinical, and hospital characteristics [aOR 1.00 (0.82–1.23)]. Late TAVR was associated with higher odds of cardiac arrest (aOR 1.50, 95 % CI: 1.18–1.90) and use of mechanical circulatory support (aOR 2.05, 95 % CI: 1.68–2.51). Late TAVR was associated with longer hospital stay (11 days vs. 4 days, p < 0.01) and higher costs ($72,851 vs. $53,209, p < 0.01). ConclusionEarly TAVR was conducted in approximately 25 % of the AS patients admitted with AHF, showing improved in-hospital outcomes before adjustment, with no significant differences observed after adjustment.

BackgroundDialysis patients undergoing transcatheter aortic valve replacement (TAVR) generally have poor prognosis compared with non-dialysis patients. Furthermore, there are few reliable risk models in this clinical setting. Therefore, we aimed to establish a risk model in dialysis patients undergoing TAVR that would be informative for their prognosis and the decision-making process of TAVR. MethodsA total 118 dialysis patients (full cohort) with severe aortic stenosis underwent TAVR in our institute between 2012 and 2022. The patients of the full cohort were randomly assigned to two groups in a 2:1 ratio to form derivation and validation cohorts. Risk factors contributing to deaths were analyzed from the preoperative variables and a risk model was established from Cox proportional hazard model. ResultsThere were 69 deaths following TAVR derived from infectious disease (43.5 %), cardiovascular-related disease (11.6 %), cerebral stroke or hemorrhage (2.9 %), cancer (1.4 %), unknown origin (18.8 %), and others (21.7 %) during the observational period (811 ± 719 days). The cumulative overall survival rates using the Kaplan-Meier method at 1 year, 3 years, and 5 years in the full cohort were 82.8 %, 41.9 %, and 24.2 %, respectively. An optimal risk model composed of five contributors: peripheral vascular disease, serum albumin, left ventricular ejection fraction < 40 %, operative age, and hemoglobin level, was established. The estimated C index for the developed models were 0.748 (95 % CI: 0.672–0.824) in derivation cohort and 0.705 (95 % CI: 0.578–0.832) in validation cohort. The prediction model showed good calibration [intraclass correlation coefficient = 0.937 (95%CI: 0.806–0.981)] between actual and predicted survival. ConclusionsThe risk model was a good indicator to estimate the prognosis in dialysis patients undergoing TAVR.

BackgroundCoronary artery disease (CAD) and valvular disease frequently coexist due to similar pathophysiology. Effort has been dedicated to comprehending the outcomes of concomitant coronary revascularization and valve replacement procedures. However, the understanding of how prior valve replacement affects the outcomes of coronary artery bypass grafting (CABG) remains limited. Thus, this study aimed to conduct a population-based examination of the in-hospital outcomes in patients with previous valve replacement in CABG. MethodsPatients who underwent CABG were identified in the National Inpatient Sample in the USA from Q4 2015–2020. Patients with age < 18 years and concomitant procedures were excluded. A 1:3 propensity-score matching was used to address differences in demographics, socioeconomic status, primary payer status, hospital characteristics, comorbidities, and transfer/admission status between patients with and without previous valve replacement. In-hospital postoperative outcomes were assessed. ResultsThere were 514 patients with previous valve replacement who underwent CABG, who were matched to 1588 out of 167,668 controls. After matching, patients with valve replacement had mostly comparable in-hospital outcomes except for a higher risk of vascular complications (1.75 % vs 0.57 %, p = 0.02), a longer length of stay (10.90 ± 7.04 days vs 9.95 ± 6.53 days, p = 0.01), and higher hospital charges (275,465 ± 229,088 US dollars vs 231,648 ± 189,938 US dollars, p < 0.01). ConclusionFor short-term outcomes, CABG is generally safe for patients who have undergone previous valve replacement, although there is an increased risk of vascular complications that may warrant additional attention. The findings of this study can be valuable for preoperative risk assessment of patients who have had valve replacement and are considering CABG.

Percutaneous coronary intervention is a critical treatment for coronary artery disease, particularly myocardial infarction, and is highly recommended in clinical guidelines. Traditional metallic stents, although initially effective, remain permanently in the artery and can lead to complications such as in-stent restenosis, late thrombosis, and chronic inflammation. Given the temporary need for stenting and the potential for late complications, bioresorbable stents have emerged as a promising alternative. However, bioresorbable polymeric stents have encountered significant clinical challenges due to their low mechanical strength and ductility, which increase the risks of thrombosis and local inflammation. Consequently, bioresorbable metals are being considered as a superior option for coronary stents. This review examines the progress of bioresorbable metallic stents from both preclinical and clinical perspectives, aiming to provide a theoretical foundation for future research. Iron, zinc, and magnesium are the primary materials used for these stents. Zinc-based bioresorbable stents have shown promise in preclinical studies due to their biocompatibility and vascular protective properties, although human clinical studies are still limited. Magnesium-based stents have demonstrated positive clinical outcomes, being fully absorbed within 12 months and showing low rates of late lumen loss and target lesion failure at 6- and 12-months post-implantation. Initial trials of iron-based stents have indicated favorable mid-term safety and efficacy, with complete absorption by the body within three years and consistent luminal expansion beyond six months post-implantation. Despite these advancements, further trials are needed for comprehensive validation. In conclusion, while current materials do not fully meet the ideal requirements, ongoing research should focus on developing bioresorbable stents with enhanced performance characteristics to better meet clinical needs.

The ventricular trabecular layer is crucial in embryonic life. In adults, the proportion of trabecular-to-compact myocardium varies substantially between individuals, within individuals over time, and yet exhibits almost no correlation to pump function since most individuals with excessive trabeculation are asymptomatic. The question of how functional is the myocardium of the trabecular layer, relative to the myocardium of the compact layer, has been difficult to answer but it is often assumed to be inferior. An answer is now emerging from recent advances and it can improve our understanding of how the trabecular layer impacts on pathogenicity. This narrative review concerns natural variation in trabeculation, tissue organization, transcriptomics, immunohistochemistry, vascularization, electrical propagation, diastolic function and compliance, systolic function, and ejection fraction. There are no overt transcriptional differences in the adult stage, and the myocardium is equally equipped with sarcomeric proteins, mitochondria, and vascular supply. The similar structural features are consistent with myocardium with a similar stroke work per gram tissue, along with a high ejection fraction of the trabecular layer. In conclusion, the myocardium of the trabecular and compact layers is highly similar and this offers a logical explanation for the reproducible observations that most individuals with excessive trabeculation are asymptomatic.