Speckle tracking dobutamine stress echocardiography diagnostic accuracy in primary coronary arteries disease diagnosi

The aim of the work was to evaluate STE feasibility as DSE visualization method and its accuracy compared to coronary angiography (CAG) in the patients with moderate-tohigh coronary arteries disease (CAD) risk. Materials and methods: We prospectively examined 140 pts (84 (60.0%) men) with suspected CAD in order to verify diagnosis and evaluate myocardial viability and coronary reserve. Results: Mean LV EF was 54.4±15.8%. All pts had normal BP and HR during the test. There were no significant hemodynamics alterations during the test. There were no significant complications during DSE – 15 (12.9%) cases of different relatively low-grade supraventricular and ventricular arrhythmia, mainly transitory without interventions. There were 116 (82.9%) positive DSE results, of which 2 (1.72%) were false-positive. In 2 (8.3%) pts with negative DSE results CAG revealed 1-vessel insignificant (50 – 70%) lesions with developed collaterals (false-negative results). According to DSE and CAG results, 96 (82.3%) pts underwent revascularization interventions – 86 (89.6%) PCI’s and (10.4%) CABG surgeries. Sensitivity and specificity of DSE with STE for primary CAD diagnosis according to “golden standard” CAG results were 98.3% and 91.7%, respectively, with identical positive and negative predictive value and very high method overall accuracy (AUC = 0.98) and OR = 627.0 (p<0.0001). Sensitivity and specificity of DSE with STE for defining indications for intervention and revascularization were 97.9% and 91.7%, respectively, with high overall accuracy (AUC = 0.95; OR = 564.0, p<0.0001). Combined quantification of ΔGLS and ΔWMSI for primary CAD diagnosis showed significantly lower sensitivity 86.2% (р=0.0002) and specificity 80.4% (р=0.0064) with significantly lower integral method accuracy (AUC 0.83, р<0.0001). Conclusions: DSE with STE as a visualization method is a safe and optimal method for ischemia diagnosis and myocardial viability and coronary reserve evaluation in the pts with CAD suspicion. Given the lower ΔGLS and ΔWMSI accuracy compared to integral DSE with STE result evaluation, as well as frequent GLS growth in significant amount of patients with definite positive test result, authors recommend evaluating integral test result rather than strain value

Impact of Acute Myocardial Ischemia Duration on Reperfusion Outcomes in STEMI Patients

The aim. To analyze the influence of the duration of acute myocardial ischemia, specifically in ST-elevation myocardial infarction (STEMI) electrocardiographic patterns, on the outcomes of reperfusion interventions. We focused on the assessment of immediate angiographic data in the catheterization laboratory after stenting and investigated whether the frequency of the no-reflow phenomenon is dependent on the time since the onset of anginal pain. Our hypothesis of inferior immediate treatment outcomes is based on the pathophysiological course of ischemic-reperfusion injury in patients with late myocardial infarction. Primarily, this is due to the development of myocardial edema, leading to extravascular compression of the vessel, thereby influencing Thrombolysis in Myocardial Infarction grade 0 blood flow. Materials and methods. We conducted an analysis of 107 angiograms of STEMI patients, who underwent percutaneous coronary intervention at the Amosov National Institute of Cardiovascular Surgery between 2021 and 2023. The patients were categorized into four groups based on the duration of acute myocardial ischemia. The first group included patients with ischemia duration up to two hours, aligning with the golden window for revascularization recommended by the European guidelines. The second, third, and fourth groups consisted of patients with ischemia durations of 3-12 hours, 12-24 hours, and over 48 hours, respectively. Results. Of 104 patients, complete restoration of coronary circulation was achieved in 88 cases, while, unfortunately, 16 patients had TIMI 0/1 blood flow. Such a probability of complication is 15.3% in the studied cohort. According to the clinical profile, the patients were divided into those who had no-reflow (main group) and patients with complete restoration of blood flow (control group). In the group of unrestored blood flow, cardiogenic shock occurred more often, and the infarct-dependent artery was more often occluded than suboccluded. The technique of percutaneous intervention was similar in both groups. Conclusion. The frequency of the no-reflow phenomenon increases with the duration of acute myocardial ischemia. Patients presenting later than 48 hours since the onset of ischemia are more prone to no-reflow (62.5% vs 37.5% if less than 48 hours). Cardiogenic shock is associated with a higher likelihood of the no-reflow phenomenon. The most significant reason for the delay in delivering a STEMI patient to catheterization laboratory anamnestically is the patient’s untimely medical care seeking. In our opinion, this delay can be avoided by increasing awareness about the initial signs of myocardial infarction and the necessity of seeking immediate medical care