View clinical trials related to Myocardial Ischemia.
Filter by:The objective of this study is to evaluate safety and effectiveness of the SINOMED CBC coronary dilatation catheter during PCI in subjects with stenotic coronary arteries.
In people living with coronary heart disease (CHD), V̇O2 peak predicts all-cause mortality. V̇O2 peak increases with regular exercise training. Thus, in exercise-based cardiovascular rehabilitation programmes, V̇O2 peak is a useful marker of how effective the exercise training has been. Maximal cardiopulmonary exercise testing (CPET) is the gold standard method of measuring V̇O2 peak. However, maximal CPET is expensive and requires trained staff to conduct the test and interpret the results. Furthermore, CPET is not routinely available in United Kingdom (UK) cardiovascular rehabilitation programmes. Field exercise tests, such as incremental cycle ergometer tests, are used in conjunction with predictive equations to estimate V̇O2 peak. However, this group has shown that estimating changes in V̇O2 peak in this way is inaccurate. Alternative solutions are required. VentriJect Seismofit® uses a technique called seismocardiography (SCG); the measurement of vibrations in the chest wall, caused by each heartbeat, using accelerometers. SCG can be used to estimate V̇O2 peak from a SCG measurement taken at rest. This study will explore the validity of VentriJect Seismofit for estimating V̇O2 peak in people with CHD.
This study aims to 1) develop a strength-building lifestyle-integrated intervention for sarcopenic CAD patients and to 2) examine the feasibility and 3) preliminary effects of this intervention on skeletal muscle mass, muscle strength, physical performance, cardiac-related functional status and health-related quality of life (HRQoL), psychological distress, major adverse cardiovascular and cerebral events (MACCE) and hospital readmission rates
Вackground. Progressive atherosclerosis is accompanied by unfavorable clinical outcomes, study and understanding of this process, creation of risk assessment method is necessary for individualization of approaches to treatment and prevention of this condition. Purpose of the study. Creation of a mathematical model to assess the risk of accelerated atherosclerosis development, using methods of factor and correlation analysis. Patient Characteristics and Study Methods. A retrospective cohort study included 202 patients with coronary heart disease. Group 1 included patients who had had myocardial infarction or unstable angina, emergency arterial stenting, stroke, peripheral artery thrombosis, critical ischemia, and lower extremity amputation within 2 years before study inclusion. Patients in the comparison group did not have these events. The influence of each of the studied parameters on the probability of fast progressing atherosclerosis was determined by factor and correlation analysis. The prospective part of the study will include follow-up of patients from both groups for 12 months. Annual "endpoints": fatal outcome, unscheduled coronary revascularization, nonfatal myocardial infarction and stroke, hospitalization due to unstable angina pectoris, stent thrombosis, stenting/plasty of lower limb arteries.
This study aims to determine whether the neutrophil-lymphocyte ratio (NLR) and platelet-lymphocyte ratio (PLR) can be used as predictors of coronary heart disease (CHD) in CKD patients undergoing dialysis at Moewardi General Hospital Surakarta. It was hypothesized that NLR and PLR, which have been identified as inflammatory biomarkers, would be significantly related to increased arotid intima-media thickness (CIMT) in CKD patients undergoing dialysis. This study is an observational analytic study using a cross-sectional approach conducted at department of renal-hypertension and hemodialysis unit in Moewardi General Hospital in Surakarta, Indonesia from January to July 2022.
Coronary Microvascular Dysfunction has been consistently shown to play a considerable role in pathophysiology of Ischaemia with non-obstructed coronary arteries (INOCA). While the both diagnoses are individually related to remarkably worse outcome, there is no available method to simultaneously determine INOCA-CMD endotypes in vessel level, during the invasive diagnosis. The investigators hereby hypothesize that, combined intracoronary electrocardiogram (IC-ECG) (considering the high sensitivity and specificity of IC-ECG for studied vessel-territory) and intracoronary doppler can simultaneously and successfully identify vessel specific coronary microvascular dysfunction and resulting ischemia, which may potentially enable immediate diagnosis and endotyping of CMD-INOCA subgroups during the invasive assessment of first ANOCA episode, obviating the need for further ischemia-studies such es SPECT, which have considerably higher costs and lower sensitivity. Major coronary arteries of patients aged between 18 - 75 without obstructing coronary artery disease who have previously documented ischemia with non-obstructed coronary arteries (INOCA) via coronary angiogram and myocardial perfusion scan will be evaluated simultaneously with IC-ECG and intracoronary Doppler during rest and under adenosine induced hyperaemia. Performance of the combined system to identify Coronary Microvascular Dysfunction with structural and functional subgroups as defined by abnormal Coronary Flow Reserve (CFR) and Hyperemic Microvascular Resistance (HMR) and Ischemia in downstream territories of same vessel area (as defined by perfusion scan) is intended to be determined. The investigators also intend to interrogate the possible relationship between dynamic changes in IC-ECG parameters and invasively obtained intracoronary hemodynamic data.
All preoperative cardiac medications will be continued till the morning of the surgery, except angiotensin converting enzyme inhibitors. Patients will be pre-medicated with intramuscular morphine at 0.1 mg.kg-1 one hour before surgery. Upon arrival to the operating room, Initial monitoring included five lead electrocardiograms, non-invasive blood pressure, and pulse oximetry. At the attending anesthetists discretion, intravenous midazolam (0.05 mg/kg) will be administered for anxiolysis. Under local anesthesia an arterial line will be placed in the right radial artery and central venous line will be placed in the right internal jugular vein. Before induction of anesthesia for all study patients, Electrical cardiometry device (ICON; Cardiotonic, Osypka; Berlin, Germany) will be applied to the patient through 4 electrodes at the following sites: Below the left ear, Above the midpoint of the left clavicle, Left mid-axillary line at level of the xiphoid process and 5 cm inferior to the third electrode. Stroke volume variability (SVV) was measured while patient maintaining standard calm breathing at 8 breath/minute for one-minute. Patients with SVV less than 13% will be excluded from the study. Thus, all patients included will be considered fluid responders[5]. The baseline data in the form of heart rate, systolic, diastolic, and mean systemic arterial pressures, CO, CI, SV, SVI, SVV, SVR, and SVRI will be recorded during the study period in all the patients. Patients will then be randomly divided into two groups; control group will receive nothing before induction, while patients in volume loading group will receive volume loading of 8ml/kg Ringer acetate over 10 minutes. The volume loading will be repeated until SVV would be below 13%. The volume loading would be given by an anesthesia resident not involved in data collection. For induction, Patients in both groups will receive 3 mcg/kg of fentanyl. Then in all patients, propofol will be injected slowly at 1.5 mg/kg in 0.25 mg/kg increments every 20 s till clinical loss of consciousness. Clinical loss of consciousness (defined as no response to auditory command) will be assessed by asking the patients repeatedly every 20 s to open their eyes. After loss of consciousness, atracurium 0.5 mg/kg will be administered to facilitate tracheal intubation. The stress response to laryngoscopy and tracheal intubation is secondary to marked increase in sympathetic activity and manifested in general as tachycardia and hypertension and will be managed with increments 0..25mcg fentanyl. Hemodynamic changes; 20 beats/ minute or 20 mmHg difference in heart rate and blood pressure respectively were considered to be significant. Anesthesia will be maintained by isoflurane (1-1.2 %). Patients will be mechanically ventilated to have target of PO2 above 300mmhg and PCO2 between 35-40mmg. Any episode of hypotension (defined as mean arterial pressure [MAP] < 80% of the baseline reading and/or MAP <60 mmHg) will be managed by 5 mcg norepinephrine (which could be repeated if hypotension persists for 2 minutes). If bradycardia occurred (defined as heart rate less than 50 bpm), it will be managed by IV atropine bolus (0.5 mg). Hemodynamic data will be recorded 1-minte before the induction, 1-and 2-minutes after loss of consciousness, 1-minutes after intubation, then every 2-minutes for 15-minutes after intubation., the end point of the present study. Throughout this period the lungs will be mechanically ventilated with 50% air-oxygen mixture, to maintain an end-tidal carbon dioxide between 35 and 40 mmHg.
To evaluate the feasibility of a 6-month multidisciplinary program to reverse prediabetes in adults with coronary heart disease using the Mediterranean diet, intermittent fasting and exercise.
The investigators aimed to identify the value of concordance between the diastolic hyperemia-free ratio (DFR) and fractional flow reserve (FFR) during pre-interventional and post-interventional period using a 0.014" COMET II Pressure Guidewire
TruePhysio pressure microcatheter is a novel device for evaluating the functional significance of coronary stenosis, and its safety and efficacy on the measurement of hyperemic index have been validated in the previous SUPREME study (NCT03541577). This study will further evaluate the safety and efficacy of the physiological indices measured by the TruePhysio pressure microcatheter, including resting and hyperemic indices, with respect to the physiological indices measured by the Pressure Wire.