Heinz Sochor

Combined delivery approach of bone marrow mononuclear stem cells early and late after myocardial infarction: the MYSTAR prospective, randomized study

Background Combined intracoronary and intramyocardial administration might improve outcomes for bone-marrow-derived stem cell therapy for acute myocardial infarction (AMI). We compared the safety and feasibility of early and late delivery of stem cells with combined therapy approaches.Methods Patients with left ventricular ejection fraction less than 45% after AMI were randomly assigned stem cell delivery via intramyocardial injection and intracoronary infusion 3–6 weeks or 3–4 months after AMI. Primary end points were changes in infarct size and left ventricular ejection fraction 3 months after therapy.Results A total of 60 patients were treated. The mean changes in infarct size at 3 months were −3.5 ± 5.1% (95% CI −5.5% to −1.5%, P = 0.001) in the early group and −3.9 ± 5.6% (95% CI −6.1% to −1.6%, P = 0.002) in the late group, and changes in ejection fraction were 3.5 ± 5.6% (95% CI 1.3–5.6%, P = 0.003) and 3.4 ± 7.0% (95% CI 0.7–6.1%, P = 0.017), respectively. At 9–12 months after AMI, ejection fraction remained significantly higher than at baseline in both groups. In the early and late groups, a mean of 200.3 ± 68.7 × 106 and 194.8 ± 60.4 × 106 stem cells, respectively, were delivered to the myocardium, and 1.30 ± 0.68 × 109 and 1.29 ± 0.41 × 109 cells, respectively, were delivered into the artery. A high number of cells was required for significant improvements in the primary end points.Conclusions Combined cardiac stem cell delivery induces a moderate but significant improvement in myocardial infarct size and left ventricular function.

NOGA-Guided Analysis of Regional Myocardial Perfusion Abnormalities Treated With Intramyocardial Injections of Plasmid Encoding Vascular Endothelial Growth Factor A-165 in Patients With Chronic Myocardial Ischemia Subanalysis of the EUROINJECT-ONE Multicenter Double-Blind Randomized Study

Background—The aim of this substudy of the EUROINJECT-ONE double-blind randomized trial was to analyze changes in myocardial perfusion in NOGA-defined regions with intramyocardial injections of plasmid encoding plasmid human (ph)VEGF-A165 using an elaborated transformation algorithm. Methods and Results—After randomization, 80 no-option patients received either active, phVEGF-A165 (n=40), or placebo plasmid (n=40) percutaneously via NOGA-Myostar injections. The injected area (region of interest, ROI) was delineated as a best polygon by connecting of the injection points marked on NOGA polar maps. The ROI was projected onto the baseline and follow-up rest and stress polar maps of the 99m-Tc-sestamibi/tetrofosmin single-photon emission computed tomography scintigraphy calculating the extent and severity (expressed as the mean normalized tracer uptake) of the ROI automatically. The extents of the ROI were similar in the VEGF and placebo groups (19.4±4.2% versus 21.5±5.4% of entire myocardium). No differences were found between VEGF and placebo groups at baseline with regard to the perfusion defect severity (rest: 69±11.7% versus 68.7±13.3%; stress: 63±13.3% versus 62.6±13.6%; and reversibility: 6.0±7.7% versus 6.7±9.0%). At follow-up, a trend toward improvement in perfusion defect severity at stress was observed in VEGF group as compared with placebo (68.5±11.9% versus 62.5±13.5%, P=0.072) without reaching normal values. The reversibility of the ROI decreased significantly at follow-up in VEGF group as compared with the placebo group (1.2±9.0% versus 7.1±9.0%, P=0.016). Twenty-one patients in VEGF and 8 patients in placebo group (P<0.01) exhibited an improvement in tracer uptake during stress, defined as a ≥5% increase in the normalized tracer uptake of the ROI. Conclusions—Projection of the NOGA-guided injection area onto the single-photon emission computed tomography polar maps permits quantitative evaluation of myocardial perfusion in regions treated with angiogenic substances. Injections of phVEGF A165 plasmid improve, but do not normalize, the stress-induced perfusion abnormalities.

Reduction of infarct size induced by pressure-controlled intermittent coronary sinus occlusion

The effect of pressure-controlled intermittent coronary sinus (CS) occlusion on myocardial infarction (MI) size was evaluated. A device for this purpose was developed that consisted of a balloon catheter and pump system that produced controlled, intermittent occlusion of the CS and used CS pressure as a feedback to determine the duration of occlusion. It was hypothesized that proper selection of occlusion and non-occlusion times would both facilitate improved retrograde flow to ischemic areas and allow for more complete venous washout of metabolites. In 13 treated dogs and 12 control dogs before treatment, myocardium at risk of MI was estimated by injection of technetium-labeled microspheres. Intermittent CS occlusion was then begun, 15 minutes after coronary artery occlusion, and continued until termination of the experiment 6 hours later. Postmortem determination of infarct size was performed using the triphenyltetrazolium chloride staining technique. Intermittent CS occlusion begun 15 minutes after coronary artery occlusion and continued for 6 hours resulted in a 45% average reduction in MI size (p less than 0.001). During CS occlusion, the sinus systolic mean pressure increased from 10 to 44 mm Hg, while the distal coronary artery mean pressure increased by an average of 36% (from 22 to 30 mm Hg, p less than 0.05). These results suggest intermittent occlusion may be an effective treatment for evolving MI. This therapy, used alone or combined with other therapies (e.g., administration of pharmacologic agents), appears to have great clinical potential.

Role of adult bone marrow stem cells in the repair of ischemic myocardium: Current state of the art

OBJECTIVE To review the milestones in stem cell therapy for ischemic heart disease from early basic science to large clinical studies and new therapeutic approaches. MATERIALS AND METHODS Basic research and clinical trials (systematic review) were used. The heart has the ability to regenerate through activation of resident cardiac stem cells or through recruitment of a stem cell population from other tissues, such as bone marrow. Although the underlying mechanism is yet to be made clear, numerous studies in animals have documented that transplantation of bone marrow-derived stem cells or circulating progenitor cells following acute myocardial infarction and ischemic cardiomyopathy is associated with a reduction in infarct scar size and improvements in left ventricular function and myocardial perfusion. RESULTS Cell-based cardiac therapy has expanded considerably in recent years and is on its way to becoming an established cardiovascular therapy for patients with ischemic heart disease. There have been recent insights into the understanding of mechanisms involved in the mobilization and homing of the imported cells, as well as into the paracrine effect, growth factors, and bioactive molecules. Additional information has been obtained regarding new stem cell sources, cell-based gene therapy, cell-enhancement strategies, and tissue engineering, all of which should enhance the efficacy of human cardiac stem cell therapy. CONCLUSIONS The recently published trials using bone marrow-origin stem cells in cardiac repair reported a modest but significant benefit from this therapy. Further clinical research should aim to optimize the cell types utilized and their delivery mode, and pinpoint optimal time of cell transplantation.

Role of beta-endorphins in silent myocardial ischemia

The reason for the absence of pain perception in silent myocardial ischemia is unknown. A role of increased endorphinic activity in patients with silent ischemia has been postulated. To further investigate this hypothesis, 10 men with documented coronary artery disease and previous positive electrocardiographic findings during exercise without anginal pain were studied. Six healthy volunteers served as control subjects. The protocol included 2 bicycle exercise tests, the first test serving as baseline and the second performed after administration of naloxone, a specific opiate antagonist. Plasma beta-endorphin levels were measured by radioimmunoassay in both tests at rest, at peak exercise level and after recovery. All patients underwent thallium-201 scintigraphy after coronary vasodilation to provide an additional independent marker of ischemia. All patients showed stress-induced reversible perfusion abnormalities. No patient reported pain after naloxone application. Exercise duration, blood pressure and heart rate were not significantly altered by naloxone. Plasma beta-endorphin levels ranged from 18 +/- 6 pg/100 microliters (mean +/- standard deviation) at rest to 22 +/- 6 pg/100 microliters during exercise in the patient group and from 20 +/- 5 to 27 +/- 9 pg/100 microliters in the control subjects. Thus, there was no significant increase of plasma beta-endorphins during exercise or after naloxone administration, nor was there any difference observed between patients and control group. These data support the view that endorphinic activity does not play an essential role in the pathophysiology of silent myocardial ischemia.

Effect of intramyocardial delivery of autologous bone marrow mononuclear stem cells on the regional myocardial perfusion. NOGA-guided subanalysis of the MYSTAR prospective randomised study.

The aim of the sub-study of the MYSTAR randomised trial was to analyse the changes in myocardial perfusion in NOGA-defined regions of interest (ROI) with intramyocardial injections of autologous bone marrow mononuclear cells (BM-MNC) using an elaborated transformation algorithm. Patients with recent first acute myocardial infarction (AMI) and left ventricular (LV) ejection fraction (EF) between 30-45% received BM-MNC by intramyocardial followed by intracoronary injection 68 +/- 34 days post-AMI (pooled data of MYSTAR). NOGA-guided endocardial mapping and 99m-Sestamibi-SPECT (single photon emission computer tomography) were performed at baseline and at three months follow-up (FUP). ROI was delineated as a best polygon by connecting of injection points of NOGA polar maps. ROIs were projected onto baseline and FUP polar maps of SPECT calculating the perfusion severity of ROI. Infarct size was decreased (from 27.2 +/- 10.7% to 24.1 +/- 11.5%, p<0.001), and global EF increased (from 38 +/- 6.1% to 41.5 +/- 8.4%, p<0.001) three months after BM-MNC delivery. Analysis of ROI resulted in a significant increase in unipolar voltage (index of myocardial viability) (from 7.9 +/- 3.0 mV to 9.9 +/- 2.7 mV at FUP, p<0.001) and local linear shortening (index of local wall motion disturbances) (from 11.0 +/- 3.9% to 12.7 +/- 3.4%, p=0.01). NOGA-guided analysis of the intramyocardially treated area revealed a significantly increased tracer uptake both at rest (from 56.7 +/- 16.1% to 62.9 +/- 14.2%, p=0.003) and at stress (from 59.3 +/- 14.2% to 62.3 +/- 14.9%, p=0.01). Patients exhibiting >or=5% improvement in perfusion defect severity received a significantly higher number of intramyocardial BM-MNC. In conclusion, combined cardiac BM-MNC delivery induces significant improvement in myocardial viability and perfusion in the intramyocardially injected area.

Detection of High-grade Stenoses With Multislice Computed Tomography in Heart Transplant Patients

BACKGROUND Post-transplant follow-up of heart transplant patients consists of repeated coronary angiography, which is associated with high costs, discomfort and risk. We sought to determine whether multislice computed tomography (MSCT) permits the exclusion or progression of coronary artery disease in heart transplant patients. METHODS MSCT scanning (Philips CT MX 8000 IDT) and invasive coronary angiography were performed on 66 consecutive heart transplant patients. One hundred milliliters of non-ionic iodinated contrast medium was applied for CT angiography. For MSCT analysis, coronary arteries and side branches with a diameter > or =1.5 mm were assessed for the presence of luminal narrowing of >70%. MSCT results were compared with those of quantitative coronary angiography analysis. RESULTS Ten patients (17%) had one significant stenosis, whereas 3 patients (5%) had 2-vessel disease and none had 3-vessel disease. MSCT was performed successfully on 60 patients enrolled in our analysis. Forty-two of 44 patients (95%) who were estimated to be fully evaluable for MSCT were correctly classified. On per-segment-based analysis, sensitivity, specificity and positive and negative predictive values were 59%, 94%, 91% and 99.43%, respectively. After exclusion of unevaluable segments, sensitivity and specificity increased to 71% and 99.86%, respectively. On per-patient-based analysis, sensitivity, specificity and positive and negative predictive values were 88%, 97%, 88% and 97%, respectively, in evaluable transplant recipients. CONCLUSIONS MSCT with its high specificity and high negative predictive value allows the exclusion of significant coronary artery vasculopathy in evaluable patients. From the clinical point of view, this might spare additional invasive coronary angiography in heart transplant patients.

Assessment of left ventricular function: comparison between radionuclide angiography and semiquantitative two-dimensional echocardiographic analysis

Measurement of global left ventricular function is important in the follow-up of cardiac patients and is a good prognostic indicator in acute cardiac situations. We compared quantitative measurements of global left ventricular function made with radionuclide angiography (RNA) and contrast cardiac ventriculography (CVG) to visual semiquantitative estimates from two-dimensional echocardiographic images (2D-echo). Three hundred and thirty-nine consecutive patients who underwent RNA were assessed with 2D-echo within 3 months. In addition, 92 of these patients also underwent CVG (correlation of ejection fraction between CVG and RNA:r=0.82;P<0.0001). The RNA mean ejection fractions in the four 2D-echo groups (0=normal, 1=slightly, 2=moderate, or 3=severe reduced left ventricular function) differed markedly (P<0.0001); however, there was overlapping among the groups (2D-echo score/RNA ejection fraction: 0=57.3%±12.8%; 1=46.0%±12.9%; 2=29.6%±12.2%; and 3=24.6%±11.5%) and the difference between 2D-echo scores 2 and 3 was not significant. 2D-echo showed a good concordance in RNA classes (0=≥505; 1=35%–49%; 2=21%–34%; and 3=≤520% ejection fraction) 0 (133/166; 80%) and 3 (18/30; 60%) but low concordance in classes 1 (27/82; 33%) and 2 (21/61; 34%). For accurate assessment of global left ventricular ejection fraction, visual semiquantitative judgement of a 2D echocardiographic image is limited in comparison to CVG or RNA, especially in patients with a slight or moderate reduction in left ventricular ejection fraction.

Ivabradine Versus Metoprolol for Heart Rate Reduction Before Coronary Computed Tomography Angiography

Several studies have demonstrated the correlation of heart rate (HR) and image quality in coronary computed tomography angiography. Beta-blocker administration is critical because of its negative inotropic effect. Ivabradine is a selective HR-lowering agent that exclusively inhibits the I(f) current in sinoatrial node cells without having any effect on cardiac contractility or atrioventricular conduction. A total of 120 patients were randomized to oral premedication with ivabradine 15 mg or metoprolol 50 mg. HR and blood pressure (BP) were measured before the administration of premedication and immediately before coronary computed tomographic angiography. The mean time between premedication administration and follow-up was 108 ± 21.5 minutes for ivabradine and 110 ± 22.2 minutes for metoprolol (p = NS). When comparing groups, there were no significant differences in reduction of HR (-11.83 ± 8.6 vs -13.20 ± 7.8 beats/min, p = NS) and diastolic BP (-5.05 ± 14.2 mm Hg vs -4.08 ± 10.8 mm Hg, p = NS), whereas the decrease of systolic BP was significantly lower in patients who received ivabradine compared to those in the metoprolol group (-3.95 ± 13.6 vs -13.65 ± 17.3 mm Hg, p <0.001). In the subgroup of patients who were receiving long-term β-blocker therapy, significantly stronger HR reduction was achieved with ivabradine (-13.19 ± 5.4 vs -10.04 ± 6.0 beats/min, p <0.05), while the decrease in systolic BP was less (-2.00 ± 13.6 vs -15.04 ± 20.8 mm Hg, p <0.05) compared to metoprolol. In conclusion, ivabradine decreases HR before coronary computed tomographic angiography sufficiently, with significantly less depression of systolic BP compared to metoprolol.

Myocardial perfusion in patients with typical chest pain and normal angiogram

Background  Approximately 10–30% of patients with typical chest pain present normal epicardial coronaries. In a proportion of these patients, angina is attributed to microvascular dysfunction. Previous studies investigating whether angina is the result of abnormal resting or stress perfusion are controversial but limited by varying inclusion criteria. Therefore, we investigated whether microvascular dysfunction in these patients is associated with perfusion abnormalities at rest or at stress.