View clinical trials related to Circulation, Collateral.
Filter by:Coronary artery disease and the benefit of bypasses: Despite considerable advances in medicine, cardiovascular diseases remain the number one cause of death globally, primarily consequence of myocardial infarction (MI). Coronary collaterals exert a protective effect by providing an alternative source of blood flow to a myocardial territory potentially affected by an acute coronary occlusion. Coronary collaterals represent pre-existing inter-arterial anastomoses and as such are the natural counter-part of surgically created bypasses. Sufficient coronary collaterals have been shown to confer a significant benefit in terms of overall mortality and cardiovascular events. In this regard, the concept of augmenting coronary collateral function as an alternative treatment strategy to alter the course of CAD, as well as to control symptoms, is attractive. Durable promotion of coronary collateral circulation: Before the advent of coronary artery bypass grafting, permanent augmentation of coronary collateral supply by a single structural modification has already been attempted. Bilateral ligation of the internal mammary arteries (IMA) was performed in CAD patients to alleviate angina pectoris and electrocardiographic (ECG) signs of ischemia. The prevalent in vivo function of natural internal mammary arteries (IMA)-to-coronary artery bypasses and their anti-ischemic effect has been recently demonstrated by the investigators' research group. Levels of collateral function and myocardial ischemia were determined in a prospective, open-label clinical trial of permanent IMA device occlusion. In this study, coronary collateral function, has been shown to be augmented in the presence vs the absence of distal permanent ipsilateral IMA occlusion. These findings have been corroborated by the observed reduction in ischemia in the intracoronary ECG. After this first step, the concept of permanent right IMA occlusion will be now investigated with a randomized, sham-controlled clinical trial.
Cardiovascular diseases remain the number one cause of death globally, primarily consequence of myocardial infarction. Although widely used in stable coronary artery disease (CAD), percutaneous coronary intervention (PCI) has not been shown to reduce the incidence of myocardial infarction or death. In contrast, coronary artery bypass grafting (CABG) significantly reduces rates of death and myocardial infarction compared to PCI, but at a higher rate of stroke. Similarly, coronary collaterals exert a protective effect by providing an alternative source of blood flow to a myocardial territory potentially affected by an acute coronary occlusion. Coronary collaterals represent pre-existing inter-arterial anastomoses and as such are the natural counter-part of surgically created bypasses. Sufficient coronary collaterals have been shown to confer a significant benefit in terms of overall mortality and cardiovascular events. In this regard, the concept of augmenting coronary collateral function as an alternative treatment strategy to alter the course of CAD, as well as to control symptoms, is attractive. While a multitude of interventions has been shown to be effective in collateral growth promotion, so far, the effect of current interventions is only temporary, and therefore, repeated application is necessary to sustain the level of collaterals. The prevalent in vivo function of natural internal mammary arteries (IMA)-to-coronary artery bypasses and their anti-ischemic effect has been recently demonstrated by the investigators' research group. Levels of collateral function and myocardial ischemia were determined in a prospective, open-label clinical trial of permanent IMA device occlusion. In this study, coronary collateral function, has been shown to be augmented in the presence vs the absence of distal permanent ipsilateral IMA occlusion. These findings have been corroborated by the observed reduction in ischemia in the intracoronary ECG. Coronary functional changes observed in response to permanent distal IMA occlusion have so far, not been related to clinical outcome parameters. Therefore, a controlled, randomized, double-blind comparison of clinical efficacy between a group of patients receiving permanent IMA occlusion vs. a sham-procedure will be consequently performed. Since single antianginal agents have been demonstrated to increase exercise time in comparison to placebo, an improvement of the physical performance due to the increased blood flow by the permanent distal IMA occlusion is expected.
Coronary artery disease and the benefit of bypasses: Despite considerable advances in medicine, cardiovascular diseases remain the number one cause of death globally, primarily consequence of myocardial infarction (MI). Coronary collaterals exert a protective effect by providing an alternative source of blood flow to a myocardial territory potentially affected by an acute coronary occlusion. Coronary collaterals represent pre-existing inter-arterial anastomoses and as such are the natural counter-part of surgically created bypasses. Sufficient coronary collaterals have been shown to confer a significant benefit in terms of overall mortality and cardiovascular events. In this regard, the concept of augmenting coronary collateral function as an alternative treatment strategy to alter the course of CAD, as well as to control symptoms, is attractive. Durable promotion of coronary collateral circulation: Before the advent of coronary artery bypass grafting, permanent augmentation of coronary collateral supply by a single structural modification has already been attempted. Bilateral ligation of the internal mammary arteries (IMA) was performed in CAD patients to alleviate angina pectoris and electrocardiographic (ECG) signs of ischemia. The prevalent in vivo function of natural IMA-to-coronary artery bypasses and their anti-ischemic effect has - for the first time - been recently demonstrated by our research group. The acute functional changes observed in response to temporary distal IMA balloon occlusion are expected to result in larger chronic structural adaptations of the IMA-to-coronary-artery connections when the distal IMA is permanently occluded. In contrast to the previously employed arteriogenic approaches in humans, the attractiveness of such an intervention lies in the potential durability of the effect. In a first step, catheter-based IMA occlusion ought to be conceptually investigated in the setting of the less frequently grafted right IMA among patients with ischemia in the right coronary artery territory.
Coronary artery disease (CAD) is the leading cause of morbidity and mortality in industrialized countries despite advances in medical, interventional, and surgical revascularization therapies. In both, acute myocardial infarction (AMI) and chronic stable disease, standard therapeutic approaches may fail to restore tissue perfusion. Indeed, a substantial number of chronic CAD patients may not be amenable to standard revascularization therapies or percutaneous coronary intervention (PCI) may fail to restore coronary artery patency following an acute vessel occlusion (no-reflow phenomenon, microvascular obstruction). As a consequence, the long pursued strategy of augmenting myocardial perfusion by diverting blood from the coronary venous system to an ischemic region (venous retroperfusion) has again gained attention during recent years. Occlusion of the coronary sinus (CSO) was introduced to provide retroperfusion by transient augmentation of coronary venous pressure. Different devices using CSO have been invented and evaluated in animal models and small clinical trials, e.g. intermittent CSO (ICSO) and pressure-controlled intermittent CSO (PICSO) which seem to be effective for myocardial salvage. However, they are not yet employed in clinical routine, and importantly, the exact underlying mechanisms by which retroperfusion due to CSO may reduce myocardial ischemia are not yet understood. As "natural bypasses", coronary collaterals are anastomoses without an intervening capillary bed between portions of the same coronary artery or between different coronary arteries that represent an alternative source of blood supply to a myocardial area jeopardized by ischemia. Collaterals of the heart can be assessed quantitatively by coronary pressure measurements, which have become the gold standard (collateral flow index, CFI=[Poccl-CVP]/[Pao-CVP]). Theoretically, augmentation of coronary sinus pressure by CSO with an increase of venous backflow reaches the upstream collateral circulation, which in turn could lead to improved collateral flow from non-ischemic area(s) to an occluded, ischemic myocardial region by upstream flow diversion. On the other hand, when considering the formula to calculate pressure-derived CFI, it seems that augmentation of coronary back pressure would rather impair collateral flow (since central venous pressure is coronary sinus pressure). However, the regional effect of a global increase in coronary sinus pressure is unlikely to be as uniform as the above formula implies, i.e., the response is more pronounced in some than in other vascular territories. In experimental studies using dogs (with abundant collaterals), elevation of coronary sinus pressure caused an augmentation of regional myocardial blood flow in the collateralized area. In contrast, when ICSO was performed in pigs (which possess no preformed collaterals), it increased the pressure distal of an occluded LAD but did not improve blood flow or left ventricular function. In conclusion, experimental studies and pathophysiologic considerations suggest a necessary role of the collateral circulation for the beneficial effects of coronary sinus occlusion (CSO) observed in animals and humans; however, no clinical data are available so far on the effect of CSO on myocardial ischemia in the presence of varying collateral flow. Study hypotheses 1. CSO decreases intra-coronary ECG ST-segment elevation during a 2-minute coronary occlusion. 2. The decrease in occlusive intra-coronary ECG ST elevation during CSO is directly proportional to CFI. 3. Coronary sinus oxygen saturation during coronary occlusion with CSO is directly proportional to CFI.