Christian Plass scite author profile

Although epicardial blood flow can be restored by an early intervention in most cases, a lack of adequate reperfusion at the microvascular level is often a limiting prognostic factor of acute myocardial infarction (AMI). Our group has recently found that paracrine factors secreted from apoptotic peripheral blood mononuclear cells (APOSEC) attenuate the extent of myocardial injury. The aim of this study was to determine the influence of APOSEC on microvascular obstruction (MVO) in a porcine AMI model. A single dose of APOSEC was intravenously injected in a closed chest reperfused infarction model. MVO was determined by magnetic resonance imaging and cardiac catheterization. Role of platelet function and vasodilation were monitored by means of ELISA, flow cytometry, aggregometry, western blot and myographic experiments in vitro and in vivo. Treatment of AMI with APOSEC resulted in a significant reduction of MVO. Platelet activation markers were reduced in plasma samples obtained during AMI, suggesting an anti-aggregatory capacity of APOSEC. This finding was confirmed by in vitro tests showing that activation and aggregation of both porcine and human platelets were significantly impaired by co-incubation with APOSEC, paralleled by vasodilator-stimulated phosphoprotein (VASP)-mediated inhibition of platelets. In addition, APOSEC evidenced a significant vasodilatory capacity on coronary arteries via p-eNOS and iNOS activation. Our data give first evidence that APOSEC reduces the extent of MVO during AMI, and suggest that modulation of platelet activation and vasodilation in the initial phase after myocardial infarction contributes to the improved long-term outcome in APOSEC treated animals.Electronic supplementary materialThe online version of this article (doi:10.1007/s00395-012-0292-2) contains supplementary material, which is available to authorized users.

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Time Course of Endothelium-Dependent and -Independent Coronary Vasomotor Response to Coronary Balloons and Stents

Plass¹,

Sabdyusheva-Litschauer²,

Bernhart³

et al. 2012

JACC: Cardiovascular Interventions

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Active endothelin is an important vasoconstrictor in acute coronary thrombi

Adlbrecht¹,

Bonderman²,

Plass³

et al. 2007

Thromb Haemost

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Acute coronary syndrome is characterized by compromised blood flow at the epicardial and microvascular levels. We have previously shown that thrombectomy in ST-elevation myocardial infarction (STEMI) accelerates ST-segment resolution, possibly by preventing distal embolization. We hypothesized that thrombus constituents contribute to microcirculatory dysfunction. Therefore, we analyzed the molecular and cellular composition of acute coronary thrombi, and correlated vasoconstrictive mediators with the magnitude of ST-segment resolution within one hour of percutaneous coronary intervention (PCI). Fresh coronary thrombi were retrieved in 35 consecutive STEMI patients who were treated with the X-Sizer thrombectomy catheter, and thrombus cell counts and vasoconstrictor concentrations were assessed. Twelve-lead ECG recordings were analyzed prior to and one hour after PCI. Concentration of endothelin (ET) was 20.0 (7.9-52.2) fmol/ml in thrombus compared with 0.1 (0.1-0.3) fmol/ml in corresponding peripheral plasma (p < 0.0001), representing a selective 280 (70.0-510.0)-fold enrichment, exceeding enrichment of noradrenaline, angiotensin II and serotonin. Human coronary thrombus homogenates exerted vasoconstriction of porcine coronary artery rings that was inhibited by the dual ET receptor blocker tezosentan. Extracted ET (r = 0.523 p = 0.026) and number of leukocytes (r = 0.555 p = 0.017) were correlated with the magnitude of ST-segment resolution. In conclusion, the amount of active ET and white blood cells aspirated from STEMI target vessels correlated with improvement of territorial microcirculatory function as illustrated by enhanced ST-segment resolution.

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Light-Induced Vasodilation of Coronary Arteries and Its Possible Clinical Implication

Plass¹,

Loew²,

Podesser³

et al. 2012

The Annals of Thoracic Surgery

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Decellularized, xenogeneic small‐diameter arteries: Transition from a muscular to an elastic phenotype in vivo

et al. 2008

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Reports regarding the biocompatibility of xenogeneic, decellularized bioprosthetic implants differ between bioinertness and complete graft degradation. We investigated heparin-crosslinked and nonheparinized, xenogeneic vascular substitutes in a rat model. Porcine arteries (15 x 1.5 mm) were decellularized by multistep detergent and enzymatic techniques, which were followed by heparin-crosslinking in 50% of the implants. Prostheses were implanted into the abdominal aorta of 76 rats for 1 day and up to 6 months. Retrieved specimens were evaluated by histology, immunohistochemistry, laser scanning, and scanning electron microscopy. Graft patency did not differ between groups (97.3%). Heparinized grafts showed a statistically significant lower rate of aneurysm formation (p = 0.04 %). Implants revealed infiltration with granulocytes and macrophages up to 3 months. Recellularization with endothelial cells and myofibroblasts was detectable within 1 month. After 6 months elastin biosynthesis and complete graft remodeling toward an elastic vessel was evident. These results indicate that temporary inflammation does not interfere with long-term vascular remodeling.

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Christian Plass

Secretome of apoptotic peripheral blood cells (APOSEC) attenuates microvascular obstruction in a porcine closed chest reperfused acute myocardial infarction model: role of platelet aggregation and vasodilation

Time Course of Endothelium-Dependent and -Independent Coronary Vasomotor Response to Coronary Balloons and Stents

Active endothelin is an important vasoconstrictor in acute coronary thrombi

Light-Induced Vasodilation of Coronary Arteries and Its Possible Clinical Implication

Decellularized, xenogeneic small‐diameter arteries: Transition from a muscular to an elastic phenotype in vivo

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