Dear participant,
Please find below the details of your poster presentation at the Joint Dutch German Vascular Biology Meeting, November 21-23, 2018 in Amsterdam, The Netherlands. |
Poster Session
Sanquin institute, the Pelidome Poster presentation hours: Presenters should attend their poster on the indicated day during the following presentation hours: For your poster number, see the table at the end of this document. 1) Poster size and format: Poster boards are 100 cm in width and 125 cm in height. Velcro hook coins will be available at the poster boards. Please use a poster material that is light enough to be secured with velcro. 2) Header: The poster should contain a header including the abstract title, all authors and their affiliations and your poster number (please see above). Your poster number, which is also your board number, should appear in the upper left corner of the header in Arial Black Font – 100 pt size. 3) Poster session: The poster session will be held from 18:00 to 21:00 on Wednesday (November 21) in the Pelidome. All posters will be presented that day. 4) Poster presentation hours: You should attend your poster at least for the indicated hour, according to the even/odd poster numbering (see below). 5) Poster placing hours: You may place your poster on your specified board between 13:00 and 18:00 on the day of your session, before the start of your session. Posters should be removed at the end of the poster session but no later than at 21:30. Posters left on the boards after 21:30 will be discarded. Please notice that it is forbidden to photograph the posters or the poster presentations at the meeting. If you have any questions regarding your abstract or registration, please feel free to contact Ed Eringa e.eringa@vumc.nl We are looking forward to an exciting meeting, and warmly welcome you to Amsterdam! The Organizing Committee, Jaap van Buul Ferdinand le Noble Ed Eringa |
Nr | Last name | Title |
1 | Abdel Rahman | Sphingolipids improve vascular barrier function and systemic blood pressure by reducing pericyte loss during LPS-mediated inflammation |
2 | Arias Alpizar/ Bussmann | Identification and functional analysis of an endothelial cell type homologous to mammalian sinusoidal endothelium in the zebrafish embryo |
3 | Arias Alpizar | Unraveling the selective accumulation of unusual liposomes to the blood brain barrier in embryonic zebrafish |
4 | Asadi | TSAd regulates endothelial permeability during sepsis in vivo |
5 | Bakker | Fluid flow in the brain, role of paravascular spaces and hypertension |
6 | Berkholz | PML is strongly increased in atherosclerotic plaques of human coronary arteries |
7 | Bink | The role of long non-coding RNA TERRA in endothelial function |
8 | Boex | VitroGel 3D system for 3D cell culture of multiple cell lines |
9 | Bongiovanni | Investigating the biology of immature platelet |
10 | Bozoglu | Modification of rAAV surface to facilitate targeting endothelium |
11 | Brandt | Transcriptome analysis of microvascular endothelial-induced pericyte maturation |
12 | Brunssen/
Morawietz |
Impact of cigarette smoke, next generation tobacco and nicotine products on the cytotoxic, oxidative and pro-inflammatory status of THP-1 cells |
13 | Brunssen/
Morawietz |
Hypoxia upregulates NADPH oxidase 4-mediated hydrogen peroxide release by a HIF-independent mechanism in human endothelial cells |
14 | Dayang | NF-kB and MAPK p38 regulation of LPS-mediated adhesion molecule expression in endothelial cells – heterogenic responses entering the stage. |
15 | Dekker | Microcirculatory perfusion disturbances following cardiac surgery with cardiopulmonary bypass are associated with in vitro endothelial hyperpermeability and increased angiopoietin-2 levels |
16 | Demandt | Hematopoietic PHD3 deficiency increases atherosclerotic plaque size in mice |
17 | Denis/Kwak | KLF4-induced connexin40 expression contributes to arterial endothelial quiescence |
18 | Dolleman | The role of coagulation factors and platelets on microvascular integrity in atrial fibrillation: impact of NOACs |
19 | Driessen/Stassen | Jagged1-specific shear stress response for Notch signaling in endothelial cells |
20 | Fleig | Endothelial Notch signaling regulates renal and systemic inflammation |
21 | Fontaine | Barcoding in obese: who’s at increased risk for the development of cardiovascular disease? |
22 | Forghany/Baker | Functional Analyses of a Human Vascular Tumor FOS Variant Identify a Novel Degradation Mechanism and a link to Tumorigenesis |
23 | Forghany | Control of endothelial cell tube formation by Notch ligand intracellular domain interactions with activator protein 1 (AP-1) |
24 | Gdula | Effect of selected purinoceptors agonists and antagonists on endothelial function in a simple or dual treatment approach |
25 | Germano | Definition of the core vertebrate Blood Brain Barrier transcriptome by comparing zebrafish and mouse |
26 | Geudens | Arterio-venous remodeling in the zebrafish trunk, a story of fate and force |
27 | Hahner | Nox4 promotes the differentiation of endothelial cells out of iPSCs via epigenetic modification |
28 | Hermkens | The protective function of intracranial endothelial cells in vascular cognitive impairment |
29 | Hoogendijk | Delineating endothelial cell responses in the context of the complex microenvironment by mass spectrometry |
30 | Hulshoff | Aortic stiffness in diabetes is contributed by endothelial-to-mesenchymal transition |
31 | Immler | Prelmplantation factor: An embryo-derived peptide down regulates neutrophil recruitment in vivo |
32 | Juni | Cardiac microvascular endothelial cells improve cardiomyocyte contractile function: The role of pro-inflammatory stimulation and Empagliflozin treatment |
33 | Kaaij | The link between angiogenesis and osteogenesis in spondyloarthritis |
34 | Karampini | The role of longin-domain containing SNARE proteins in the formation and maturation of Weibel-Palade bodies. |
35 | Kassmann | Role of Ryanodine Type 2 Receptors in Elementary Ca 2+ Signaling in Arteries and Vascular Adaptive Responses |
36 | Kat | The Role of Rab-GTPases in Weibel-Palade Body Exocytosis and Angiogenesis |
37 | Klett | Cardioprotective effect of miR-92a inhibition in wildtype and diabetic pigs of hibernating myocardium |
38 | Jäger/Korff | Transition of vascular smooth muscle cell assembly from 2D to 3D triggers TGF-beta signaling and cellular quiescence |
39 | Kovacevic | The Cullin3-Rbxl-KCTD1O complex controls endothelial barrier function via K63-ubiquitination of RhoB |
40 | Kremer | The role of long noncoding RNA Meg8 in endothelial cell function |
41 | Kucharewska/Jeucken | NIK-IKK complex controls NF-KB-dependent inflammatory activation of the endothelium in response to LTPR ligation |
42 | Kutikhin | Calcium phosphate bions: a novel specific trigger of endothelial injury |
43 | Li/Kamps | Endothelium-targeted delivery of dexamethasone by anti-VCAM-1 SAINT-O-Somes in mouse endotoxemia |
44 | Louzao-Martinez | CMTM4 regulates angiogenesis by promoting cell surface recycling of VE-cadherin to endothelial adherens junctions |
45 | Lozano-Vidal | PNUTS: An RNA-binding protein shaping the balance of endothelial aging and homeostasis |
46 | Lynskey | Characterization of SAl 2692 Mutants as a Model of Arrhythmogenic Right Ventricular Cardiomyopathy |
47 | Malacarne | Cytochrome P450 reductase is important for endothelial function |
48 | Malinova | Asymmetric Endothelial Adherens Junctions for Angiogenesis |
49 | Manz | Pulmonary arterial endothelial cells from chronic thromboembolic pulmonary hypertension patients show enhanced primary hemostasis |
50 | Martin | How to build a polarized endothelial cell: non-centrosomal microtubules and not the centrosome control endothelial cell polarity and sprouting angiogenesis |
51 | Meyn | Involvement of DUBs in endothelial barrier function |
52 | Mittmann | The NLRP3 inflammasome controls neutrophil trafficking to malignant tumors |
53 | Monteiro | Loss of the long non-coding RNA MIR503HG promotes endothelial-tomesenchymal transition during vascular remodelling |
54 | Nicholson | Vessels and astrocytes modulate dendritogenesis and hippocampal circuitry during development |
55 | Oo | Modulation of endothelial chromatin remodelling complexes by long noncoding RNAs |
56 | Padovan | The glycocalyx controls vascular thrombogenicity |
57 | Parma | Small molecule mediated inhibition of bFGF reduces in vivo angiogenesis and is a promising candidate to block intraplaque angiogenesis in atherosclerosis |
58 | Pawelke | PEMF Therapy: Therapeutic effects in leg lymphedema Stage two |
59 | Pham | Endothelial cell function is controlled by the age and shear stress regulated long non-coding RNA Aerrie |
60 | Pronk/Majolée | FBXW7 regulates endothelial barrier function by suppression of the cholesterol pathway and prenylation of RhoB |
61 | Quinonez | Elucidating the functional role of Hif during brain development |
62 | Rahman | Sphingolipids improve vascular barrier function and systemic blood pressure by reducing pericyte loss during LPS-mediated inflammation |
63 | Rohwedder | Src-Family Kinases promote neutrophil extravasation by regulating vesicle trafficking |
64 | Sanchez-Duffhues | Identification of Novel Macrocyclic ALK2 Inhibitors For Fibrodysplasia Ossificans Progressiva Using Patient-Derived Endothelial Colony Forming Cells |
65 | Sanders | The L1NC00961 locus regulates anqiogenesis in human and mouse endothelium |
66 | Schmidt/de Wit | Preserved Cardiovascular Homeostasis Despite Blunted Acetylcholine-induced Dilation in Mice with Endothelial Muscarinic M3 Receptor Deletion |
67 | Schnitzler | Targeting lipoprotein(a)-induced endothelial cell metabolic reprogramming reverses inflammation and leukocyte migration |
68 | Segarra/Cop | Endothelial Dabi Signaling Orchestrates Neuro-glia-vessel Communication in the CNS |
69 | Sevinc/Aslam | Effects of interferon gamma on endothelial barrier function are modulated by priming for the classical signaling pathway |
70 | Sprott | Endothelial-specific Deletion of Autophaqy Protein 5 attenuates ischemia-related Angiogenesis |
71 | Stanicek | The shear stress-induced long non-coding RNA LASSIE as a regulator of endothelial cell junctions |
72 | Steffen/Pruenster | Uromodulin as a modulator of inflammation |
73 | Szulcek | BMP9 phenotypically alters the lung microvascular endothelium in pulmonary arterial hypertension |
74 | Vacante | Characterization of the LncRNA miR143HG in the pathophysiology of atherosclerosis |
75 | Vaidya | Regulation of ABCAI-mediated cholesterol efflux by sphingosine-1-phosphate signalling in macrophages |
76 | van Broekhoven | Lipopolysaccharide-induced systemic inflammation induces aortic valve thickening in ApoE3*Leiden mice in time. |
77 | Van de Wouw | Alterations in Myocardial Oxygen Balance in Exercising Swine with Multiple Comorbidities |
78 | Van der Wijk | Extravasation of microspheres in a rat model of silent brain infarcts |
79 | Van Dijk | A novel microfluidic model of endothelial interaction with supporting pericytes, and extracellular matrix (ECM), in a 3D vessel structure |
80 | Van Kuijk | SMC- and pericyte-independent effect of PDGFB lacking its retention motif: leukocytosis, macrophage apoptosis and MMP activity promoted murine atherosclerotic plaque size and fibrosis |
81 | Van Leeuwen | Aprotinin restores microcirculatory perfusion in cremaster, but did not affect renal perfusion after cardiopulmonary bypass in rats |
82 | Van Rijssel | The GEF Trio reinforces vascular endothelial barrier integrity |
83 | Vreeken | Expression and Function of Ephrin Receptor B2 in Human Atherosclerosis: an Ligand Independent Guidance Cue. |
84 | Wang | Loss of endothelial glycocalyx hyaluronan impairs microvascular perfusion and induces excessive angiogenesis after femoral artery ligation |
85 | Yetkin-Arik | Differential role of metabolic pathways in the formation and functioning of tip cells during angiogenesis |
86 | Zhang/Petry | Stabilization of p22phox by hypoxia promotes pulmonary hypertension |
87 | Zhang/Van Gils | Loss of netrin-4 results in endothelial cell senescence |
88 | Ziogas | DHEA: Del-I axis is an immune-endocrine homeostatic pathway of leukocyte recruitment |
89 | Llaó Cid/Peguera Carré | A novel role of FLRT2 in the neurovascular interface |
90 | Gomez Puerto | The importance of autophagy in BMPRII degradation and its role in pulmonary arterial hypertension |
91 | Joly | Vascular regeneration in the optic tectum of the zebrafish |
92 | Kirchmaier | Dynamics of neurovascular interaction in the zebrafish embryo |
93 | Steinemann | Smyd1, a histone methyltransferase, interacts with PML nuclear bodies in endothelial cells |
94 | Hiden | Gestational diabetes alters microRNA signatures in human feto-placental endothelial cells depending on fetal sex |
95 | Strutz | Gestational diabetes affects MIR-222-3P regulation of proliferation and sprouting in feto-placental endothelial cells |