!!Mária Deli - Selected Publications
\\
__Scientific metrics__\\
\\
168 research articles; 13 book chapters, 3 patents\\
Google scholar all years - citations 9849; H-index 50, i-10 index 127;  last 5 years - citations 4622; H-index 31, i-10 index 91\\
\\
1.  Nakagawa S, Deli MA*, Kawaguchi H, Shimizudani T, Shimono T, Kittel A, Tanaka K, Niwa M. A new blood-brain barrier model using primary rat brain endothelial cells, pericytes and astrocytes. Neurochem Int. 2009 Mar-Apr;54(3-4):253-63. \\
 *corresponding author; Citation: 704\\
\\
2. Deli MA. Potential use of tight junction modulators to reversibly open membranous barriers and improve drug delivery. Biochim Biophys Acta. 2009 Apr;1788(4):892-910.  Citation: 396\\
\\
3. Bocsik A, Walter FR, Gyebrovszki A, Fülöp L, Blasig I, Dabrowski S, Ötvös F, Tóth A, Rákhely G, Veszelka S, Vastag M, Szabó-Révész P, Deli MA. Reversible Opening of Intercellular Junctions of Intestinal Epithelial and Brain Endothelial Cells With Tight Junction Modulator Peptides. J Pharm Sci. 2016 Feb;105(2):754-765.  Citation: 68\\
\\
4. Helms HC, Abbott NJ, Burek M, Cecchelli R, Couraud PO, Deli MA, Förster C, Galla HJ, Romero IA, Shusta EV, Stebbins MJ, Vandenhaute E, Weksler B, Brodin B. In vitro models of the blood-brain barrier: An overview of commonly used brain endothelial cell culture models and guidelines for their use. J Cereb Blood Flow Metab. 2016 May;36(5):862-90. \\
Citation: 481\\
\\
5. Walter FR, Valkai S, Kincses A, Petneházi A, Czeller T, Veszelka S, Ormos P, Deli MA*, Dér A*. A versatile lab-on-a-chip tool for modeling biological barriers. Sensors and Actuators B: Chemical 2016; 222: 1209-1219.  \\
 *last and corresponding authors; Citation: 125\\
\\
6. Mészáros M, Porkoláb G, Kiss L, Pilbat AM, Kóta Z, Kupihár Z, Kéri A, Galbács G, Siklós L, Tóth A, Fülöp L, Csete M, Sipos Á, Hülper P, Sipos P, Páli T, Rákhely G, Szabó-Révész P, Deli MA*, Veszelka S*. Niosomes decorated with dual ligands targeting brain endothelial transporters increase cargo penetration across the blood-brain barrier. Eur J Pharm Sci. 2018 Oct 15;123:228-240. \\
 *last and corresponding authors; Citation: 27\\
\\
7. Veszelka S, Tóth A, Walter FR, Tóth AE, Gróf I, Mészáros M, Bocsik A, Hellinger É, Vastag M, Rákhely G, Deli MA. Comparison of a Rat Primary Cell-Based Blood-Brain Barrier Model With Epithelial and Brain Endothelial Cell Lines: Gene Expression and Drug Transport. Front Mol Neurosci. 2018 May 22;11:166.  Citation: 60\\
\\
8. Bocsik A, Gróf I, Kiss L, Ötvös F, Zsíros O, Daruka L, Fülöp L, Vastag M, Kittel Á, Imre N, Martinek TA, Pál C, Szabó-Révész P, Deli MA. Dual Action of the PN159/KLAL/MAP Peptide: Increase of Drug Penetration across Caco-2 Intestinal Barrier Model by Modulation of Tight Junctions and Plasma Membrane Permeability. Pharmaceutics. 2019 Feb 10;11(2):73.  Citation: 24\\
\\
9. Kincses A, Santa-Maria AR, Walter FR, Dér L, Horányi N, Lipka DV, Valkai S, Deli MA*, Dér A*. A chip device to determine surface charge properties of confluent cell monolayers by measuring streaming potential. Lab Chip. 2020 Oct 21;20(20):3792-3805.\\
 *last and corresponding authors;  Citation: 9\\
\\
10. Santa-Maria AR, Walter FR, Figueiredo R, Kincses A, Vigh JP, Heymans M, Culot M, Winter P, Gosselet F, Dér A, Deli MA. Flow induces barrier and glycocalyx-related genes and negative surface charge in a lab-on-a-chip human blood-brain barrier model. J Cereb Blood Flow Metab. 2021 Sep;41(9):2201-2215.  Citation: 9