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Avolio, E & Madeddu, P, 2016, ‘Discovering cardiac pericytes biology: From physiopathological mechanisms to potential therapeutic applications in ischemic heart disease’. Vascular Pharmacology. Avolio, E, Rodriguez-Arabaolaza, I, Spencer, HL, Riu, F, Mangialardi, G, Slater, SC, Rowlinson, J, Alvino, VV, Idowu, OO, Soyombo, S, Oikawa, A, Swim, MM, Kong, CHT, Cheng, H, Jia, H, Ghorbel, MT, Hancox, JC, Orchard, CH, Angelini, G, Emanueli, C, Caputo, M & Madeddu, P, 2015, ‘Expansion and Characterization of Neonatal Cardiac Pericytes Provides a Novel Cellular Option for Tissue Engineering in Congenital Heart Disease’. Journal of the American Heart Association, vol 4. Gubernator, M, Slater, SC, Spencer, HL, Spiteri, I, Sottoriva, A, Riu, F, Rowlinson, J, Avolio, E, Katare, R, Mangialardi, G, Oikawa, A, Reni, C, Campagnolo, P, Spinetti, G, Touloumis, A, Tavaré, S, Prandi, F, Pesce, M, Hofner, M, Klemens, V, Emanueli, C, Angelini, G & Madeddu, P, 2015, ‘Epigenetic profile of human adventitial progenitor cells correlates with therapeutic outcomes in a mouse model of limb ischemia’. Arteriosclerosis, Thrombosis and Vascular Biology, vol 35., pp. 675-88 Meloni, M, Cesselli, D, Caporali, A, Mangialardi, G, Avolio, E, Reni, C, Fortunato, O, Martini, S, Madeddu, P, Valgimigli, M, Nikolaev, E, Kaczmarek, L, Angelini, GD, Beltrami, AP & Emanueli, C, 2015, ‘Cardiac Nerve Growth Factor Overexpression Induces Bone Marrow-derived Progenitor Cells Mobilization and Homing to the Infarcted Heart’. Molecular Therapy. Avolio, E, Caputo, M & Madeddu, P, 2015, ‘Stem cell therapy and tissue engineering for correction of congenital heart disease’. Frontiers in cell and developmental biology, vol 3., pp. 39 Avolio, E, Meloni, M, Spencer, HL, Riu, F, Katare, R, Mangialardi, G, Oikawa, A, Rodriguez-Arabaolaza, I, Dang, Z, Mitchell, K, Reni, C, Alvino, VV, Rowlinson, J, Livi, U, Cesselli, D, Angelini, G, Emanueli, C, Beltrami, AP & Madeddu, P, 2015, ‘Combined intramyocardial delivery of human pericytes and cardiac stem cells additively improves the healing of mouse infarcted hearts through stimulation of vascular and muscular repair’. Circulation Research, vol 116., pp. e81-94 Ascione, R, Rowlinson, J, Avolio, E, Katare, R, Meloni, M, Spencer, HL, Mangialardi, G, Norris, C, Kr?nkel, N, Spinetti, G, Emanueli, C & Madeddu, P, 2015, ‘Migration towards SDF-1 selects angiogenin-expressing bone marrow monocytes endowed with cardiac reparative activity in patients with previous myocardial infarction’. Stem Cell Research & Therapy, vol 6., pp. 53 Avolio, E, Spinetti, G & Madeddu, P, 2015, ‘Training monocytes by physical exercise: good practice for improving collateral artery development and postischemic outcomes’. Arteriosclerosis, Thrombosis and Vascular Biology, vol 35., pp. 1733-5 Avolio, E, Gianfranceschi, G, Cesselli, D, Caragnano, A, Athanasakis, E, Katare, R, Meloni, M, Palma, A, Barchiesi, A, Vascotto, C, Toffoletto, B, Mazzega, E, Finato, N, Aresu, G, Livi, U, Emanueli, C, Scoles, G, Beltrami, CA, Madeddu, P & Beltrami, AP, 2014, ‘Ex vivo molecular rejuvenation improves the therapeutic activity of senescent human cardiac stem cells in a mouse model of myocardial infarction’. Stem Cells, vol 32., pp. 2373-85 Spinetti, G, Cordella, D, Fortunato, O, Sangalli, E, Losa, S, Gotti, A, Carnelli, F, Rosa, F, Riboldi, S, Sessa, F, Avolio, E, Beltrami, AP, Emanueli, C & Madeddu, P, 2013, ‘Global Remodeling of the Vascular Stem Cell Niche in Bone Marrow of Diabetic Patients Implication of the microRNA-155/FOXO3a Signaling Pathway’. Circulation Research, vol 112., pp. 510-22