Marco Montanari
University of Bologna
16 Papers
38 Citations
Marco Montanari is an academic researcher from University of Bologna. The author has contributed to research in topics: Ectodermal dysplasia & Bond strength. The author has an hindex of 7, co-authored 15 publications. Previous affiliations of Marco Montanari include Dicle University.
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Papers
Effect of simulated pulpal pressure on dentin permeability and adhesion of self-etch adhesives.
Salvatore Sauro,Salvatore Sauro,David H. Pashley,Marco Montanari,Stefano Chersoni,Ricardo M. Carvalho,Manuel Toledano,Raquel Osorio,Franklin R. Tay,Franklin R. Tay,Carlo Prati +10 more
TL;DR: HEMA-based adhesives showed the largest reductions in bond strengths after pulpal pressure application, while Clearfil Protect Bond exhibited the lowest permeability and fewest numbers of fluid droplets over the surface of the bonded dentin.
196
Angiogenic potential of human dental pulp stromal (stem) cells.
Cosetta Marchionni,Laura Bonsi,Francesco Alviano,Giacomo Lanzoni,A. Di Tullio,Roberta Costa,Marco Montanari,P. L. Tazzari,Francesca Ricci,Gianandrea Pasquinelli,Catia Orrico,Alberto Grossi,Carlo Prati,Gian Paolo Bagnara +13 more
TL;DR: The DP-SC angiogenic potential may prove a remarkable tool for novel approaches to developing tissue-engineered vascular grafts which are useful when vascularization of ischemic tissues is required.
113
EU Trade with the Balkans : Large Room for Growth?
TL;DR: In this paper, the potential for growth in trade between the European Union and the Western Balkans was evaluated using a gravity model and it was shown that trade policy, alongside geographical proximity, plays an important role in shaping trade patterns, and that EU trade with two Balkan countries, Bulgaria and Romania, is close to or in some cases exceeds the values predicted by the model.
51
A new biological approach to guided bone and tissue regeneration
TL;DR: Guided bone regeneration with PRF showed limitation compared with guided bone regeneration using collagen membrane in terms of bone gain, but the association of collagen membrane and PRF could be a good association.
Differential hydrolytic degradation of dentin bonds when luting carbon fiber posts to the root canal.
TL;DR: Clinicians should consider that bond strength inside the root canal at apical half is lower than at coronal half irrespective of the adhesive system, which represents the worst scenario in which it is possible to obtain a durable adhesion.