Marilisa Quaranta
University of Bologna
13 Papers
76 Citations
Marilisa Quaranta is an academic researcher from University of Bologna. The author has contributed to research in topics: Azacitidine & Osseointegration. The author has an hindex of 6, co-authored 13 publications.
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Papers
Osteogenesis and Morphology of the Peri-Implant Bone Facing Dental Implants
Marco Franchi,Ester Orsini,Alessandra Trire,Marilisa Quaranta,Desiree Martini,Gabriella Giuliani Piccari,Alessandro Ruggeri,Vittoria Ottani +7 more
TL;DR: 2 weeks after implantation, trabecular bone represents the calcified healing tissue, which supports the early biological fixation of the implants, and rough surfaces, and in particular Zr-SLA, seem to better favour bone deposition on the metal surface.
Strategic Role of Nuclear Inositide Signalling in Myelodysplastic Syndromes Therapy.
Lucia Manzoli,Sara Mongiorgi,Cristina Clissa,Carlo Finelli,Anna Maria Billi,Alessandro Poli,Marilisa Quaranta,Lucio Cocco,Matilde Y. Follo +8 more
TL;DR: The strategic role of nuclear inositide signalling in MDS is reviewed, in pathogenesis and therapy.
20
The whole body donation program at the university of Bologna: A report based on the experience of one of the oldest university in Western world
Ester Orsini,Marilisa Quaranta,Stefano Ratti,Giulia Adalgisa Mariani,Sara Mongiorgi,Anna Maria Billi,Lucia Manzoli +6 more
TL;DR: The program of Bologna is described as an example of "good practice" in body donation, aimed at ensuring education and clinical training by means of both traditional gross anatomy and innovative technology.
20
Collagen fibre arrangement and functional crimping pattern of the medial collateral ligament in the rat knee
Marco Franchi,Marilisa Quaranta,Maria Macciocca,L. Leonardi,Vittoria Ottani,Paolo Bianchini,Alberto Diaspro,Alessandro Ruggeri +7 more
TL;DR: The aim of the study was to relate the 3D collagen arrangement in the crimping pattern of the medial collateral ligament (MCL) to its functional role and concluded that planar crimps could oppose or respond exclusively to tensional forces parallel to the main ligament axis, whereas the right-handed twisted Crimps could better resist/respond to a complex of tensional/rotational forces within the ligament thus opposing to an external rotation of tibia.
19
Contribution of Glycosaminoglycans to the Microstructural Integrity of Fibrillar and Fiber Crimps in Tendons and Ligaments
Marco Franchi,Viviana De Pasquale,Desiree Martini,Marilisa Quaranta,Maria Macciocca,Alessio Dionisi,Vittoria Ottani +6 more
TL;DR: Data suggest that GAGs do not affect structural integrity or fibrillar crimp functions that seem mainly related to the local fibril leftward twisting and the alternating handedness of collagen from a molecular to a supramolecular level.