L. Leonardi
University of Bologna
15 Papers
154 Citations
L. Leonardi is an academic researcher from University of Bologna. The author has contributed to research in topics: Fibril & Tendon. The author has an hindex of 8, co-authored 15 publications.
Chat about Author
Papers
Biological fixation of endosseous implants.
Marco Franchi,Milena Fini,Desiree Martini,Ester Orsini,L. Leonardi,Alessandro Ruggeri,Gianluca Giavaresi,Vittoria Ottani +7 more
TL;DR: The histological aspects of biological fixation around titanium screws are investigated to suggest that the trabecular bone and bone chips represent a three-dimensional network ensuring a biological implant fixation in all different implant surfaces 2 weeks after surgery.
133
Collagen fibril arrangement and size distribution in monkey oral mucosa.
TL;DR: Analysis of connective papillae in the buccal gingival and hard palate mucosa of Macacus rhesus monkey showed similar inner structure in the different areas examined, but varying in distribution, shape and size.
30
•Journal Article
Ultrastructural aspects of rat tail tendon sheaths.
TL;DR: An investigation was carried out on the sheaths which envelop rat tail tendons, found four distinct connective tissue sheaths have been detected and it is supposed that the four tendon sheaths are involved in different and special functions.
27
Phospholipid-enriched bacterial chromatophores. A system suited to investigate the ubiquinone-mediated interactions of protein complexes in photosynthetic oxidoreduction processes.
Rita Casadio,Giovanni Venturoli,A Di Gioia,P. P. Castellani,L. Leonardi,Bruno Andrea Melandri +5 more
TL;DR: It is suggested that cyclic electron transfer between reaction center and ubiquinol-cytochrome c2 oxidoreductase complexes in phospholipid-enriched chromatophores is limited by the lateral diffusion of the quinone molecules in the membrane plane.
27
Light microscopy, electron microscopy, and X-ray diffraction analysis of glycerinated collagen fibers
TL;DR: Investigation of the structure of rat tail tendon collagen fibers subjected to one of the following treatments showed that the collagen fiber swelling induced by glycerol is an almost completely reversible process.
25