1,721,060 research outputs found
Endosteal, periosteal and osteonic contributes to mineral apposition rate in femur, tibia, radius, ulna and calvaria in rabbit
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Heterologous Matrix Metalloproteinase Gene Promoter Activity Allows In Vivo Real-time Imaging of Bleomycin-Induced Lung Fibrosis in Transiently Transgenized Mice
Full text linkIdiopathic pulmonary fibrosis is a very common interstitial lung disease derived from chronic inflammatory insults, characterized by massive scar tissue deposition that causes the progressive loss of lung function and subsequent death for respiratory failure.Bleomycin is used as the standard agent to induce experimental pulmonary fibrosis in animal models for the study of its pathogenesis. However, to visualize the establishment of lung fibrosis after treatment, the animal sacrifice is necessary. Thus, the aim of this study was to avoid this limitation by using an innovative approach based on a double bleomycin treatment protocol, along with the in vivo images analysis of bleomycintreated mice. A reporter gene construct, containing the luciferase open reading frame under the matrix metalloproteinase-1 promoter control region, was tested on doublebleomycin-treated mice to investigate, in real time, the correlation between bleomycin treatment, inflammation, tissue remodeling and fibrosis. Bioluminescence emitted by the lungs of bleomycin-treated mice, corroborated by fluorescent molecular tomography, successfully allowed real time monitoring of fibrosis establishment. The reporter gene technology experienced in this work could represent an advanced functional approach for real time non-invasive assessment of disease evolution during therapy, in a reliable and translational living animal model.Fil: Stellari, Fabio Franco. Chiese Farmaceutici; ItaliaFil: Ruscitti, Francesca. Chiese Farmaceutici; ItaliaFil: Pompilio, Daniela. Chiese Farmaceutici; ItaliaFil: Ravanetti, Francesca. Università di Parma. Dipartimento di Scienze Medico Veterinarie; ItaliaFil: Tebaldi, Giulia. Università di Parma. Dipartimento di Scienze Medico Veterinarie; ItaliaFil: Macchi, Francesca. Università di Parma. Dipartimento di Scienze Medico Veterinarie; ItaliaFil: Verna, Andrea Elizabeth. Instituto Nacional de Tecnología Agropecuaria. Centro Regional Buenos Aires Sur. Estación Experimental Agropecuaria Balcarce; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Chiese Farmaceutici; ItaliaFil: Villetti, Gino. Chiese Farmaceutici; ItaliaFil: Donofrio, Gaetano. Università di Parma. Dipartimento di Scienze Medico Veterinarie
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Human vitronectin-derived peptide covalently grafted onto titanium surface improves osteogenic activity: a pilot in vivo study on rabbits
No full textPeptide and protein exploitation for the biochemical functionalization of biomaterial surfaces allowed fabricating biomimetic devices able to evoke and promote specific and advantageous cell functions in vitro and in vivo. In particular, cell adhesion improvement to support the osseointegration of implantable devices has been thoroughly investigated. This study was aimed at checking the biological activity of the (351-359) human vitronectin precursor (HVP) sequence, mapped on the human vitronectin protein; the peptide was covalently linked to the surface of titanium cylinders, surgically inserted in the femurs of New Zealand white rabbits and analyzed at short experimental time points (4, 9, and 16 days after surgery). To assess the osteogenic activity of the peptide, three vital fluorochromic bone markers were used (calcein green, xylenol orange, and calcein blue) to stain the areas of newly grown bone. Static and dynamic histomorphometric parameters were measured at the bone-implant interface and at different distances from the surface. The biological role of the (351-359)HVP sequence was checked by comparing peptide-grafted samples and controls, analyzing how and how much its effects change with time across the bone regions surrounding the implant surface. The results obtained reveal a major activity of the investigated peptide 4 days after surgery, within the bone region closest to the implant surface, and larger bone to implant contact 9 and 16 days after surgery. Thus, improved primary fixation of endosseous devices can be foreseen, resulting in an increased osteointegration
Preliminary study on the mineral apposition rate in distal femoral epiphysis of New Zealand White Rabbit at skeletal maturity
No full textStudies investigating the effect of different factors on the skeletal system require characterization of an appropriate animal model. Rabbits are among the most commonly studied animals for medical research, being used in about 35% of musculoskeletal research studies. The present dynamic cross-sectional histomorphometric study quantitatively determined mineral apposition rates (MARs) in the distal femoral epiphysis in four regions of interest (ROIs) in New Zealand white rabbits. ROIs included the craniolateral (CrL), caudolateral (CaL), craniomedial (CrM) and caudomedial (CaM) areas, using a reference height at different stages of skeletal maturity corresponding to experimental ages of 6, 7 and 8 months old (M6, M7 and M8). We evaluated whether a correlation exists in MARs between the times and the regions examined. Such data could be used in studies on growth of the rabbit’s femur, on biomaterials for bone integration or regeneration and on growth disturbances produced by various pathologic factors. We found no interaction at the experimental times; thus, M6, M7 and M8 are considered homogeneous in terms of MARs. The velocity profiles of the MARs were statistically significantly different among the considered ROIs. For all experimental times, the CrM region had a higher MAR than the other ROIs. Both the CrM and CaM ROIs had higher MARs than the corresponding lateral ROIs. Our results indicate that bone formation is not constant within the cross-section, but is statistically different between the ROIs considered
Effect of surface treatment on cell responses to grades 4 and 5 titanium for orthodontic mini-implants.
No full textMini-implants are used to improve orthodontic anchorage, but optimal composition and surface characteristics have yet to be determined. We investigated the behavior of osteoblast-like cells on grade 4 commercially pure titanium and grade 5 titanium alloy with different surface treatments for mini-implants.
METHODS:
MC3T3 cells were plated on machined, acid-etched, or acid-etched grade 4 titanium enriched with calcium phosphate, or machined, anodized, or anodized and calcium phosphate-enriched grade 5 titanium disks. Surface and cell morphologies were assessed by scanning electron microscopy. Cell viability was measured by chemiluminescence, cytoskeletal organization was investigated by immunofluorescence, and real-time polymerase chain reaction for osteoblast-specific genes was performed to measure cell differentiation.
RESULTS:
Flattened shapes and strong stress fibers were observed on the machined surfaces; cells on the rough surfaces had a spindle shape, with lower cytoskeletal polarization. Cell proliferation was highest on smooth grade 4 titanium surfaces, whereas cells quickly reached a plateau on rough grade 4 titanium; no difference was observed after 72 hours in the grade 5 titanium groups. Calcium phosphate enrichment on grade 4 titanium significantly increased the messenger RNA levels for alkaline phosphatase and osteocalcin. Osteoblastic markers were higher on the grade 5 titanium machined surfaces than on the rough surfaces, and comparable with acid-etched grade 4 titanium.
CONCLUSIONS:
Although the grade 4 titanium enriched with calcium phosphate had the highest level of differentiation in vitro, the grade 5 titanium machined surfaces supported cell proliferation and matrix synthesis, and induced high expression of early differentiation markers. Increased mechanical resistance of grade 5 titanium makes it a potential candidate for orthodontic mini-implants
Interactions between cells and SiC/SiO2 nanowires: scanning and transmission electron microscopy investigations
No full textEvaluation of in vivo osteogenic activity induced in the peri-implant bone by a peptidomimetic titanium functionalisation
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