Your search keyword '"Gatti, Antonietta"' showing total 10 results

1. Biological tolerance of different materials in bulk and nanoparticulate form in a rat model: sarcoma development by nanoparticles.

Author

Hansen T, Clermont G, Alves A, Eloy R, Brochhausen C, Boutrand JP, Gatti AM, and Kirkpatrick CJ

Subjects

Animals, Cobalt adverse effects, Materials Testing, Nickel adverse effects, Polyvinyl Chloride adverse effects, Rats, Sarcoma pathology, Silicon Dioxide adverse effects, Skin Neoplasms etiology, Skin Neoplasms pathology, Titanium adverse effects, Biocompatible Materials adverse effects, Metal Nanoparticles adverse effects, Sarcoma etiology

Abstract

In order to study the pathobiological impact of the nanometre-scale of materials, we evaluated the effects of five different materials as nanoparticulate biomaterials in comparison with bulk samples in contact with living tissues. Five groups out of 10 rats were implanted bilaterally for up to 12 months with materials of the same type, namely TiO2, SiO2, Ni, Co and polyvinyl chloride (PVC), subcutaneously with bulk material on one side of the vertebral column and intramuscularly with nanoparticulate material on the contralateral side. At the end of each implantation time, the site was macroscopically examined, followed by histological processing according to standard techniques. Malignant mesenchymal tumours (pleomorphic sarcomas) were obtained in five out of six cases of implanted Co nanoparticle sites, while a preneoplastic lesion was observed in an animal implanted with Co in bulk form. In the Ni group, all animals rapidly developed visible nodules at the implanted sites between 4 and 6 months, which were diagnosed as rhabdomyosarcomas. Since the ratio of surface area to volume did not show significant differences between the Ni/Co group and the TiO2/SiO2/PVC group, we suggested that the induction of neoplasia was not mediated by physical effects, but was mediated by the well-known carcinogenic impact of Ni and Co. The data from the Co group show that the physical properties (particulate versus bulk form) could have a significant influence on the acceleration of the neoplastic process.

Published

2006

2. In-vivo short- and long-term evaluation of the interaction material-blood.

Author

Gatti AM, Montanari S, Gambarelli A, Capitani F, and Salvatori R

Subjects

Humans, Microscopy, Electron methods, Biocompatible Materials, Blood

Abstract

Through an innovative electron microscopy technique, thrombi and fibrotic tissue taken from 14 explanted vena cava filters were observed. Twelve cases showed the presence of micro-and nano-sized inorganic, non biodegradable nor biocompatible particles which did not belong to the metal the device was made of and which could be the sole cause or, more likely, a pre-existing cause for thrombosis. In two cases, those debris activated immunological reactions typical of a foreign body. The presence of inorganic particles in the blood was never detected before and their effects on human health are hardly known. Their thrombogenicity should be added to the Virchow's Triad as a fourth factor and could be the explanation to many of the cases of pulmonary embolism where no thrombotic focus could be demonstrated.

Published

2005

3. Innate defence functions of macrophages can be biased by nano-sized ceramic and metallic particles.

Author

Lucarelli M, Gatti AM, Savarino G, Quattroni P, Martinelli L, Monari E, and Boraschi D

Subjects

Biocompatible Materials adverse effects, Ceramics adverse effects, Cytokines biosynthesis, Humans, Metals adverse effects, U937 Cells, Biocompatible Materials pharmacology, Ceramics pharmacology, Immunity, Innate drug effects, Macrophages immunology, Metals pharmacology, Nanostructures adverse effects

Abstract

Nano-sized particles of ceramic and metallic materials are generated by high-tech industrial activities, and can be generated from worn-out replacement and prosthetic implants. The interaction with the human body of such nanoparticles has been investigated, with a particular emphasis on innate defence mechanisms. Human macrophages (PMA-differentiated myelomonocytic U-937 cells) were exposed in vitro to non-toxic concentrations of TiO(2), SiO(2), ZrO(2), or Co nanoparticles, and their inflammatory response (expression of TLR receptors and co-receptors, and cytokine production) was examined. Expression of TLR receptors was generally unaffected by exposure to the different nanoparticles, except for some notable cases. Exposure to nanoparticles of ZrO(2) (and to a lesser extent TiO(2)), upregulated expression of viral TLR receptors TLR3 and TLR7. Expression of TLR10 was also increased by TiO(2) and ZrO(2) nanoparticles. On the other hand, TLR9 expression was decreased by SiO(2) nano-particles, and expression of the co-receptor CD14 was inhibited by Co nanoparticles. Basal and LPS-induced production of cytokines IL-1beta, TNF-alpha, and IL-1Ra was examined in macrophages exposed to nanoparticles. SiO(2) nanoparticles strongly biased naive macrophages towards inflammation (M1 polarisation), by selectively inducing production of inflammatory cytokines IL-1beta and TNF-alpha. SiO(2) nanoparticles also significantly amplified the inflammatory phenotype of LPS-polarised M1 macrophages. Other ceramic nanoparticles had little influence on cytokine production, either in resting macrophages, or in LPS-activated cells. Generally, Co nanoparticles had an overall pro-inflammatory effect on naive macrophages, by reducing anti-inflammatory IL-1Ra and inducing inflammatory TNF-alpha. However, Co nanoparticles reduced production of IL-1beta and IL-1Ra, but not TNF-alpha, in LPS-polarised M1 macrophages. Thus, exposure to different nanoparticles can modulate, in different ways, the defence/inflammatory capacities of macrophages. A thorough analysis of these biasing effects may shed light on the mechanisms of pathogenesis of several diseases based on dysregulation of the immune response (allergies, autoimmunity, tumours).

Published

2004

4. Effects of nano-scaled particles on endothelial cell function in vitro: studies on viability, proliferation and inflammation.

Author

Peters K, Unger RE, Kirkpatrick CJ, Gatti AM, and Monari E

Subjects

Cell Division, Cell Survival, Cells, Cultured, Cobalt, Foreign-Body Reaction etiology, Humans, Interleukin-8 immunology, Interleukin-8 metabolism, Ki-67 Antigen immunology, Ki-67 Antigen metabolism, Nickel, Particle Size, Polyvinyl Chloride, Silicon Dioxide, Titanium, Biocompatible Materials, Endothelial Cells immunology, Endothelial Cells pathology, Foreign-Body Reaction pathology, Foreign-Body Reaction physiopathology, Materials Testing methods, Nanotubes adverse effects

Abstract

Recent studies give support for a connection between the presence of inorganic particles (of microm and nm size) in different organs and tissues and the development of inflammatory foci, called granulomas. As the potential source of particles (e.g. porcelain dental bridges) and the location of particle detection were topographically far apart, a distribution via the blood stream appears highly probable. Thus, endothelial cells, which line the inner surface of blood vessels, would come into direct contact with these particles, making particle-endothelial interactions potentially pathogenically relevant. The objective of this study was to evaluate the effects that five different nano-scaled particles (PVC, TiO2, SiO2, Co, Ni) have on endothelial cell function and viability. Therefore, human endothelial cells were exposed to different amounts of the above-mentioned particles. Although most particle types are shown to be internalised (except Ni-particles), only Co-particles possessed cytotoxic effects. Furthermore, an impairment of the proliferative activity and a pro-inflammatory stimulation of endothelial cells were induced by exposure to Co- and, to a lesser extent, by SiO2-particles. If a pro-inflammatory stimulation of endothelial cells occurs in vivo, a chronic inflammation could be a possible consequence.

Published

2004

5. Biocompatibility of micro- and nano-particles in the colon. Part II.

Author

Gatti AM

Subjects

Colon metabolism, Colon pathology, Colonic Neoplasms metabolism, Crohn Disease metabolism, Humans, Intestinal Mucosa pathology, Kidney metabolism, Liver metabolism, Microscopy, Electron, Scanning, Microspheres, Nanotechnology, Silicates analysis, Stainless Steel analysis, Sulfur chemistry, Zirconium analysis, Biocompatible Materials pharmacology, Colon chemistry

Abstract

Pathological colonic tissues were investigated with an Environmental Scanning Electron Microscope technique to verify the presence of inorganic, non-biodegradable pollutants, i.e. micro- and nano-debris of exogenous origin, after debris in liver and kidney had been discovered. In all, 18 samples of colon tissues affected by cancer and Crohn's disease were evaluated and found in all the cases to contain micro- and nano-particles. Their chemistry, detected with an X-ray microprobe, indicated a heterogeneous nature, whereas the size of the particles was homogeneous. Three control samples of healthy, young, cadavers were analysed and showed the absence of debris within the normal, healthy colon mucosa. The study reveals the presence of particulate debris, generally considered as biocompatible, in pathological specimens of human colon. The findings suggest a possible link between the presence of such particles and the underlying pathology in the cases analysed.

Published

2004

6. Granulomatosis associated to porcelain wear debris.

Author

Gatti AM, Ballestri M, and Bagni A

Subjects

Dental Porcelain chemistry, Dental Restoration Wear, Electron Probe Microanalysis, Feces chemistry, Fever of Unknown Origin etiology, Granuloma, Foreign-Body complications, Granuloma, Foreign-Body pathology, Hepatomegaly etiology, Hepatomegaly pathology, Humans, Kidney pathology, Liver pathology, Male, Middle Aged, Biocompatible Materials adverse effects, Dental Porcelain adverse effects, Denture, Partial, Fixed adverse effects, Granuloma, Foreign-Body etiology

Abstract

Purpose: To determine the origin of a cryptogenic granulomatosis using an innovative diagnosis technique., Materials and Methods: A patient affected by fever of unknown origin for 9 years was diagnosed with colestasis and acute renal failure with pathological evidence, in parenchimal samples, of granulomatosis of unknown origin. New scanning electron microscopic observations on the biopsy samples from the liver and the kidney and x-ray elemental microanalyses showed the presence of debris made of silicone, aluminum, sodium and potassium, and aluminum-silicate similar to dental porcelain. The same SEM and x-ray analyses were carried out on the patient's worn porcelain dental bridges., Results: A correlation was demonstrated between wear debris of porcelain and the cryptogenic granulomatosis, which lead to a different therapeutic approach and the removal of the origin of the debris; this stabilized the situation and caused an improvement of the disease. The results indicated that a material can be biocompatible when used in a solid bulk, but this property can be lost when it is degraded into small particles.

Published

2002

7. Biocompatibility of micro- and nanoparticles. Part I: in liver and kidney.

Author

Gatti AM and Rivasi F

Subjects

Biocompatible Materials chemistry, Ceramics adverse effects, Ceramics chemistry, Dental Materials adverse effects, Dental Materials chemistry, Granuloma etiology, Granuloma pathology, Humans, Kidney drug effects, Kidney Diseases etiology, Kidney Diseases pathology, Liver drug effects, Liver Diseases etiology, Liver Diseases pathology, Male, Microscopy, Electron, Scanning, Microspheres, Middle Aged, Biocompatible Materials adverse effects, Kidney pathology, Liver pathology

Abstract

An accidental discovery led us to correlate a pathology of "unknown origin" with the presence of micro- and nano-particles of inorganic nature in the human tissues. Bioptic samples of livers and kidneys affected by cryptogenic granulomas were observed through a new type of electron scanning microscope called environmental scanning electron microscope and X-ray-microanalyzed with an energy dispersive system. All the randomly selected samples showed the presence of inorganic samples, sometimes varying in chemical composition, but consistent in size (larger in the liver, smaller in the kidney). This article illustrates the results obtained on randomly picked samples and proposes our new investigative method as an aid to achieve a medical diagnosis. Two more items are discussed: the possible, until now unexplained, origin of a pathology as deriving from the presence of exogenous particles, so a new word "nano-pathology" was developed and, as a consequence, the relativity of the concept of biocompatibility as depending on the size of the material considered and its local concentration. The implications of the discovery are briefly discussed.

Published

2002

8. Granulomatosis associated to porcelain wear debris

Author

Gatti, Antonietta, Ballestri, M., and Bagni, A.

Subjects

Male, Granuloma, Foreign-Body, biocompatible, Biocompatible Materials, Middle Aged, Kidney, Dental Porcelain, Fever of Unknown Origin, cryptogenic granulomatosis, scanning electron microscopic, aluminum-silicate, Dental Restoration Wear, Feces, Liver, Denture, Partial, Fixed, Humans, Electron Probe Microanalysis, Hepatomegaly

Abstract

To determine the origin of a cryptogenic granulomatosis using an innovative diagnosis technique.A patient affected by fever of unknown origin for 9 years was diagnosed with colestasis and acute renal failure with pathological evidence, in parenchimal samples, of granulomatosis of unknown origin. New scanning electron microscopic observations on the biopsy samples from the liver and the kidney and x-ray elemental microanalyses showed the presence of debris made of silicone, aluminum, sodium and potassium, and aluminum-silicate similar to dental porcelain. The same SEM and x-ray analyses were carried out on the patient's worn porcelain dental bridges.A correlation was demonstrated between wear debris of porcelain and the cryptogenic granulomatosis, which lead to a different therapeutic approach and the removal of the origin of the debris; this stabilized the situation and caused an improvement of the disease. The results indicated that a material can be biocompatible when used in a solid bulk, but this property can be lost when it is degraded into small particles.

Published

2003

9. Valutazione della biocompatibilità del fisiograft per difetti ossei

Author

Gatti, Antonietta, Monari, Emanuela, Tanza, D., and Betti, V.

Subjects

Biocompatible Materials, Bone Resorption, Biocompatible Materials, Bone Resorption, Periodontal Diseases, Periodontal Diseases

Published

1999

10. Short-Term Behavior Of 2 Similar Active Glasses Used As Granules In The Repair Of Bone Defects

Author

Gatti, Antonietta and Zaffe, Davide

Subjects

Animals, Biocompatible Materials, Biodegradation, Environmental, Calcium/analysis, Ceramics/chemistry, Glass/chemistry, Mandible/surgery, Materials Testing, Microscopy, Electron, Scanning, Phosphorus/analysis, Prostheses and Implants, Sheep, Silicon/analysis, X-Ray Diffraction

Published

1991