1,566 research outputs found
Calcifying odontogenic cyst associated with compound odontoma: A study on undemineralized material
In a minority of cases of calcifying odontogenic cyst (COC) it is possible to observe the formation of dental hard tissues in the cyst wall. The use of undemineralized sections has allowed an evaluation of the mineralized tissues normally lost with the use of demineralizing agents. All the dental hard tissues presented a high degree of morpho- and histodifferentiation. The histochemical staining for calcium salts (von Kossa) showed the presence of areas of low mineralization in the portion of the lesion, where the tissue maturation was not complete. In conclusion the appearance of the dental hard tissues in this case of compound odontoma arising in the cyst wall of a COC is similar to that already described in compound odontoma not associated with COC.Il est possible dâobserver la formation de tissus dentaires durs dans la paroi dâune minoritĂ© de cas de kystes odontogĂšnes calcifiants (KOC). Lâutilisation de coupes de tissus non dĂ©minĂ©ralisĂ©s a permis une Ă©valuation des tissus minĂ©ralisĂ©s qui sont habituellement perdus aprĂšs dĂ©calcification. Tous les tissus dentaires durs prĂ©sentent un degrĂ© important de morpho- en dâhistodiffĂ©renciation. La coloration histochimique des sels calcaires (von Kossa) montre la prĂ©sence de territoires de faible minĂ©ralisation dans les rĂ©gions dans lesquelles la maturation tissulaire est incomplĂšte.En conclusion, lâapparence des tissus dentaires durs dans ce cas dâodontome composĂ© dĂ©veloppĂ© dans la paroi dâun kyste odontogĂšne calcifiĂ© est semblable Ă celle dĂ©jĂ dĂ©crite dans les odontomes composĂ©s non associĂ© Ă un KOC
SEM and fractography analysis of screw thread loosening in dental implants.
Biological and technical failures of implants have already been reported. Mechanical factors are certainly of importance in implant failures, even if their exact nature has not yet been established. The abutment screw fracture or loosening represents a rare, but quite unpleasant failure. The aim of the present research is an analysis and structural examination of screw thread or abutment loosening compared with screw threads or abutment without loosening. The loosening of screw threads was compared to screw thread without loosening of three different implant systems; Branemark (Nobel Biocare, Gothenburg, Sweden), T.B.R. implant systems (Benax, Ancona, Italy) and Restore (Lifecore Biomedical, Chaska, Minnesota, USA). In this study broken screws were excluded. A total of 16 screw thread loosenings were observed (Group I) (4 Branemark, 4 T.B.R and 5 Restore), 10 screw threads without loosening were removed (Group II), and 6 screw threads as received by the manufacturer (unused) (Group III) were used as control (2 Branemark, 2 T.B.R and 2 Restore). The loosened abutment screws were retrieved and analyzed under SEM. Many alterations and deformations were present in concavities and convexities of screw threads in group I. No macroscopic alterations or deformations were observed in groups II and III. A statistical difference of the presence of microcracks were observed between screw threads with an abutment loosening and screw threads without an abutment loosening
Ultrastructural analysis of periapical granulomas
A large portion of periapical granulomas is composed by cells of the mononuclear-phagocyte and lymphoid system. The ultrastructural features of the monocytes/macrophages differ in relationship to the state of activity of the cells (phagocytosis or secretion). A close correlation between cells of these two systems can be surmised by their tight contacts. An important role in the bone resorption is probably played by cytokines like IL-1 and TNF.Une grande partie des granulomes pĂ©riapicaux est constituĂ©e de cellules du systĂšme mononuclĂ©aire phagocytaire et lymphoĂŻde. Les caractĂ©ristiques ultrastructurales des monocytes/macrophages diffĂšrent selon le type dâactivitĂ© des cellules (phagocytose ou sĂ©crĂ©tion). Une corrĂ©lation intime entre les cellules de ces deux systĂšmes peut ĂȘtre supposĂ©e Ă©tant donnĂ© leurs contacts serrĂ©s. Un rĂŽle important dans la rĂ©sorption osseuse est exercĂ©, probablement par lâintermĂ©diaire de cytokines comme IL-1 beta et TNF
Ghost cells in compound odontoma: a study of undemineralized material
Calcifications and ghost cells at the enamel surface or in the ameloblastic epithelium were studied in twelve odontomas using undemineralized material.Calcified material formed focally in the intercellular portion of the enamel epithelium: this material showed a concentric layers arrangement.Ghost cells were present in most of the odontomas.These ghost cells were epithelial cells which enlarged, became eosiniphilic and underwent an aberrant type of keratinization with the formation of large masses of keratin, that didnât stain as deeply as normal keratin. These cells often showed karyolysis of the nucleus as keratinization progressed. Frequent was the appearance of dystrophic calcifications in individual cells or clusters of cells, characterized by extremely fine basophilic granularity. The outlines of these keratinized cells could often still be discerned, even if with some difficulty.Les calcifications et les cellules fantĂŽmes Ă la surface de lâĂ©mail ou dans lâĂ©pithĂ©lium amĂ©loblastique ont Ă©tĂ© Ă©tudiĂ©es dans 12 odontomes en utilisant du matĂ©riel non dĂ©caldfiĂ©.Le matĂ©riel calcifiĂ© est formĂ© focalement dans les portions intercellulaires de l'Ă©pithĂ©lium de l'Ă©mail: ce matĂ©riel montre un agencement en couches concentriques.Les cellules fantĂŽmes sont prĂ©sentes dans la plupart des odontomes. Ces cellules fantĂŽmes sont des cellules Ă©pithĂ©liales qui augmentent de taille, deviennent Ă©osinophiles et subissent un type aberrant de kĂ©ratinisation avec formation de larges masses de kĂ©ratine qui ne se colorent pas aussi intensĂ©ment que la kĂ©ratine normale. Ces cellules montrent souvent une karyolyse du noyau au fur et Ă mesure de la progression de la kĂ©ratinisation. Il Ă©tait frĂ©quent de rencontrer lâapparition de calcifications dystrophiques dans des cellules isolĂ©es ou en Ăźlots, caractĂ©risĂ©es par des granulations basophiles extrĂȘmement fines. Les contours de ces cellules kĂ©ratinisĂ©es peuvent ĂȘtre encore souvent discernĂ©s, quoique avec certaines difficultĂ©s
Underwater Laboratories for Astroparticle Physics and Deep Sea Science
The exploration of deep sea environments is presently at the dawn of a new era:
underwater laboratories, permanently installed on the sea floor and offering
power and on-line data transmission links to the shore, will allow to continuously
monitor oceanographical properties. An important boost in this direction has
been provided by the high energy physics scientific community, that aims at the
realization of an underwater detector for cosmic high energy neutrinos.
Neutrinos are considered a very promising probe for high energy astrophysics
and many indications suggest that some of the most energetic sources known in
the universe could also be high energy neutrino sources. The expected neutrino
fluxes indicate that a km3-scale detector must be realised to achieve this
ambitious aim. The quest for the realization of such a detector in the
Mediterranean Sea has already started
The emerging role of cold atmospheric plasma in implantology: A review of the literature
In recent years, cold atmospheric plasma (CAP) technologies have received increasing attention in the field of biomedical applications. The aim of this article is to review the currently available literature to provide an overview of the scientific principles of CAP application, its features, functions, and its applications in systemic and oral diseases, with a specific focus on its potential in implantology. In this narrative review, PubMed, Medline, and Scopus databases were searched using key words like âcold atmospheric plasmaâ, âargon plasmaâ, âhelium plasmaâ, âair plasmaâ, âdental implantsâ, âimplantologyâ, âperiâimplantitisâ, âdecontaminationâ. In vitro studies demonstrated CAPâs potential to enhance surface colonization and osteoblast activity and to accelerate mineralization, as well as to determine a clean surface with cell growth comparable to the sterile control on both titanium and zirconia surfaces. The effect of CAP on biofilm removal was revealed in comparative studies to the currently available decontamination modalities (laser, air abrasion, and chlorhexidine). The combination of mechanical treatments and CAP resulted in synergistic antimicrobial effects and surface improvement, indicating that it may play a central role in surface ârejuvenationâ and offer a novel approach for the treatment of periâimplantitis. It is noteworthy that the CAP conditioning of implant surfaces leads to an improvement in osseointegration in in vivo animal studies. To the best of our knowledge, this is the first review of the literature providing a summary of the current state of the art of this emerging field in implantology and it could represent a point of reference for basic researchers and clinicians interested in approaching and testing new technologies
Graphene-based nanomaterials for tissue engineering in the dental field
The world of dentistry is approaching graphene-based nanomaterials as substitutes for tissue engineering. Apart from its exceptional mechanical strength, electrical conductivity and thermal stability, graphene and its derivatives can be functionalized with several bioactive molecules. They can also be incorporated into different scaffolds used in regenerative dentistry, generating nanocomposites with improved characteristics. This review presents the state of the art of graphene-based nanomaterial applications in the dental field. We first discuss the interactions between cells and graphene, summarizing the available in vitro and in vivo studies concerning graphene biocompatibility and cytotoxicity. We then highlight the role of graphene-based nanomaterials in stem cell control, in terms of adhesion, proliferation and differentiation. Particular attention will be given to stem cells of dental origin, such as those isolated from dental pulp, periodontal ligament or dental follicle. The review then discusses the interactions between graphene-based nanomaterials with cells of the immune system; we also focus on the antibacterial activity of graphene nanomaterials. In the last section, we offer our perspectives on the various opportunities facing the use of graphene and its derivatives in associations with titanium dental implants, membranes for bone regeneration, resins, cements and adhesives as well as for tooth-whitening procedure
Light and Laser Scanning Microscopy analysis of hydroxyapatite used in periodontal osseous defects in man: evidence of a different resorption pattern in bone and soft tissues
Hydroxyapatite (HA) is a highly biocompatible material that recently has been shown to undergo biodegradation. The mechanisms of this phenomenon are unclear, and humoral and cellular events have been thought to be implicated. In the present study HA particles were put into infraosseous defects on teeth that were to be extracted for prosthetic reasons and then retrieved after a 1 year period. The specimens were processed with the cutting grinding system. Results show a very sharp difference of the biodegradation processes, related to the tissues that surround the HA particles. HA in tight contact with mineralized bone showed no evidence of degradation or resorption, while on the contrary, in the areas where bone loose connective tissue was present, it was possible to observe HA crystals detached and scattered in cells cytoplasm or extracellular fluids. This dissolution and resorption phenomenon were observed also by Laser Scanning Microscope (LSM) in fluorescent mode. These differences in degrees of degradation between bone and loose connective tissue could be due to the small amount of interstitial fluid present in mineralized bone and the greater flow of fluid through connective tissue.Lâhydroxyapatite (HA) est un matĂ©riel hautement biocompatible qui sâest rĂ©vĂ©lĂ© rĂ©cemment capable de subir une biodĂ©gradation. Le mĂ©canisme de ce phĂ©nomĂšne nâest pas clair, et semble impliquer une particination humorale et cellulaire. Notre recherche a portĂ© sur la mise en place de particules dâHA dans des dĂ©fects intraosseux en rapport avec des dents qui doivent ĂȘtre extraites pour des raisons prothĂ©siques, et sur leur etude suite Ă leur ablation un an aprĂšs. Les rĂ©sultats ont dĂ©montrĂ© des diffĂ©rences marquĂ©es dans le processus de dĂ©gradation en rapport avec les tissus qui entourent lâHA. Les particules dâHA qui sont en contact avec lâos minĂ©ralisĂ© ne prĂ©sentent pas de signes de dĂ©gradation ou de rĂ©sorption, tandis que dans les rĂ©gions oĂč du tissu conjonctif Ă©tait prĂ©sent, il est possible dâobserver des cristaux dâHA dĂ©tachĂ©s et dispersĂ©s dans le cytoplasme des cellules et dans le liquide extracellulaire. Ces phĂ©nomĂšnes de dissolution et de rĂ©sorption ont Ă©tĂ© Ă©galement Ă©tudiĂ©s au Microscope Electronique Ă Balayage au Laser en fluorescence. Ces diffĂ©rences dans le degrĂ© de dĂ©gradation observĂ©s dans lâos et dans le tissu conjonctif lĂąche pourraient ĂȘtre dues Ă la faible quantitĂ© de liquide interstitiel dans lâos minĂ©ralisĂ© et Ă la quantitĂ© plus grande de flux liquidien dans le tissu conjonctif
Three-dimensional architecture and mechanical properties of bovine bone mixed with autologous platelet liquid, blood, or physiological water: An in vitro study
In recent years, several techniques and material options have been investigated and developed for bone defect repair and regeneration. The progress in studies of composite graft materials and autologous platelet-derived growth factors for bone regeneration in dentistry and their biological and biomechanical properties has improved clinical strategies and results. The aim of this study was to evaluate the three-dimensional architecture and mechanical properties of three different combinations of composite bovine graft, adding autologous platelet liquid (APL), blood, or physiological water. One experimental group for each combination of biomaterials was created. In particular, in Group I, the bovine graft was mixed with APL; in Group II, it was mixed with blood, and in Group III, the biomaterial graft was combined with physiological water. Then, the composite biomaterials were evaluated by scanning electron microscopy (SEM), and a compression-loading test was conducted. The evaluation showed a statistical significance (p < 0.01) of the elastic regime of deformation resistance, in which the combination of APL with bone graft resulted in an 875% increase in the mechanical resistance. The protocol of APL mixed with bovine bone graft produced a composite sticky graft block that was capable of increasing the mechanical properties in order to improve its clinical use in the treatment of the maxillary bone defects
- âŠ