Longitudinal study on types of injury, complications and treatment in permanent traumatized teeth with single and multiple dental trauma episodes

The purpose of this study was to compare the type of injuries, complications and treatment in permanent traumatized teeth with single and multiple dental trauma episodes (MDTE). One hundred and fifty-five children, aged 6-14 years, sustaining one or more traumatic episodes to permanent teeth were included in this investigation. After the medical and dental history the patients were examined clinically and radiographically and the diagnosis of trauma, the treatment plan and the applied treatment were recorded. Also, information regarding the number of traumatic episodes, the number of injured permanent teeth and the vitality of the pulp was collected. In follow-ups, traumatized teeth were examined clinically and radiographically to evaluate the treatment applied and to detect any complication. The t-statistic was used to test differences in the mean number of teeth per patient with different types of injury, complications and treatment between permanent traumatized teeth with single and multiple trauma episodes. A 95% probability level was used. The results showed that MDTE significantly affected the mean number of teeth per patient with fractured restoration, root fracture, concussion, pulp canal obliteration, root replacement resorption, filling therapy, surgery and prosthetic treatment. It was concluded that MDTE increase the risk of having certain types of injury, complications and treatment. © 2007 Blackwell Munksgaard

Management of provisional restorations' deficiencies: A literature review

Provisional restorations are designed in order to protect oral structures and promote function and esthetics for a limited period of time, after which they are to be replaced by a definite prosthesis. They play a particular role in diagnostic procedures and continued evaluation of the treatment plan, as they should resemble the form and function of the definite rehabilitation that they precede. Therefore, interim treatment should satisfy the criteria of marginal adaptation, strength, and longevity. In complicated treatment plans that intend to last for extended periods of time, the function of provisional prostheses involves the possibility of relining, modification, or repair. These adjustments raise considerations regarding the strength of the resultant bond. Chemical composition of the base and repair material, surface characteristics of fracture parts, and time elapsed since the initial set of the rehabilitation should be considered in the decision of the appropriate repair material and technique. Proper pretreatment of the provisional components' surfaces is essential to ensure bonding as well. The purpose of this article is to illustrate the management of provisional restorations' deficiencies. This article highlights possible failures of custom-fabricated provisional restorations, describes methods to prevent their occurrence, and discusses clinical techniques for their management. Finally, the proper combination of materials and surface preparation to achieve the optimum treatment outcomes are presented. © 2011 Wiley Periodicals, Inc

Theoretical considerations and a mathematical model for the analysis of the biomechanical response of human keratinized oral mucosa

Removable complete and partial dentures are supported by the residual alveolar ridges consisting of mucosa, submucosa, periosteum and bone. An understanding of the biomechanical behaviorof the oral mucosa is essential in order to improve the denture- bearing foundations for complete and partially edentulous patients. The purpose of this paper was to examine the biomechanical behavior of the soft tissues supporting a removable denture and develop a model for that reason. Keratinized oral mucosa blocks with their underlying bone were harvested from the maxillary palatal area adjacent to the edentulous ridges of a cadaver. The compressive response of the oral mucosa was tested by using atomic force microscopy. The specimens were first scanned in order their topography to be obtained. The mechanical properties of the specimens were tested using asingle crystal silicon pyramidal tip, which traversed towards the keratinized oral mucosa specimens. Loading- unloading cycles were registered and four mathematical models were tested using MATLAB to note which one approximates the force-displacement curve as close as possible: a. spherical, b. conical, c. third order polynomial, d. Murphy (fourth order polynomial, non- linear Hertzian based). The third order polynomial model showed the best accuracy in representing the force-displacement data of the tested specimens. A model was developed in order to analyze the biomechanical behavior of the human oral keratinized mucosa and obtain information about its mechanical properties

A survey of the use of mandibular implant overdentures in 10 countries

International Journal of Prosthodontics172211-21