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Filter by:While the initial evolution of meningococcal meningitis (MM) is well described, there are few data on the long-term evolution, beyond 1 year. The objective of this research is to evaluate the sequelae of MM beyond 1 year in patients with a history of MM followed in Paris area, France. Most children with MM in France have been included in the MM register and are still being followed. Parents will be offered a detailed clinical evaluation of their child including: a clinical and neurological examination, a cognitive performance assessment, an auditory, speech and visual assessment and an evaluation of the child's progress at school.
Hard and soft tissue deficiencies of an alveolar ridge arise as sequelae of tooth extraction when socket preservation is not applied. In addition, extraction of posterior maxillary teeth causes pneumatization of the maxillary sinus in relation to other fixed landmarks such as the teeth. These anatomic sinus limitations and alveolar bone deficiencies are the main challenges for dental implant placement. Different bone substitutes have been used to augment bone in pneumatized maxillary sinuses. Scaffolding materials such as xenografts or synthetics substitutes have been proven to be a viable alternative. Xenografts are obtained from nonhuman species and serve as a scaffold for the formation of new bone (osteoconduction). Histologic evaluation of maxillary sinuses grafted with xenografts revealed newly formed bone to be mostly woven bone with some remodeling to lamellar bone. These histologic findings reaffirm the osteoconductive ability of xenografts when used as the sole grafting material in maxillary sinus augmentation. Xenografts appear to be an effective method for maxillary sinus grafting and demonstrate limited resorption over time. Sinuses augmented with synthetic bone substitute (SBS) also appear to successfully integrate based on recent histomorphometric studies. Vascularization and trabecular bone formation in sinuses grafted with SBS has been previously demonstrated. One type of SBS includes porous granules of bioactive and resorbable silica-calcium phosphate nanocomposite (ShefaBone). ShefaBone grafts offer a novel alternative that can potentially unite the 3 salient bone-forming properties (osteoinduction, osteoconduction, and osteogenesis). ShefaBone has unique properties including: 1) bioactivity 2) bioresorbablility, and 3) allowing for the uptake of calcium ions from the physiological solution and releasing phosphate and silicate ions which aid in bone formation. A material with such properties will substitute bone in a more controlled and effective combination that can be obtained in many clinical situations, without the disadvantages found with autograft. ShefaBone has demonstrated successful regenerative properties for bony defects. To our knowledge, there is no reported clinical studies on the use of SCPC material to graft a pneumatized maxillary sinus. This aim of this current study is to compare SCPC to commonly used xenograft material in an augmented maxillary sinus.
The aim of this study is to assess patient's quality of life 5 to 10 years after a severe bacterial infection with hospitalization in a intensive unit care. The population is derived from the DIABACT III study. The investigators will include every patient still alive. To evaluate our question, patients and their parents will answer quality of life questionnaires. The investigators will also have telephone interviews with the parents to know somatic and psychological effects on their child. The investigators will see if quality of life and sequelae differ depending on various studied factors.