Influencia do meloxicam sobre a perda ossea alveolar em periodontite experimental: avaliaçao histometrica em ratos

GURGEL, Bruno Cesar de vasconcelos.Influencia do meloxicam sobre a perda ossea alveolar em periodontite experimental: avaliaçao histometrica em ratos. 2003.97f. Dissertaçao (Mestrado) - Universidade Estadual de Campinas. Faculdade de Odontologia de Piracicaba. Piracicaba, 2003. Disponivel em: . Acesso em: 04 out. 2010.

Correção de colapsos da crista alveolar com tecidos duros

Introdução: Uma adequada planificação é condição sine qua non para o êxito do tratamento com implantes. No entanto, nem sempre a colocação dos implantes na posição tridimensional ideal é, logo à partida, viável. Neste contexto, a correção dos colapsos da crista óssea com tecidos duros assume especial importância. Objetivos: O objetivo desta revisão narrativa é avaliar a eficácia dos diversos procedimentos existentes para aumento do rebordo com tecidos duros, de forma a facilitar a escolha do tratamento ideal. Materiais e Métodos: Pesquisou-se nas bases de dados MEDLINE, B-on e Google Académico. As palavras-chave utilizadas foram: “guided bone regeneration”, “ridge augmentation”, “seibert classification”, “alveolar bone splitting”, “horizontal bone augmentation” e “vertical bone augmentation”. Deu-se especial ênfase a revisões sistemáticas e meta-análises. A pesquisa foi limitada a artigos publicados em inglês, espanhol e em português até abril de 2016. Foram ainda consultados os livros “Tratado de Periodontia Clínica e Implantologia Oral” de Lindhe et al. (2005), “Implantes Dentais Contemporâneos” de Misch et al. (2009) e “Reabilitação com implantes endo-ósseos” de Alcoforado et al. (2008). Resultados: De um modo geral, todos os procedimentos analisados obtiveram altas taxas de sobrevivência aquando da reabilitação com implantes. No entanto, não houve diferenças significativas entre as diversas técnicas que possam levar a uma conclusão relevante sobre qual a melhor técnica a utilizar para este tipo de procedimento. Conclusão: Há evidências insuficientes para sugerir qual a técnica que deve ser preferida para o aumento de rebordo com tecidos duros, pelo que mais estudos são necessários.

Influencia do meloxicam sobre a perda ossea alveolar em periodontite experimental: avaliaçao histometrica em ratos

GURGEL, Bruno Cesar de vasconcelos.Influencia do meloxicam sobre a perda ossea alveolar em periodontite experimental: avaliaçao histometrica em ratos. 2003.97f. Dissertaçao (Mestrado) - Universidade Estadual de Campinas. Faculdade de Odontologia de Piracicaba. Piracicaba, 2003. Disponivel em: . Acesso em: 04 out. 2010.

Prevenção da reabsorção óssea alveolar após extração dentária

Introdução: O processo alveolar é o conjunto de osso que se encontra em redor da raiz do dente. Este osso é sensível a uma variedade de fatores ambientais e fisiológicos que influenciam a sua integridade e o seu funcionamento. Como tal, a sua formação assim como a sua preservação é dependente da presença contínua do dente. A reabsorção do processo alveolar após extração dentária é uma consequência natural e fisiológica indesejável, que pode dificultar a colocação de um implante dentário na posição desejada. Com o aumento cada vez mais das demandas estéticas em medicina dentária, torna-se, portanto, necessário prevenir que a reabsorção óssea provoque este defeito na arcada dentária. Objetivos: Realizar uma revisão bibliográfica sobre as várias técnicas e materiais para preservação do rebordo alveolar, a fim de prevenir ou minimizar a reabsorção alveolar após extração dentária. Material e Métodos: A pesquisa foi realizada nas bases de dados Pubmed, B-on e Scielo, não foi aplicado nenhum limite temporal, e os critérios de inclusão foram artigos em língua inglesa e portuguesa. Num total de 164 artigos, selecionaram-se 82 estritamente relacionados com o tema. Os artigos excluídos desviavam-se do objetivo do trabalho ou eram inconclusivos. Selecionaram-se, também, capítulos do livro Clinical Periodontology and Implant Dentistry Volume 1 e 2, dos autores Niklaus P.Lang e Jan Lindhe. Desenvolvimento: De modo a compreender como o processo alveolar reabsorve, deve-se ter em conta as várias técnicas que se podem realizar para permitir uma boa quantidade de osso remanescente na arcada adequada a cada caso para uma possível reabilitação. As técnicas de preservação do osso alveolar após extração passam pela realização de técnicas cirúrgicas minimamente invasivas, estabilização do coágulo pelo princípio da cicatrização por primeira intenção usando membranas ou retalhos, preenchimento do alvéolo dentário com materiais de enxerto ou substitutos ósseos, terapias combinadas com a colocação de implantes imediatos e o recurso a células e fatores de crescimento. Conclusão: A preservação alveolar tem grande importância para uma posterior reabilitação oral com implantes com maior quantidade de osso disponível do que quando não é feita qualquer tipo de preservação. A extração das peças dentárias deve ser feita com cuidado para preservar ao máximo ou não danificar as superfícies ósseas remanescentes. É aconselhado que o encerramento da ferida seja por primeira intenção e que proporcione estabilidade ao coágulo, podendo ser usado retalhos ou mesmo membranas. O uso de enxertos ósseos tem uma importante função de proporcionar uma matriz para o coágulo se formar e promover o processo de cicatrização. O método de implante imediato, para além de ser bastante usado, tem como finalidade o conforto para o paciente de não ser submetido a uma posterior cirurgia para colocação do mesmo e, simultaneamente, mantem a estabilidade dos tecidos moles. Ainda uma técnica menos usada é com células e fatores de crescimento que proporciona uma cicatrização mais rápida e um aumento do potencial regenerativo dos tecidos.

Botulinum toxin in masticatory muscles of the adult rat induces bone loss at the condyle and alveolar regions of the mandible associated with a bone proliferation at a muscle enthesis

International audience

Estratégias para a preservação do rebordo alveolar

Dissertação para obtenção do grau de Mestre no Instituto Superior de Ciências da Saúde Egas Moniz

Reabsorción de hueso alveolar en pacientes diabéticos tipo 2 y pacientes no diabéticos con periodontitis crónica

Introducción: Existen diversos trastornos sistémicos que se manifiestan en la cavidad bucal, siendo el periodonto uno de los componentes que se ven más afectados. La Diabetes Mellitus es uno de los trastornos sistémicos que más se han estudiado en su relación con manifestaciones bucales. La microangiopatía, la alteración de la síntesis del colágeno y la disminuída acción fagocitaria hacen de las personas que padecen esta enfermedad sean más propensos a la Enfermedad Periodontal. Las enfermedades periodontales comúnmente abarcan númerosos y complejos signos y síntomas, motivo por el cual existen diversos métodos diagnósticos para evaluar la condición y magnitud de éstas. El indicador más importante de la magnitud con que se presenta la enfermedad periodontal está basado en la reabsorción de hueso alveolar, por ser este el tejido periodontal con evolución más lenta y por ser el que en última instancia se ve afectado. Tanto diabetes como enfermedad periodontal tienen una alta incidencia en la población general, ambas son multifactoriales y tienen que ver con alguna disfunción inmunoreguladora numerosos estudios indican mayor incidencia de enfermedad periodontal en personas con diabetes que en personas sanas. Objetivo: Determinar la influencia de la Diabetes Mellitus tipo 2 en el grado de reabsorción de hueso alveolar en pacientes con Periodontitis Crónica. Materiales y Métodos: En este estudio se incluyeron 17 pacientes diabéticos pertenecientes al Posgrado de Periodoncia de la facultad de Odontología de la Universidad Autónoma de Nuevo León y 29 pacientes no diabéticos que acudierón al Posgrado de Periodoncia de la Facultad de Odontología de la Universidad de Nuevo León, siguiendo los criterios de inclusión y exclusión. Parámetros clínicos fueron tomados en consideración para evaluar el estado periodontal tales como: profundidad de bolsa (PD), pérdida de inserción clínica (CAL), índice periodontal (PI) y evaluación radiográfica. De todos los pacientes que integraron ambos grupos. Se utilizó una rejilla milímetrada adosada a la placa radiográfica, con la cual se obtuvo una imagen radiopaca cuadriculada milímetrada, con el fin de facilitar una medición más exacta. Resultados: La investigación revela que, existe diferencia en el grado de enfermedad periodontal, representado por la reabsorción de hueso alveolar, entre el grupo de estudio (diabéticos tipo 2) = 4.81mm. promedio y el grupo control (no diabéticos) = 2.69 mm. promedio por otra parte, se encontró , diferencia estadísticamente significativa al comparar los promedios de reabsorción ósea alveolar total (p =<0.05). Conclusión: Dentro de las limitaciones del estudio, es posible asumir que diabetes mellitus no causa enfermedad periodontal, más bien crea condiciones para su proliferación.

The mechanism of breath aerosol formation

Background: Aerosol production during normal breathing is often attributed to turbulence in the respiratory tract. That mechanism is not consistent with a high degree of asymmetry between aerosol production during inhalation and exhalation. The objective was to investigate production symmetry during breathing. Methods: The aerosol size distribution in exhaled breath was examined for different breathing patterns including normal breathing, varied breath holding periods and contrasting inhalation and exhalation rates. The aerosol droplet size distribution measured in the exhaled breath was examined in real time using an aerodynamic particle sizer. Results and Conclusions: The dependence of the particle concentration decay rate on diameter during breath holding was consistent with gravitational settling in the alveolar spaces. Also, deep exhalation resulted in a 4 to 6 fold increase in concentration and rapid inhalation produced a further 2 to 3 fold increase in concentration. In contrast rapid exhalation had little effect on the measured concentration. A positive correlation of the breath aerosol concentration with subject age was observed. The results were consistent with the breath aerosol being produced through fluid film rupture in the respiratory bronchioles in the early stages of inhalation and the resulting aerosol being drawn into the alveoli and held before exhalation. The observed asymmetry of production in the breathing cycle with very little aerosol being produced during exhalation, is inconsistent with the widely assumed turbulence induced aerosolization mechanism.

Application of autologous periosteal cells for the regeneration of class III furcation defects in Beagle dogs

The aim of this study was to evaluate the healing of class III furcation defects following transplantation of autogenous periosteal cells combined with b-tricalcium phosphate (b-TCP). Periosteal cells obtained from Beagle dogs’ periosteum explant cultures, were inoculated onto the surface of b-TCP. Class III furcation defects were created in the mandibular premolars. Three experimental groups were used to test the defects’ healing: group A, b-TCP seeded with periosteal cells were transplanted into the defects; group B, b-TCP alone was used for defect filling; and group C, the defect was without filling materials. Twelve weeks post surgery, the tissue samples were collected for histology, immunohistology and X-ray examination. It was found that both the length of newly formed periodontal ligament and the area of newly formed alveolar bone in group A, were significantly increased compared with both group B and C. Furthermore, both the proportion of newly formed periodontal ligament and newly formed alveolar bone in group A were much higher than those of group B and C. The quantity of cementum and its percentage in the defects (group A) were also significantly higher than those of group C. These results indicate that autogenous periosteal cells combined with b-TCP application can improve periodontal tissue regeneration in class III furcation defects.

Periodontal regeneration and mesenchymal stem cells

The ultimate goal of periodontal therapy is to regenerate periodontal supporting tissues, but this is hard to achieve as the results of periodontal techniques for regeneration are clinically unpredictable. Stem cells owing to their plasticity and proliferation potential provides a new paradigm for periodontal regeneration. Stem cells from mesenchyme can self renew and generate new dental tissues (including dentin and cementum), alveolar bone and periodontal ligament, and thus they have great potential in periodontal regeneration. This chapter presents an insight into mesenchymal stem cells and their potential use in periodontal regeneration. In this chapter the cellular and molecular biology in periodontal regeneration will be introduced, followed by a range of conventional surgical procedures for periodontal regeneration will be discussed. Mesenchymal stem cells applied in regenerated periodontal tissue and their biological characterizations in vitro will be also introduced. Lastly, the use of mesenchymal stem cell to repair periodontal tissues in large animal models will be also reviewed.

Formation mechanisms of secondary organic aerosols in relation to laser printer emissions

Due to their large surface area, complex chemical composition and high alveolar deposition rate, ultrafine particles (UFPs) (< 0.1 ìm) pose a significant risk to human health and their toxicological effects have been acknowledged by the World Health Organisation. Since people spend most of their time indoors, there is a growing concern about the UFPs present in some indoor environments. Recent studies have shown that office machines, in particular laser printers, are a significant indoor source of UFPs. The majority of printer-generated UFPs are organic carbon and it is unlikely that these particles are emitted directly from the printer or its supplies (such as paper and toner powder). Thus, it was hypothesised that these UFPs are secondary organic aerosols (SOA). Considering the widespread use of printers and human exposure to these particles, understanding the processes involved in particle formation is of critical importance. However, few studies have investigated the nature (e.g. volatility, hygroscopicity, composition, size distribution and mixing state) and formation mechanisms of these particles. In order to address this gap in scientific knowledge, a comprehensive study including state-of-art instrumental methods was conducted to characterise the real-time emissions from modern commercial laser printers, including particles, volatile organic compounds (VOCs) and ozone (O3). The morphology, elemental composition, volatility and hygroscopicity of generated particles were also examined. The large set of experimental results was analysed and interpreted to provide insight into: (1) Emissions profiles of laser printers: The results showed that UFPs dominated the number concentrations of generated particles, with a quasi unimodal size distribution observed for all tests. These particles were volatile, non-hygroscopic and mixed both externally and internally. Particle microanalysis indicated that semi-volatile organic compounds occupied the dominant fraction of these particles, with only trace quantities of particles containing Ca and Fe. Furthermore, almost all laser printers tested in this study emitted measurable concentrations of VOCs and O3. A positive correlation between submicron particles and O3 concentrations, as well as a contrasting negative correlation between submicron particles and total VOC concentrations were observed during printing for all tests. These results proved that UFPs generated from laser printers are mainly SOAs. (2) Sources and precursors of generated particles: In order to identify the possible particle sources, particle formation potentials of both the printer components (e.g. fuser roller and lubricant oil) and supplies (e.g. paper and toner powder) were investigated using furnace tests. The VOCs emitted during the experiments were sampled and identified to provide information about particle precursors. The results suggested that all of the tested materials had the potential to generate particles upon heating. Nine unsaturated VOCs were identified from the emissions produced by paper and toner, which may contribute to the formation of UFPs through oxidation reactions with ozone. (3) Factors influencing the particle emission: The factors influencing particle emissions were also investigated by comparing two popular laser printers, one showing particle emissions three orders of magnitude higher than the other. The effects of toner coverage, printing history, type of paper and toner, and working temperature of the fuser roller on particle number emissions were examined. The results showed that the temperature of the fuser roller was a key factor driving the emission of particles. Based on the results for 30 different types of laser printers, a systematic positive correlation was observed between temperature and particle number emissions for printers that used the same heating technology and had a similar structure and fuser material. It was also found that temperature fluctuations were associated with intense bursts of particles and therefore, they may have impact on the particle emissions. Furthermore, the results indicated that the type of paper and toner powder contributed to particle emissions, while no apparent relationship was observed between toner coverage and levels of submicron particles. (4) Mechanisms of SOA formation, growth and ageing: The overall hypothesis that UFPs are formed by reactions with the VOCs and O3 emitted from laser printers was examined. The results proved this hypothesis and suggested that O3 may also play a role in particle ageing. In addition, knowledge about the mixing state of generated particles was utilised to explore the detailed processes of particle formation for different printing scenarios, including warm-up, normal printing, and printing without toner. The results indicated that polymerisation may have occurred on the surface of the generated particles to produce thermoplastic polymers, which may account for the expandable characteristics of some particles. Furthermore, toner and other particle residues on the idling belt from previous print jobs were a very clear contributing factor in the formation of laser printer-emitted particles. In summary, this study not only improves scientific understanding of the nature of printer-generated particles, but also provides significant insight into the formation and ageing mechanisms of SOAs in the indoor environment. The outcomes will also be beneficial to governments, industry and individuals.

The stimulation of proliferation and differentiation of periodontal ligament cells by the ionic products from Ca7Si2P2O16 bioceramics

The ultimate goal of periodontal tissue engineering is to produce predictable regeneration of alveolar bone, root cementum, and periodontal ligament, which are lost as a result of periodontal diseases. To achieve this goal, it is of great importance to develop novel bioactive materials which could stimulate the proliferation, differentiation and osteogenic/cementogenic gene expression of periodontal ligament cells (PDLCs) for periodontal regeneration. In this study, we synthesized novel Ca7Si2P2O16 ceramic powders for the first time by the sol–gel method and investigated the biological performance of PDLCs after exposure to different concentrations of Ca7Si2P2O16 extracts. The original extracts were prepared at 200 mg ml-1 and further diluted with serum-free cell culture medium to obtain a series of diluted extracts (100, 50, 25, 12.5 and 6.25 mg ml–1). Proliferation, alkaline phosphatase(ALP) activity, Ca deposition, and osteogenesis/cementogenesis-related gene expression (ALP, Col I, Runx2 and CEMP1) were assayed for PDLCs on days 7 and 14. The results showed that the ionic products from Ca7Si2P2O16 powders significantly stimulated the proliferation, ALP activity, Ca deposition and osteogenesis/cementogenesisrelated gene expression of PDLCs. In addition, it was found that Ca7Si2P2O16 powders had excellent apatite-mineralization ability in simulated body fluids. This study demonstrated that Ca7Si2P2O16 powders with such a specific composition possess the ability to stimulate the PDLC proliferation and osteoblast/cemenoblast-like cell differentiation, indicating that they are a promising bioactive material for periodontal tissue regeneration application.