Radiopacidade de materiais restauradores utilizando imagens digitais

The radiopacity of esthetic restorative materials has been established as an important requirement, improving the radiographic diagnosis. The aim of this study was to evaluate the radiopacity of six restorative materials using a direct digital image system, comparing them to the dental tissues (enamel-dentin), expressed as equivalent thickness of aluminum (millimeters of aluminum). Five specimens of each material were made. Three 2-mm thick longitudinal sections were cut from an intact extracted permanent molar tooth (including enamel and dentin). An aluminum step wedge with 9 steps was used. The samples of different materials were placed on a phosphor plate together with a tooth section, aluminum step wedge and metal code letter, and were exposed using a dental x-ray unit. Five measurements of radiographic density were obtained from each image of each item assessed (restorative material, enamel, dentin, each step of the aluminum step wedge) and the mean of these values was calculated. Radiopacity values were subsequently calculated as equivalents of aluminum thickness. Analysis of variance (ANOVA) indicated significant differences in radiopacity values among the materials (PA radiopacidade dos materiais tem sido valorizada como importante requisito, incrementando o diagnóstico radiográfico. O objetivo deste estudo foi avaliar, no sistema digital Digora, as densidades radiográficas de 06 materiais restauradores comparando-os aos tecidos dentais (esmalte e dentina), expressos em milímetros de alumínio (mm Al). Foram confeccionadas 05 amostras de cada material e três cortes de um molar extraído hígido (incluindo esmalte e dentina), com 2 mm de espessura, e um penetrômetro de alumínio com 09 degraus. Sobre cada placa óptica foram colocados amostras dos diferentes materiais, um corte do dente humano, o penetrômetro e a identificação, e feita a exposição utilizando um aparelho de raios X. Foram obtidas 05 medidas de densidade radiográfica de cada item avaliado (material restaurador, esmalte, dentina e degraus do penetrômetro de alumínio) em cada radiografia, e calculadas as médias destas medidas. A partir destas médias de densidade, foram calculados os valores da radiopacidade destes itens em mm de Al, em cada radiografia. Análise de variância (ANOVA) indicou diferença significante entre os valores de radiopacidade dos materiais (

Alterações da densidade mineral óssea em vértebras de ratos Wistar submetidos à ausência de carga nos membros pélvicos

The suspension of rats by the tail model is used to investigate the behavior of bone in animals unable to move around. Bone is an adaptative tissue that develops in structure and function, among other factors, in response to mechanical forces applied to it and metabolic demands that it will suffer. The absence of mechanical forces and deformation of bone that occurs causes a decrease in calcium deposition in the absence of stimuli on osteoblasts and osteocytes, favoring the action of osteoclasts, making bones weak and brittle. Therefore, the mechanical action is necessary to stimulate local bone response and thus provide growth and remodeling. The aim of this study was to evaluable by radiographic densitometry, the tail suspension for 15 and 36 days alter the bone mineral density of cervical vertebrae (C3), thoracic (T6) and lumbar (L1 and L3) of Wistar rats. Thirty Rattus norvegicus albinus, adult, male, Wistar strain, average body mass ± 350g, were divided into 3 groups: control (n = 10) - not suspended; S15 (n = 10) - suspended for 15 days and S36 (n = 10) - suspended for 36 days. For densitometric analysis vertebrae were radiographed, scanned, digitized and analyzed by the computer program ImageJ®. There was a statistically significant increase in bone mineral density in group S15, probably by the restlessness of the animals to the suspension, with a decrease in group S36, and this hypothetically is linked to the accommodation of the rats, concluding that the tail suspension altered bone mineral density in first time with a decrease over time.  A suspensão de ratos pela cauda é modelo utilizado para investigar o comportamento ósseo em animais impossibilitados de se locomoverem. O osso é um tecido adaptativo que se desenvolve em sua estrutura e função, entre outros fatores, em resposta a forças mecânicas aplicadas a ele e demandas metabólicas que venha sofrer. A ausência de forças mecânicas e de deformação óssea faz com que ocorra uma diminuição na deposição de cálcio por ausência de estímulos nos osteoblastos e osteócitos, favorecendo a ação dos osteoclastos, tornando o osso enfraquecido e quebradiço. Portanto, a ação mecânica é necessária para estimular a resposta óssea local e, assim, proporcionar seu crescimento e remodelamento. O objetivo deste estudo foi avaliar, através da densitometria radiográfica, se a suspensão pela cauda por 15 e 36 dias altera a densidade mineral óssea das vértebras cervical (C3), torácica (T6) e lombares (L1 e L3) de ratos Wistar. Trinta Rattus norvegicus albinus, adultos, machos, linhagem Wistar, massa corpórea média de ± 350g, foram divididos em 3 grupos: controle (n=10) – não suspenso; S15 (n=10) - suspenso por 15 dias e S36 (n=10) - suspenso por 36 dias. Para análise densitométrica, as vértebras foram radiografadas, escaneadas, digitalizadas e analisadas pelo programa computacional ImageJ®. Houve aumento estatisticamente significante da densidade mineral óssea no grupo S15, provavelmente pela inquietação dos animais à suspensão, com diminuição no grupo S36, fato este hipoteticamente ligado à acomodação dos mesmos, concluindo que a suspensão pela cauda alterou a densidade mineral óssea num primeiro momento com diminuição com o passar do tempo

Análise da influência do ultrassom de baixa intensidade na região de reparo ósseo em ratos sob ausência de carga

Há evidências de que o ultrassom (US) de baixa intensidade pode acelerar a regeneração óssea. Este trabalho objetivou verificar a ação do US no defeito ósseo, criado experimentalmente em tíbias de ratos sob ausência de carga. Vinte Rattus novergicus albinus, Wistar adultos, divididos em: G1 (n=10), grupo experimental de 15 dias sem suspensão, e G2 (n=10), grupo experimental de 15 dias suspenso pela cauda, foram submetidos à osteotomia em ambas as tíbias e à aplicação do US, frequência de 1,5 MHz, ciclo de trabalho 1:4, 30 mW/cm², nas tíbias direitas por 12 sessões de 20 minutos. Após o sacrifício, as tíbias foram submetidas à análise da Densidade Mineral Óssea (DMO). Os resultados demonstraram DMO de 0,139±0,018 g/cm² para tíbia tratada; 0,131±0,009 g/cm² para tíbia controle no G1; e no G2 registrou-se 0,120±0,009 g/cm² para tíbia tratada e 0,106±0,017 g/cm² para tíbia controle. Houve diferença significante entre os grupos nos quais o G2 apresentou menor DMO, o que demonstra que a suspensão prejudica a manutenção das propriedades ósseas, e entre as tíbias tratadas e controles do G2, demonstrando que o US acelerou o processo de reparo, concluindo que a impossibilidade do estímulo mecânico causada pela não deambulação em um processo de reparo ósseo pode ser minimizada pela ação do US. No G1, a aplicação do US não teve influência significante no aumento da DMO, talvez pelo fato dos animais já terem estímulo mecânico suficiente à formação óssea.There is evidence that the low-intensity ultrasound (US) can accelerate bone regeneration. This research studied the action of US in bone defect, created experimentally in the rat tibia under no load. Twenty Rattus norvegicus albinus, Wistar, divided into: G1 (n=10), experimental group of 15 days without suspension, and G2 (n=10) experimental group 15 days suspended by the tail, underwent osteotomy in both tibias and application of the US, frequency of 1,5 MHz, duty cycle 1:4, 30 mW/cm², on the right tibia by 12 sessions of 20 minutes. After the sacrifice, tibias were subjected to analysis of Bone Mineral Density (BMD). The results demonstrated BMD of 0.139±0.018 g/cm² for treated tibia, 0.131±0.009 g/cm² for tibia control in the G1, and the G2 had 0.120±0.009 g/cm² for tibia and 0.106±0.017 g/cm² for control tibia. There were significant differences between groups where G2 had lower BMD, which shows that the suspension affect the maintenance of bone properties. There was significant difference between treated and control tibia of G2, showing that the US has accelerated the repair process, concluding that the failure of a mechanical stimulus caused by not walking in a process of bone repair can be minimized by the action of US. G1, in the application of US, did not have significant influence in increasing BMD, perhaps because the animals have already sufficient mechanical stimulus to bone formation

Hindlimb unloading producing effects on bone biomechanical properties in mature male rats

Aging is associated with decline in muscle mass and strength and reduced bone density. Age-related bone loss is a primary factor in osteoporosis and all individuals are potential candidates for osteoporosis because bone loss with aging occurs in men and women, but less studied in men. To examine the appropriateness of hindlimb elevation, by tail suspension as a model for diminished mechanical loading, and to determine the influence of age on bone responsiveness to skeletal unloading, we use dual X ray absorptiometry (DXA) and digital radiographic images to analyze the response of the femur from mature rats to biomechanical loads. Femurs from male Wistar rats (9-mo-old) were scanned using DXA and DIGORA and measures obtained in ephipyseal and diaphyseal regions of interest. The mechanical testing was divided into compression load to fracture the head and a three-point bending load to fracture the femur middiaphysis. In femoral epiphysis from hindlimb unload (HU), animals presented significant differences between mineral bone content and density assessed by DXA. Detailed regions of femoral epiphysis (head, throcanteric fossa, throcanter and metaphysis) presented significant lower values from radiographic density. Only compressive load necessary to fracture the femoral head neck was also significantly diminished in HU animals. Disuse induced, as in elderly patients, deterioration of the trabecular bone architecture with critical effect on bone fragility. Rats with 21 days of hindlimb unloading can simulate disuse, suggesting that certain sub-regions of their aging bones are more susceptible to fracture, while other, i.e. diaphyses, are not

Análise do consumo de extrato hidrossolúvel de soja na qualidade do tecido ósseo de ratos jovens adultos

Introduction: Soy is a legume rich in protein, source of calcium and isoflavones. One of the possible effects of isoflavones is to reduce bone loss when there is an estrogen deficiency. Objective: to analyze the influence of diet supplemented with soybean water extract (EHS) on the bone mass of young adult rats of both sexes. Materials and methods: A total of 40 Novergicus Albinus rats Wistar young and healthy adults were used, 20 males and 20 females. They were randomly divided into four groups: control male (MC), supplemented male (MS), control female (FC) and supplemented female (FS) who remained for 11 weeks in a common cage receiving 500 ml of water and 300g of feed daily, and the supplemented groups (MS and FS), to which 500 ml of soy milk were offered in addition to water and feed, during the same experimental period of control. During the experimental period feed intake and fluid intake were measured. At the end of the experimental period the bones were extracted. Bone densitometry - DXA and mechanical test for bone mineral density - BMD (g / cm2), Maximum Strength (N) and Rigidity (kN / m) were used. Results: EHS consumption caused a decrease in BMD in the MS group, but there was no change in biomechanical properties, maximum strength and stiffness. Conclusion: The water soluble soybean extract negatively influenced the bone mineral content of young adult male rats without altering the mechanical characteristics.Introdução: A soja é uma leguminosa rica em proteínas, fonte de cálcio e isoflavonas. Um dos possíveis efeitos das isoflavonas é de reduzir a perda óssea quando há uma deficiência de estrogênio. Objetivo: analisar a influência da dieta suplementada com extrato hidrossolúvel de soja (EHS) na massa óssea de ratos adultos jovens de ambos o sexo. Materiais e métodos: Foram utilizados 40 ratos Novergicus Albinus linhagem Wistar adultos jovens e saudáveis, sendo 20 machos e 20 fêmeas. Aleatoriamente, foram separados em quatro grupos: macho controle (MC), macho suplementado (MS), fêmea controle (FC) e fêmea suplementada (FS) que permaneceram por 11 semanas em gaiola comum recebendo 500 ml de água e 300g de ração diariamente, e os grupos suplementado (MS e FS), ao qual foi oferecido além de água e ração, 500 ml de leite a base de soja, durante o mesmo período experimental do controle. Durante o período experimental o consumo de ração e ingestão de líquidos foram mensurados. Ao final do período experimental foi feito extração dos ossos. Os ossos foram submetidos à densitometria óssea – DXA e ensaio mecânico, para avaliação da densidade mineral óssea - DMO (g/cm2), Força Máxima (N) e Rigidez (kN/m). Resultados: O consumo de EHS provocou diminuição da DMO no grupo MS, porém não houve alteração nas propriedades biomecânicas, força máxima e rigidez. Conclusão: O extrato hidrossolúvel de soja influenciou negativamente o conteúdo mineral ósseo de ratos machos jovens adultos sem alterar as características mecânicas

Estudio digital radiográfico y densitométrico en mandíbulas de cerdos sometidos a osteotomía con alta y baja velocidad, con refrigeración líquida

The influence of the type of rotary cutting instrument on bone repair after osteotomy in swine jaw, was evaluated using digital and densitometric radiographic examinations, at controlled times. Two cross-sectional dissections were made through the base of the right jaw, one using a high speed rotary instrument and the other using low speed, both with liquid cooling. After established periods the animals were sacrificed and their jaws removed for direct and indirect digital radiographic and densitometric studies using the CROMOX, DIGORA and ODR systems. In the initial periods (7 and 28 days) the bone density was higher in osteotomy areas performed with high rotation speeds, and in the final periods (60 and 90 days) the bone density was higher in the osteotomies performed with low rotation, indicating a better final bone repair with the use of low rotation. The qualitative analysis of the repair process was made by the ODR system which obtained three-dimensional and coloured digital images, which enable the bone thickness to be measured using an aluminium wedge. This showed that by twenty-eight days the bone repair was already apparently complete. © 2010 SECOM

Alterações da densidade mineral óssea em vértebras de ratos wistar submetidos à ausência de carga nos membros pélvicos

The suspension of rats by the tail model is used to investigate the behavior of bone in animals unable to move around. Bone is an adaptative tissue that develops in structure and function, among other factors, in response to mechanical forces applied to it and metabolic demands that it will suffer. The absence of mechanical forces and deformation of bone that occurs causes a decrease in calcium deposition in the absence of stimuli on osteoblasts and osteocytes, favoring the action of osteoclasts, making bones weak and brittle. Therefore, the mechanical action is necessary to stimulate local bone response and thus provide growth and remodeling. The aim of this study was to evaluable by radiographic densitometry, the tail suspension for 15 and 36 days alter the bone mineral density of cervical vertebrae (C3), thoracic (T6) and lumbar (L1 and L3) of Wistar rats. Thirty Rattus norvegicus albinus, adult, male, Wistar strain, average body mass ± 350g, were divided into 3 groups: control (n = 10) - not suspended; S15 (n = 10) - suspended for 15 days and S36 (n = 10) - suspended for 36 days. For densitometric analysis vertebrae were radiographed, scanned, digitized and analyzed by the computer program ImageJ®. There was a statistically significant increase in bone mineral density in group S15, probably by the restlessness of the animals to the suspension, with a decrease in group S36, and this hypothetically is linked to the accommodation of the rats, concluding that the tail suspension altered bone mineral density in first time with a decrease over time