Diabetes Mellitus tipo 1 em Odontopediatria

A Diabetes Mellitus é conhecida por uma doença metabólica caracterizada por um défice na ação ou secreção da insulina, na qual a consequência direta é o aparecimento de hiperglicemia, isto é, o nível de glicose apresentar valores elevados (Kidambi, 2008; Silva-Sousa, 2003). A DM1, especificamente, é apresentada como uma doença que é resultado da destruição das células beta do pâncreas, desenvolvendo assim, um défice na produção de insulina (Raymond et al., 2001). As complicações orais da DM1 incluem xerostomia, doença periodontal (gengivite e periodontite), abcessos dentários, perda de dentes, lesões de tecidos moles e síndrome de ardência oral. A complicação oral mais frequente da DM1 nas crianças é o aumento da sensibilidade à doença periodontal. A doença periodontal é caracterizada como uma reação inflamatória infecciosa dos tecidos gengivais (gengivite) ou do suporte dos dentes, ou seja, ligamento periodontal, cemento e osso alveolar (periodontite), podendo induzir um certo grau de resistência à insulina. Ambas as doenças resultam da interação entre microorganismos periodontais patogénicos. A avaliação e influência do controlo da doença é expressa pelos valores médios de hemoglobina glicosada (Hba1c) na saúde oral nas crianças e adolescentes com DM1. Vários estudos demonstraram que o controlo glicémico teve uma influencia sobre a saúde oral de crianças e adolescentes com DM1. Assim uma avaliação oral, deve fazer parte de procedimentos de rotina no atendimento de crianças e adolescentes com DM1. O dentista deve ser parte da equipa multidisciplinar que auxilia os indivíduos com DM1. O tratamento precoce numa população infantil com DM1, pode diminuir a severidade da doença periodontal. O presente trabalho tem por objectivo realizar uma revisão bibliográfica sobre a importância do estudo em crianças e adolescentes portadores de DM1 e doenças da cavidade oral, nomeadamente, a periodontite, e respetivas implicações.

Manifestações orais associadas ao consumo da droga de abuso MDMA

O uso para fins ou meios festivos de lazer da droga ilícita MDMA, também chamado de Ecstasy ou Moly, tem vindo a aumentar drasticamente em Portugal e no Mundo. Esta situação desafia os profissionais de saúde para vários parâmetros na saúde oral e geral. O objetivo desta dissertação visa avaliar e descrever as lesões e patologias na cavidade oral que estão relacionadas com o consumo da substância ilícita MDMA. As consequências para a cavidade oral podem ser a xerostomia, o bruxismo, as cáries rampantes, a doença periodontal, o desgaste e a erosão dentária, e as lesões dos tecidos moles. Os indivíduos consumidores podem apresentar carências nutricionais e um estímulo aumentado à dor. A gestão do prognóstico e o tratamento realizado aos consumidores de MDMA, pois afeta vários órgãos e sistemas no corpo humano, requer uma abordagem multidisciplinar que inclui educação, prevenção e tratamento integrados. Esta revisão bibliográfica teve com base artigos publicados em revistas científicos e monografias disponíveis em vários motores de busca. As palavras-chave usadas foram: “ecstasy”, “MDMA”, “oral manifestations”, “oral health”, “substance abuse”, ”overdose treatment”, “xerostomia” e “methamenfetamine” e a sua conjugação. As situações orais, perante as mais prevalentes comorbidades patogénicas relacionadas com o MDMA e outras dependências ilícitas, necessitam de mais atenção e reforço em relação à prática clínica e aos serviços de saúde. Uma das dificuldades para o tratamento correto destes indivíduos é a falta de informação sobre o assunto referente à prática na clínica dentária. A omissão sobre o consumo por parte do paciente bem como de uma recaída no uso, apresentam dúvidas sobre o fator em causa ou até mesmo no diagnóstico. São, muitas vezes, os Médicos Dentistas os primeiros a terem a oportunidade de diagnosticar o aparecimento de possíveis alterações surgidas em virtude do consumo de MDMA.

Caracterización de trastornos musculo esqueléticos en trabajadores de dos empresas de servicios en Bogotá D.C 2015

Objetivo: El objetivo de este estudio fue determinar la prevalencia de los trastornos músculoesqueléticos y la asociación con factores sociodemográficos y hábitos de vida en trabajadores de las áreas administrativa y operativa de dos empresas de servicio de la ciudad de Bogotá 2015. Materiales y Métodos: Se realizó un estudio de corte transversal, con información secundaria, procedente de bases de datos suministrada por las dos empresas con 696 registros de trabajadores de servicios generales, y 943 registros de trabajadores del área administrativa, para un total de 1639 registros, en los cuales se evaluó la presencia de síntomas osteomusculares clasificados por segmento. Adicionalmente se contaba con información de características sociodemográficas y estilos de vida de estos trabajadores. Se obtuvieron las distribuciones de frecuencias absolutas y relativas para las variables cualitativas, y las medidas de tendencia central y de dispersión para las variables cuantitativas. Para establecer la asociación entre factores sociodemográficos con las variables dependientes se utilizó la prueba chi2 de asociación. Resultados: La prevalencia de molestia o dolor en los diferentes segmentos corporales fue de 21.5 % (n = 203) en cuello para la población administrativa y de 17.5% (n = 148) en mano y muñeca derecha para la población de servicios generales. Vale la pena aclarar que el diagnóstico médico más frecuente referido por la población en estudio fue traumas en musculo, bursa tendón y/o ligamento con 10.5% en la población administrativa y con el 12.4% en la población de servicios generales. De las asociaciones significativas entre diagnósticos presentes y hábitos de vida y sueño se encontró que sueño no reparador se asoció significativamente con enfermedad general de músculos y huesos (p = 0.001), enfermedad o trauma activo de tejidos blandos (p = 0,000) y antecedente o enfermedad actual de columna vertebral (p = 0,000). De manera similar, el consumo de medicamentos para conciliar el sueño se asoció con enfermedad de tejidos blandos (p = 0,000) y enfermedad actual de columna vertebral (p = 0,000). El consumo de café (p = 0.001) y el sedentarismo (p = 0.031) están asociados con la enfermedad general de músculos y huesos. Conclusiones: Los TME son un factor de alta prevalencia en la población trabajadora de Colombia, y como se demostró en este estudio, afectan a la población de las empresas de servicio. Se evidencia cada vez más que los segmentos corporales más afectados en la población administrativa, son cabeza y cuello, debido a las posturas mantenidas por largos periodos de tiempo, y en la población de servicios se encontró molestia y dolor en muñecas y manos debido a los movimientos repetitivos que deben de realizar durante la jornada laboral. Se hace necesario profundizar más en la asociación significativa de los trastornos del sueño y la presencia de los TME, ya que se encontró una relación importante entre estos dos.

Direct mapping of 19F in 19FDG-6P in brain tissue at subcellular resolution using soft X-ray fluorescence

Low energy x-ray fluorescence (LEXRF) detection was optimized for imaging cerebral glucose metabolism by mapping the fluorine LEXRF signal of 19 F in 19 FDG, trapped as intracellular 19 F-deoxyglucose-6-phosphate ( 19 FDG-6P) at 1μm spatial resolution from 3μm thick brain slices. 19 FDG metabolism was evaluated in brain structures closely resembling the general cerebral cytoarchitecture following formalin fixation of brain slices and their inclusion in an epon matrix. 2-dimensional distribution maps of 19 FDG-6P were placed in a cytoarchitectural and morphological context by simultaneous LEXRF mapping of N and O, and scanning transmission x-ray (STXM) imaging. A disproportionately high uptake and metabolism of glucose was found in neuropil relative to intracellular domains of the cell body of hypothalamic neurons, showing directly that neurons, like glial cells, also metabolize glucose. As 19 F-deoxyglucose-6P is structurally identical to 18 F-deoxyglucose-6P, LEXRF of subcellular 19 F provides a link to in vivo 18 FDG PET, forming a novel basis for understanding the physiological mechanisms underlying the 18 FDG PET image, and the contribution of neurons and glia to the PET signal.

Chronic consumption of fructose rich soft drinks alters tissue lipids of rats

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Soft and hard tissue histologic dimensions around dental implants in the canine restored with smaller-diameter abutments: a paradigm shift in peri-implant biology

PURPOSE To evaluate the biologic width dimensions around implants with nonmatching implant-abutment diameters. MATERIALS AND METHODS Five canines had their mandibular premolars and first molars removed bilaterally and replaced with 12 implants that had nonmatching implant-abutment diameters. On one side, six implants were placed in a submerged surgical approach, and the other side utilized a nonsubmerged approach. Two of the implants on each side were placed either 1 mm above, even with, or 1 mm below the alveolar crest. Two months later, gold crowns were attached, and the dogs were sacrificed 6 months postloading. Block sections were processed for histologic and histomorphometric analyses. RESULTS The bone level, connective tissue length, epithelial dimension, and biologic width were not significantly different when the implants were initially placed in a submerged or nonsubmerged surgical approach. The bone level was significantly different around implants placed 1 mm above the crest compared to implants placed even with or 1 mm below the alveolar crest. The connective tissue dimension was not different for any implant level placement. The epithelial dimension and biologic width were significantly greater for implants placed 1 mm below the alveolar crest compared to implants placed even with or 1 mm above the alveolar crest. For five of six implant placements, connective tissue covered the implant/abutment interface. CONCLUSIONS This study reveals a fundamental change in the biologic response to implants with nonmatching implant-abutment diameters. Unlike implants with matching implant-abutment diameters, the connective tissue extended coronally past the interface (microgap). This morphologic tissue alteration represents a significant change in the biologic reaction to implant-abutment interfaces and suggests that marginal inflammation is eliminated or greatly reduced in these implant designs.

In vivo degradation of magnesium plate/screw osteosynthesis implant systems: Soft and hard tissue response in a calvarial model in miniature pigs.

Biodegradable magnesium plate/screw osteosynthesis systems were implanted on the frontal bone of adult miniature pigs. The chosen implant geometries were based on existing titanium systems used for the treatment of facial fractures. The aim of this study was to evaluate the in vivo degradation and tissue response of the magnesium alloy WE43 with and without a plasma electrolytic surface coating. Of 14 animals, 6 received magnesium implants with surface modification (coated), 6 without surface modification (uncoated), and 2 titanium implants. Radiological examination of the skull was performed at 1, 4, and 8 weeks post-implantation. After euthanasia at 12 and 24 weeks, X-ray, computed tomography, and microfocus computed tomography analyses and histological and histomorphological examinations of the bone/implant blocks were performed. The results showed a good tolerance of the plate/screw system without wound healing disturbance. In the radiological examination, gas pocket formation was found mainly around the uncoated plates 4 weeks after surgery. The micro-CT and histological analyses showed significantly lower corrosion rates and increased bone density and bone implant contact area around the coated screws compared to the uncoated screws at both endpoints. This study shows promising results for the further development of coated magnesium implants for the osteosynthesis of the facial skeleton.

Seawater carbonate chemistry, tissue-skeleton interface and calcification in reef corals in a laboratory experiment

Insight into the response of reef corals and other major marine calcifiers to ocean acidification is limited by a lack of knowledge about how seawater pH and carbonate chemistry impact the physiological processes that drive biomineralization. Ocean acidification is proposed to reduce calcification rates in corals by causing declines in internal pH at the calcifying tissue-skeleton interface where biomineralization takes place. Here, we performed an in vivo study on how partial-pressure CO(2)-driven seawater acidification impacts intracellular pH in coral calcifying cells and extracellular pH in the fluid at the tissue-skeleton interface [subcalicoblastic medium (SCM)] in the coral Stylophora pistillata. We also measured calcification in corals grown under the same conditions of seawater acidification by measuring lateral growth of colonies and growth of aragonite crystals under the calcifying tissue. Our findings confirm that seawater acidification decreases pH of the SCM, but this decrease is gradual relative to the surrounding seawater, leading to an increasing pH gradient between the SCM and seawater. Reductions in calcification rate, both at the level of crystals and whole colonies, were only observed in our lowest pH treatment when pH was significantly depressed in the calcifying cells in addition to the SCM. Overall, our findings suggest that reef corals may mitigate the effects of seawater acidification by regulating pH in the SCM, but they also highlight the role of calcifying cell pH homeostasis in determining the response of reef corals to changes in external seawater pH and carbonate chemistry.

Identification of novel molecular determinants of tissue mineralization in fish

Tese de doutoramento, Ciências Biomédicas, Departamento de Ciências Biomédicas e Medicina, Universidade do Algarve, 2015

Care during freeze-drying of bovine pericardium tissue to be used as a biomaterial: A comparative study

Bovine pericardium (BP) tissue is widely used in the manufacture of bioprosthetics. The effects of freeze-drying on the BP tissue have been studied by some researchers in order to decrease their cytotoxicity due to preservation in formaldehyde solution, and to increase the lifetime of the product in storage. This study was undertaken in order to study the effect of freeze-drying in the structure of BP. To perform this study BP samples were freeze-dried in two different types of freeze-dryers available in our laboratory: a laboratory freeze-dryer, in which it was not possible to control parameters and a pilot freeze-dryer, wherein all parameters during freezing and drying were controlled. After freeze-drying processes, samples were analyzed by SEM, Raman spectroscopy, tensile strength, water uptake tests and TEM. In summary, it has been demonstrated that damages occur in collagen fibers by the loss of bulk water of collagen structure implicating in a drastic decreasing of BP mechanical properties due to its structural alterations. Moreover, it was proven that the collagen fibrils suffered breakage at some points, which can be attributed to the uncontrolled parameters during drying. (C) 2011 Elsevier Inc. All rights reserved.

Vascular smooth muscle and arterial calcification

Smooth muscle cultures can calcify under certain circumstances. As a model system these cultures therefore provide information on why calcification occurs in atherosclerotic plaques. Whether all smooth muscle cells (under certain conditions), or only specific populations, can produce this mineralization has not been resolved. Demer's group has cloned calcifying vascular cells from subcultured bovine aorta and studied them in detail. They have speculated on whether the cells are smooth muscle which have altered in phenotype, or whether they are derived from a stem cell population within the artery wall. The article argues that while the normal process of smooth muscle phenotypic modulation seen in arterial repair could account for the observations, this view may be two simplistic considering the complex nature of the artery wall. Certainly there is evidence for heterogeneity of smooth muscle cells in the artery wall and recent evidence suggests that stem cells can circulate in the blood and repopulate tissues. Further studies are required to resolve the important question as to the origin of cells which produce mineralization in atheroma.

Classification model based on Raman spectra of selected morphological and biochemical tissue constituents for identification of atherosclerosis in human coronary arteries

This study presents the results of Raman spectroscopy applied to the classification of arterial tissue based on a simplified model using basal morphological and biochemical information extracted from the Raman spectra of arteries. The Raman spectrograph uses an 830-nm diode laser, imaging spectrograph, and a CCD camera. A total of 111 Raman spectra from arterial fragments were used to develop the model, and those spectra were compared to the spectra of collagen, fat cells, smooth muscle cells, calcification, and cholesterol in a linear fit model. Non-atherosclerotic (NA), fatty and fibrous-fatty atherosclerotic plaques (A) and calcified (C) arteries exhibited different spectral signatures related to different morphological structures presented in each tissue type. Discriminant analysis based on Mahalanobis distance was employed to classify the tissue type with respect to the relative intensity of each compound. This model was subsequently tested prospectively in a set of 55 spectra. The simplified diagnostic model showed that cholesterol, collagen, and adipocytes were the tissue constituents that gave the best classification capability and that those changes were correlated to histopathology. The simplified model, using spectra obtained from a few tissue morphological and biochemical constituents, showed feasibility by using a small amount of variables, easily extracted from gross samples.

Bovine pericardium coated with biopolymeric films as an alternative to prevent calcification: In vitro calcification and cytotoxicity results

Bovine pericardium, for cardiac valve fabrication, was coated with either chitosan or silk fibroin film. In vitro calcification tests of coated and non coated bovine pericardium were performed in simulated body fluid solution in order to investigate potential alternatives to minimize calcification on implanted heart valves. Complementary, morphology was assessed by scanning electron microscopy - SEM; X-ray diffraction (XRD) and infrared spectroscopy (FTIR-ATR) were performed for structural characterization of coatings and biocompatibility of chitosan. Silk fibroin films were assayed by in vitro cytotoxicity and endothelial cell growth tests. Bovine pericardium coated with silk fibroin or chitosan did not present calcification during in vitro calcification tests, indicating that these biopolymeric coatings do not induce bovine pericardium calcification. Chitosan and silk fibroin films were characterized as non cytotoxic and silk fibroin films presented high affinity to endothelial cells. The results indicate that bovine pericardium coated with silk fibroin is a potential candidate for cardiac valve fabrication, since the affinity of silk fibroin to endothelial cells can be explored to induce the tissue endothelization and therefore, increase valve durability by increasing their mechanical resistance and protecting them against calcification. (C) 2010 Elsevier B.V. All rights reserved.

Soft biomaterials as a substitute for the Nucleus Pulposus

One of the largest health problems faced worldwide, when evaluated by direct (clinical) as well indirect cost (absenteeism), is the degeneration of the intervertebral disc (IVD) that leads to back pain and, potentially disability and individual´s quality of life decreasing. The intervertebral disc is a mechanical and biological complex structure, formed by a tough outer layer of fibrocartilage called Annulus Fibrosus (AF),which surrounds a soft, elastic and gelatinous core called Nucleus Pulposus (NP). These two structures are completed by two upper and lower encasing layer called Vertebral Endplates (VEP). The degeneration of the IVD is marked by the dehydration of the Nucleus Pulposus, reducing the hydrostatic pressure inside the nucleus, resulting in a loss of capability to support compressive forces, during the active period, and to regain height during the resting period. This situation will compromise the role of shock absorber by the NP and transfers these forces to the AF. This transfer will result in cracks on the AF, deteriorating the IVD, allowing the ingrowth of vessels and nerves. This project was based on the developing a protocol to test suitable NP replacements, in hope to future assessment of discrete mechanical values and characteristics for an NP replacement. For this, Nucleus pulposus samples from goat, encapsulated Hydromed gel denominated “Raviolis” and Chitosan gels, produced via wet route using an ammonium environment, were confined compressed. Chitosan was rheologically tested and swelling capability of all the three type of materials was assessed. Results showed that the Nucleus Pulposus and “Raviolis” have similar mechanical behavior, being able to swell and “build up” hydrostatic pressure after a compression stage, while the Chitosan gel did not showed that ability. Therefore, “Raviolis” are a more suitable candidate to replace the NP than Chitosan gels. It was also observed that confined compression is the key test to perform on any possible candidate to replace the NP.

Extremely strong and tough hydrogels as prospective candidates for tissue repair – A review

Ideal candidates for the repair of robust biological tissues should exhibit diverse features such as biocompatibility, strength, toughness, self-healing ability and a well-defined structure. Among the available biomaterials, hydrogels, as highly hydrated 3D-crosslinked polymeric networks, are promising for Tissue Engineering purposes as result of their high resemblance with native extracellular matrix. However, these polymeric structures often exhibit a poor mechanical behavior, hampering their use in load-bearing applications. During the last years, several efforts have been made to create new strategies and concepts to fabricate strong and tough hydrogels. Although it is already possible to shape the mechanical properties of artificial hydrogels to mimic biotissues, critical issues regarding, for instance, their biocompatibility and hierarchical structure are often neglected. Therefore, this review covers the structural and mechanical characteristics of the developed methodologies to toughen hydrogels, highlighting some pioneering efforts employed to combine the aforementioned properties in natural-based hydrogels.