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This research aims to evaluate the efficiency of cavitary varnishes containing experimental bioglasses in the occlusion of dentinal tubules. One hundred and sixty-eight cervical buccal dentin samples were obtained from bovine teeth. Samples were randomized into the following groups: I. Distilled Water (DW); II. Cavity Varnish (CV); III. Colgate® Sensitive Pro-Relief™ (CS); IV. 45S5 Bioglass (45S5); V. KSr Bioglass strontium potassium (KSr); VI. P Bioglass phosphorus (P); and VII. PSi Bioglass phosphorus silica (PSi). The treatments were applied to the surfaces of the samples, which were then subjected to simulated brushing. The samples were analyzed for a) characterization of bioactive glasses; b) surface roughness; c) descriptive analysis of the dentin surface; d) total versus occluded number of dentinal tubules; e) diameter of the dentinal tubules; f) chemical composition of the dentin surfaces, and g) dentin permeability. All groups treated with biomaterials without the brushing challenge showed an increase in roughness and (total or partial) occlusion of the dentinal tubules. The PSi group had the best values for occlusion, while the KSr group had the highest calcium and phosphorus concentrations. After the brushing challenge the roughness was controlled by the presence of biomaterials; 45S5, KSr, and PSi showed occlusion of the dentin tubules. All bioactive glasses showed reduced tooth permeability compared to distilled water. The PSi group had the smallest tubule diameter and highest phosphorus concentration. KSr and PSi bioglasses are promising materials for dentin occlusion and remineralization and are promising new biomaterials for the treatment of dentin hypersensitivity.
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This study aimed to develop a polymeric matrix of polyamide-6 (P6) impregnated with trimetaphosphate (TMP) nanoparticles and silver nanoparticles (AgNPs), and to evaluate its antimicrobial activity, surface free energy, TMP and Ag+ release, and cytotoxicity for use as a support in dental tissue. The data were subjected to statistical analysis (p < 0.05). P6 can be incorporated into TMP without altering its properties. In the first three hours, Ag+ was released for all groups decorated with AgNPs, and for TMP, the release only occurred for the P6-TMP-5% and P6-TMP-10% groups. In the inhibition zones, the AgNPs showed activity against both microorganisms. The P6-TMP-2.5%-Ag and P6-TMP-5%-Ag groups with AgNPs showed a greater reduction in CFU for S. mutans. For C. albicans, all groups showed a reduction in CFU. The P6-TMP groups showed higher cell viability, regardless of time (p < 0.05). The developed P6 polymeric matrix impregnated with TMP and AgNPs demonstrated promising antimicrobial properties against the tested microorganisms, making it a potential material for applications in scaffolds in dental tissues.
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Bone regeneration is a critical area in regenerative medicine, particularly in orthopedics, demanding effective biomedical materials for treating bone defects. 45S5 bioactive glass (45S5 BG) is a promising material because of its osteoconductive and bioactive properties. As research in this field continues to advance, keeping up-to-date on the latest and most successful applications of this material is imperative. To achieve this, we conducted a comprehensive search on PubMed/MEDLINE, focusing on English articles published in the last decade. Our search used the keywords "bioglass 45S5 AND bone defect" in combination. We found 27 articles, and after applying the inclusion criteria, we selected 15 studies for detailed examination. Most of these studies compared 45S5 BG with other cement or scaffold materials. These comparisons demonstrate that the addition of various composites enhances cellular biocompatibility, as evidenced by the cells and their osteogenic potential. Moreover, the use of 45S5 BG is enhanced by its antimicrobial properties, opening avenues for additional investigations and applications of this biomaterial.
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The development of injectable hydrogels with natural biopolymers such as gelatin (Ge) and hyaluronic acid (Ha) is widely performed due to their biocompatibility and biodegradability. The combination of both polymers crosslinked with N-Ethyl-N'-(3-dimethyl aminopropyl) carbodiimide hydrochloride (EDC) can be used as an innovative dermal filler that stimulates fibroblast activity and increases skin elasticity and tightness. Thus, crosslinked Ge/Ha hydrogels with different concentrations of EDC were administered subcutaneously to test their efficacy in young and old rats. At higher EDC concentrations, the viscosity decreases while the particle size of the hydrogels increases. At all concentrations of EDC, amino and carboxyl groups are present. The histological analysis shows an acute inflammatory response, which disappears seven days after application. At one and three months post-treatment, no remains of the hydrogels are found, and the number of fibroblasts increases in all groups in comparison with the control. In addition, the elastic modulus of the skin increases after three months of treatment. Because EDC-crosslinked Ge/Ha hydrogels are biocompatible and induce increased skin tension, fibroblast proliferation, and de novo extracellular matrix production, we propose their use as a treatment to attenuate wrinkles and expression lines.
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BACKGROUND: Poly (lactic acid) (PLA) is a biodegradable polyester that has been exploited for a variety of biomedical applications, including tissue engineering. The incorporation of ß-tricalcium phosphate (TCP) into PLA has imparted bioactivity to the polymeric matrix. METHODS: We have modified a 90%PLA-10%TCP composite with SiO2 and MgO (1, 5 and 10 wt%), separately, to further enhance the material bioactivity. Filaments were prepared by extrusion, and scaffolds were fabricated using 3D printing technology associated with fused filament fabrication. RESULTS: The PLA-TCP-SiO2 composites presented similar structural, thermal, and rheological properties to control PLA and PLA-TCP. In contrast, the PLA-TCP-MgO composites displayed absence of crystallinity, lower polymeric molecular weight, accelerated degradation ratio, and decreased viscosity within the 3D printing shear rate range. SiO2 and MgO particles were homogeneously dispersed within the PLA and their incorporation increased the roughness and protein adsorption of the scaffold, compared to a PLA-TCP scaffold. This favorable surface modification promoted cell proliferation, suggesting that SiO2 and MgO may have potential for enhancing the bio-integration of scaffolds in tissue engineering applications. However, high loads of MgO accelerated the polymeric degradation, leading to an acid environment that imparted the composite biocompatibility. The presence of SiO2 stimulated mesenchymal stem cells differentiation towards osteoblast; enhancing extracellular matrix mineralization, alkaline phosphatase (ALP) activity, and bone-related genes expression. CONCLUSION: The PLA-10%TCP-10%SiO2 composite presented the most promising results, especially for bone tissue regeneration, due to its intense osteogenic behavior. PLA-10%TCP-10%SiO2 could be used as an alternative implant for bone tissue engineering application.
Assuntos
Fosfatos de Cálcio , Óxido de Magnésio , Alicerces Teciduais , Óxido de Magnésio/farmacologia , Óxido de Magnésio/química , Alicerces Teciduais/química , Dióxido de Silício , Teste de Materiais , Poliésteres , Polímeros/química , Ácido Láctico/química , Impressão TridimensionalRESUMO
ABSTRACT Purpose: This study aimed to report an experiment designed to determine anatomical changes in porcine corneas following placement of a novel polymer implant into the cornea. Methods: An ex vivo porcine eye model was used. A novel type I collagen-based vitrigel implant (6 mm in diameter) was shaped with an excimer laser on the posterior surface to create three planoconcave shapes. Implants were inserted into a manually dissected stromal pocket at a depth of approximately 200 μm. Three treatment groups were defined: group A (n=3), maximal ablation depth 70 μm; Group B (n=3), maximal ablation depth 64 μm; and group C (n=3), maximal ablation depth 104 μm, with a central hole. A control group (D, n=3) was included, in which a stromal pocket was created but biomaterial was not inserted. Eyes were evaluated by optical coherence tomography (OCT) and corneal tomography. Results: Corneal tomography showed a trend for a decreased mean keratometry in all four groups. Optical coherence tomography showed corneas with implants placed within the anterior stroma and visible flattening, whereas the corneas in the control group did not qualitatively change shape. Conclusions: The novel planoconcave biomaterial implant described herein could reshape the cornea in an ex vivo model, resulting in the flattening of the cornea. Further studies are needed using in vivo animal models to confirm such findings.
RESUMO Objetivo: Relatar um experimento projetado para determinar alterações anatômicas em córneas porcinas após a colocação de um novo implante de polímero na córnea. Métodos: Foi utilizado olho de porco ex vivo. Um novo agente modelador biocompatível, de colágeno tipo 1, com 6mm de diâmetro foi moldado com excimer laser em sua face posterior, para criar três formatos planocôncavos. Os implantes foram inseridos dentro de um bolsão, dissecado manualmente, a 200 micrômetros (μm). Foram definidos três grupos de tratamento: grupo A (n=3), teve a profundidade máxima de ablação de 70 μm; o grupo B (n=3), profundidade máxima de ablação de 64 μm; e o grupo C (n=3), profundidade máxima de ablação de 104 μm, com buraco central. O grupo controle, D (n=3), foi incluído, com a criação do bolsão estromal, porém sem inserir o material. A avaliação desses olhos foi realizada por tomografia de coerência óptica (OCT) e por tomografia corneana. Resultados: A tomografia corneana mostrou uma tendência para diminuição da ceratometria média em todos os 4 grupos. A tomografia de coerência óptica mostrou córneas com implantes localizados no estroma anterior e aplanamento visível, enquanto as córneas não mudaram qualitativamente o formato no grupo controle. Conclusões: O novo implante de biomaterial planocôncavo descrito aqui foi capaz de remodelar a córnea em modelo de animal ex vivo, resultando no aplanamento corneano. Novos estudos são necessários usando modelos animais in vivo para confirmar tais achados.
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Purpose: to evaluate biocompatibility and osteogenic potential of hydroxyapatite/alginate composite after its implantation on rat calvarian critical bone defect. Methods: thirty adults male Wistar rats were randomly distributed into two groups: GHA critical bone defect filled with hydroxyapatite/alginate composite granules (HA/Alg) and CG critical bone defect without biomaterial; evaluated at biological points of 15, 45 and 120 days. Results: the histomorphometrically analyses for GHA showed osteoid matrix deposition (OM) among the granules and towards the center of the defect in centripetal direction throughout the study, with evident new bone formation at 120 days, resulting in filling 4/5 of the initial bone defect. For CG, this finding was restricted to the edges of the bone margins and formation of connective tissue on the residual area was found in all biological points. Inflammatory response on GHA was chronic granulomatous type, discrete and regressive for all biological points. Throughout the study, the CG presented mononuclear inflammatory infiltrate diffuse and regressive. Histomorphometry analyses showed that OM percentage was evident for GHA group when compared to CG group in all analyzed periods (p > 0.05). Conclusions: the biomaterial evaluated at this study showed to be biocompatible, bioactive, osteoconductive and biodegradable synchronously with bone formation.
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Animais , Ratos , Materiais Biocompatíveis , Regeneração Óssea , Durapatita , AlginatosRESUMO
RESUMEN Introducción: Los tratamientos para fracturas de órbita se basan en la corrección del defecto de las lesiones orbitarias de tipo blow in y blow out (o de estallido), mediante diversas placas y mallas biocompatibles con el organismo, dándose una cicatrización de primera generación evitando un callo óseo y una fijación más rígida. Para el diagnóstico de este tipo de lesiones tenemos inflamación periorbitaria, enoftalmos, diplopía, equimosis, hemorragia subconjuntival. Existen diversos materiales reconstructivos siendo estos compuestos por distintas materias primas, como son los aloplásticos y autógenos; donde encontramos varios tipos como placas de titanio y las placas reabsorbibles siendo estas las más comunes y usadas actualmente, por su bajo estímulo a reabsorciones óseas y evitando efectos secundarios a largo plazo. Estas placas presentan diversos grados de ductilidad y resistencia. Se informó sobre varias complicaciones según el tipo de placas como es la cicatrización, las cirugías postquirúrgicas en caso de placas de titanio, etc. El objetivo de esta revisión es la evaluación de la eficacia las placas reabsorbibles versus placas de titanio en fracturas de órbita. Materiales y métodos: La investigación es de carácter documental, descriptivo y no experimental. En el cual se emplea una metodología de identificación e inclusión de artículos científicos tipo prisma. Resultados y conclusiones: Se verificaron las ventajas y desventajas tanto de las placas reabsorbibles como las de titanio siendo estas similares en la biocompatibilidad con el organismo humano, así como también varias diferencias como el soporte, fuerzas, resistencia de estas, concluyendo que es debatible el material ideal para tratar fracturas de órbita. Se seleccionaron artículos tomando en cuenta el título y objetivos; considerando estudios comparativos, revisiones sistemáticas, revisiones de literatura, los cuales comprendían criterios con respecto a fracturas de órbita y tratamientos quirúrgicos. La búsqueda arrojó 55 artículos en PubMed, 65 en Google, 4 en Scielo y 29 en Science direct, de los cuales se excluyeron libros, monografías, estudios experimentales, dando como resultado 21 artículos para el desarrollo de esta revisión bibliográfica. Y que fueron leídos y analizados en su totalidad, estudiando los objetivos, metodología y conclusión de cada uno de ellos para la posterior comparación.
ABSTRACT Introduction: Treatments for orbit fractures are based on the correction of the defect of blow in and blow out orbital injuries, by means of various plates and meshes biocompatible with the organism, giving a first-generation healing avoiding a bony callus and a more rigid fixation. For the diagnosis of this type of lesions we have periorbital inflammation, enophthalmos, diplopia, ecchymosis, subconjunctival hemorrhage. There are several reconstructive materials being these composed of different raw materials, such as alloplastic and autogenous, where we find several types such as titanium plates and resorbable plates being these the most common and currently used, for its low stimulus to bone resorption and avoiding long-term side effects. These plates have different degrees of ductility and resistance. Several complications have been reported depending on the type of plates, such as scarring, post-surgical surgeries in the case of titanium plates, etc. The objective of this review is to evaluate the efficacy of resorbable versus titanium plates in orbital fractures. Materials and methods: This research are a documentary, descriptive and non-experimental nature. A prism-type methodology of identification and inclusion of scientific articles was used. Results and conclusions: The advantages and disadvantages of both resorbable and titanium plates were verified, being these similar in biocompatibility with the human organism, as well as several differences such as support, forces, resistance of the same, concluding that it is debatable. The ideal material to treat orbital fractures. Articles were selected considering the title and objectives; considering comparative studies, systematic reviews, literature reviews, which included criteria regarding orbital fractures and surgical treatments. The search yielded 55 articles in PubMed, 65 in Google, 4 in Scielo and 29 in Science direct, from which books, monographs, experimental studies were excluded, resulting in 21 articles for the development of this bibliographic review. The 21 articles were read and analyzed in their entirety, studying the objectives, methodology and conclusion of each one of them for subsequent comparison.
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Humanos , Órbita/lesões , Placas Ósseas , Titânio , Materiais Biocompatíveis/uso terapêutico , Fraturas Ósseas/cirurgiaRESUMO
Objetivo: Discutir o tratamento cirúrgico secundário de uma fratura de órbita tipo Blow-Out, explorando os desafios e limitações relacionados a este padrão de fratura. Relato de Caso: Paciente sexo masculino, 50 anos, ASA I relatando histórico de agressão física e quatro cirurgias prévias em região orbitária direita. Clinicamente foram observados sinais como enoftalmo, hipoftalmo, encurtamento da pálpebra inferior, dificuldade de oclusão palpebral, entrópio, hiperemia em conjuntiva, além de presença de secreção purulenta, todos em região orbitária à direita. Diante do exposto, uma nova intervenção cirúrgica foi proposta pela Cirurgia e Traumatologia Bucomaxilofacial, na tentativa corrigir alguns problemas listados, além de encaminhamento a outras especialidades. Encontra-se em acompanhamento de um ano, com boa evolução. Conclusão: O tratamento de fraturas orbitárias é um dos mais desafiadores, especialmente quando se trata sequelas. A definição pelo melhor momento para realização destes procedimentos não é um consenso, sendo necessário uma avaliação clínica criteriosa. Apesar da utilização dos enxertos autógenos ser amplamente recomendada, os materiais aloplásticos vem se tornando a primeira escolha para tratamento das correções secundárias pelas diversas vantagens oferecidas.
Aim: To discuss the secondary surgical treatment of a Blow-Out orbit fracture, exploring the challenges and limitations related to this fracture pattern. Case report: Male patient, 50 years old, ASA I reporting a history of physical aggression and four previous surgeries in the right orbital region. Clinically, enophthalmos, hypophthalmos, shortening of the lower eyelid, difficulty in eyelid occlusion, entropion, hyperemia in the conjunctiva were observed, in addition to the presence of purulent secretion, all in the right orbit. In view of the above, a new surgical intervention was proposed by Buccomaxillofacial Surgery and Traumatology, in an attempt to correct some listed problems, in addition to referral to other specialties. He is being followed up for one year, with good progress. Conclusion: The treatment of orbital fractures is one of the most challenging, especially when dealing with sequelae. The definition of the best time to perform these procedures is not a consensus, requiring a careful clinical evaluation. Although the use of autogenous grafts is widely recommended, alloplastic materials are becoming the first choice for treating secondary corrections due to the several advantages offered.
Objetivo: Discutir el tratamiento quirúrgico secundario de una fractura orbitaria Blow-Out, explorando los desafíos y las limitaciones relacionadas con este patrón de fractura. Caso Clínico: Paciente masculino, 50 años, ASA I, que refi ere antecedentes de agresión física y cuatro cirugías previas en región orbitaria derecha. Clínicamente se observaron signos como enoftalmos, hipoftalmos, acortamiento del párpado inferior, difi cultad en la oclusión palpebral, entropión, hiperemia en la conjuntiva, además de la presencia de secreción purulenta, todos en la región orbitaria derecha. Ante lo anterior, se propuso una nueva intervención quirúrgica desde Cirugía Oral y Maxilofacial y Traumatología, en un intento de corregir algunos de los problemas enumerados, además de la derivación a otras especialidades. Está en seguimiento desde hace un año, con buena evolución. Conclusión: El tratamiento de las fracturas de órbita es uno de los más desafi antes, especialmente cuando se trata de secuelas. La defi nición del mejor momento para realizar estos procedimientos no es un consenso, lo que requiere una evaluación clínica cuidadosa. A pesar de que se recomienda ampliamente el uso de injertos autógenos, los materiales aloplásticos se han convertido en la primera opción para el tratamiento de correcciones secundarias debido a las múltiples ventajas que ofrecen.
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Humanos , Masculino , Pessoa de Meia-Idade , Órbita , Materiais Biocompatíveis , ViolênciaRESUMO
A Fibrina Rica em Plaquetas (PRF) é um material biológico feito do próprio sangue do paciente. É um material natural e não sintético. A PRF é rica em fatores de crescimento necessários para a cicatrização e o reparo tecidual. Também é rica em leucócitos, que são células do sistema imunológico que ajudam a proteger o paciente contra infecções. A PRF pode ser usada para acelerar o processo de cicatrização, redução da dor, do sangramento e melhora a estética do resultado final. Também pode ser usada para melhorar a eficácia de outros tratamentos médicos e odontológicos que vão desde Exodontia à aplicação na harmonização orofacial. Essa tecnologia pode ser usada na cirurgia oral e maxilofacial, implantodontia, periodontia, harmonização orofacial, cirurgia plástica, queimaduras, feridas crônicas, doenças degenerativas e doenças autoimunes. A PRF é uma tecnologia segura e eficaz que tem o potencial de melhorar a qualidade de vida de muitos pacientes.
Platelet Rich Fibrin (PRF) is a biological material made from the patient's own blood. It is a natural material and not synthetic. PRF is rich in growth factors necessary for tissue healing and repair. It is also rich in leukocytes, which are immune system cells that help protect the patient against infections. PRF can be used to accelerate the healing process, reduce pain and bleeding and improve the aesthetics of the final result. It can also be used to improve the effectiveness of other medical and dental treatments, ranging from extractions to orofacial harmonization. This technology can be used in oral and maxillofacial surgery, implant dentistry, periodontics, orofacial harmonization, plastic surgery, burns, chronic wounds, degenerative diseases and autoimmune diseases. PRF is a safe and effective technology that has the potential to improve the quality of life for many patients.
La fibrina rica en plaquetas (PRF) es un material biológico elaborado a partir de la propia sangre del paciente. Es un material natural y no sintético. PRF es rico en factores de crecimiento necesarios para la curación y reparación de tejidos. También es rico en leucocitos, que son células del sistema inmunológico que ayudan a proteger al paciente frente a infecciones. PRF se puede utilizar para acelerar el proceso de curación, reducir el dolor y el sangrado y mejorar la estética del resultado final. También se puede utilizar para mejorar la eficacia de otros tratamientos médicos y dentales, desde extracciones hasta armonización orofacial. Esta tecnología puede ser utilizada en cirugía oral y maxilofacial, implantología, periodoncia, armonización orofacial, cirugía plástica, quemaduras, heridas crónicas, enfermedades degenerativas y enfermedades autoinmunes. PRF es una tecnología segura y eficaz que tiene el potencial de mejorar la calidad de vida de muchos pacientes.