Culture of rat mesenchymal stem cells on PHBV-PCL scaffolds: analysis of conditioned culture medium by FT-Raman spectroscopy / Cultivo de células-tronco mesenquimais de rato sobre arcabouços de PHBV-PCL: análise do meio de cultura condicionado por espectroscopia de FT-Raman

Abstract Mesenchymal stem cells (MSCs) have great potential for application in cell therapy and tissue engineering procedures because of their plasticity and capacity to differentiate into different cell types. Given the widespread use of MSCs, it is necessary to better understand some properties related to osteogenic differentiation, particularly those linked to biomaterials used in tissue engineering. The aim of this study was to develop an analysis method using FT-Raman spectroscopy for the identification and quantification of biochemical components present in conditioned culture media derived from MSCs with or without induction of osteogenic differentiation. All experiments were performed between passages 3 and 5. For this analysis, MSCs were cultured on scaffolds composed of bioresorbable poly(hydroxybutyrate-co-hydroxyvalerate) (PHBV) and poly(ε-caprolactone) (PCL) polymers. MSCs (GIBCO®) were inoculated onto the pure polymers and 75:25 PHBV/PCL blend (dense and porous samples). The plate itself was used as control. The cells were maintained in DMEM (with low glucose) containing GlutaMAX® and 10% FBS at 37oC with 5% CO2 for 21 days. The conditioned culture media were collected and analyzed to probe for functional groups, as well as possible molecular variations associated with cell differentiation and metabolism. The method permitted to identify functional groups of specific molecules in the conditioned medium such as cholesterol, phosphatidylinositol, triglycerides, beta-subunit polypeptides, amide regions and hydrogen bonds of proteins, in addition to DNA expression. In the present study, FT-Raman spectroscopy exhibited limited resolution since different molecules can express similar or even the same stretching vibrations, a fact that makes analysis difficult. There were no variations in the readings between the samples studied. In conclusion, FT-Raman spectroscopy did not meet expectations under the conditions studied.

Resumo As células-tronco mesenquimais (MSCs) possuem grande potencial para aplicação em procedimentos terapêuticos ligados a terapia celular e engenharia de tecidos, considerando-se a plasticidade e capacidade de formação em diferentes tipos celulares por elas. Dada a abrangência no emprego das MSCs, há necessidade de se compreender melhor algumas propriedades relacionadas à diferenciação osteogênica, particularmente liga à biomateriais usados em engenharia de tecidos. Este projeto objetiva o desenvolvimento de uma metodologia de análise empregando-se a FT-Raman para identificação e quantificação de componentes bioquímicos presentes em meios de cultura condicionados por MSCs, com ou sem indução à diferenciação osteogênica. Todos os experimentos foram realizados entre as passagens 3 e 5. Para essas análises, as MSCs foram cultivadas sobre arcabouços de polímeros biorreabsorvíveis de poli (hidroxibutirato-co-hidroxivalerato) (PHBV) e o poli (ε-caprolactona) (PCL). As MSCs (GIBCO®) foram inoculadas nos polímeros puros e na mistura 75:25 de PHBV / PCL (amostras densas e porosas). As células foram mantidas em DMEM (com baixa glicose) contendo GlutaMAX® e 10% de SFB a 37oC com 5% de CO2 por 21 dias. A própria placa foi usada como controle. Os meios de cultura condicionados foram coletados e analisadas em FT-Raman para sondagem de grupos funcionais, bem como possíveis variações moleculares associadas com a diferenciação e metabolismo celular. Foi possível discernir grupos funcionais de moléculas específicas no meio condicionado, como colesterol, fosfatidilinositol, triglicerídeos, forma Beta de polipeptídeos, regiões de amida e ligações de hidrogênio de proteínas, além da expressão de DNA. Na presente avaliação, a FT-Raman apresentou como uma técnica de resolução limitada, uma vez que modos vibracionais de estiramento próximos ou mesmo iguais podem ser expressos por moléculas diferente, dificultando a análise. Não houve variações nas leituras entre as amostras estudadas, concluindo-se que a FT-Raman não atendeu às expectativas nas condições estudadas.

Progress in preparation and application of biomimetic nano carriers for cell membrane / 药学实践杂志

Nanocarriers prepared from organic or inorganic materials are widely used in drug targeting system and diagnosis and treatment of disease. However, there are some problems, such as poor targeting, short circulation time in vivo and improvement in the biocompatibility. Biomimetic nanocarriers has carried out research on the issues, which based on different kinds of cell membrane for the nanocarriers modification, endogenous biofilm improving the biocompatibility of carriers in vivo, more accurate targeting, and even producing immunotherapeutic effect. The principle, method, targeting mechanism and therapeutic effect of biomimetic nano carrier technology of cell membrane have been reviewed in this paper, which provide a new direction for the research of new drug delivery system.

Células madre en odontología: nuevas perspectivas / Stem cells in dentistry: new perspectives

En el campo de la odontología, prevalecen actualmente alternativas terapéuticas con una filosofía conservadora. Sin embargo, con el advenimiento de los tratamientos con células madre (CM), se amplían las posibilidades terapéuticas, que buscan la combinación y el equilibrio entre la intervención tradicional y las posibilidades de reposición de estructuras anatómicas dañadas, a través de la regeneración de tejidos utilizando células madre o sus derivados (AU)

In the dentistry field, therapeutic alternatives with a conservative philosophy currently prevail. However, with the advent of stem cell (SC) treatments, therapeutic possibilities are expanding, seeking a combination and balance between traditional intervention and the pos- sibility of replacing damaged anatomical structures through tissue regeneration, using stem cells or their derivatives (AU)

Análise comparativa entre técnicas cirúrgicas de enxertia óssea em reabilitação de maxila atrófica: transplante celular odontológico (TCO) e técnica convencional de enxertia óssea ­ relato de caso clínico / Comparative analysis between surgical techniques of bone grafting in rehabilitation of atrophic maxilla: dental cell transplantation (OCT) and conventional bone grafting technique - a case report

A reabilitação de maxila atrófica se apresenta ainda nos dias de hoje como um desafio anatômico/fisiológico para os profissionais da área odontológica que visam buscar a instalação de implantes para futuras reabilitações protéticas, tendo em vista o grau de dificuldade de reconstituição do rebordo alveolar perdido. Com o intuito de reabilitar essas maxilas frente às adversidades, diferentes técnicas são propostas tais como enxertos ósseos autógenos, homógenos, substitutos ósseos alógenos, xenógenos e aloplásticos e suas respectivas técnicas. O objetivo deste trabalho foi apresentar um relato de caso clínico, no qual duas técnicas de reconstituição de rebordo alveolar de hemi-arco foram realizadas na mesma maxila utilizando biomaterial em bloco, visando comparar os resultados histológicos e clínicos. Após 5 meses da realização da enxertia, foi coletado material dos enxertos alveolares bilateralmente utilizando-se brocas trefinas para estudo histológico. Através da metodologia empregada, pode-se observar maior formação de estrutura óssea no lado em que foi praticada a metodologia transplantes celular odontológico (TCO), que preconiza a associação de sangue medular mandibular ao biomaterial, em relação a técnica contralateral em que utilizou a metodologia convencional, que preconiza a associação ao biomaterial do sangue periférico. Pode-se observar através da metodologia empregada que a utilização de biomateriais potencializados com sangue medular mandibular apresentou maior crescimento de estrutura óssea, incrementando em torno de 35% a mais na neoformação.de osso vital.

The rehabilitation of atrophic maxilla is still presented today as an anatomical/physiological challenge for professionals in the dental field who aim to seek the installation of implants for future prosthetic rehabilitations, in view of the degree of difficulty in reconstituting the lost alveolar ridge. In order to rehabilitate these jaws in the face of adversity, different techniques are proposed such as autogenous, homogenous bone grafts, allogeneic, xenogenous and alloplastic bone substitutes and their respective techniques. The aim of this study was to present a clinical case report, in which two hemi-arch alveolar ridge reconstruction techniques were performed in the same maxilla using biomaterial en bloc, in order to compare the histological and clinical results. After 5 months of grafting, material was collected from the alveolar grafts bilaterally using trephine burs for histological study. Through the used methodology, it was possible to see greater bone formation of structure on the side in which the dental cell transplantation (TCO) methodology was practiced, which advocates the association of mandibular medullary blood to the biomaterial, in relation to the contralateral technique in which the methodology was used conventional method, which advocates the association with peripheral blood biomaterial. It can be observed through the used methodology that the use of biomaterials potentiated with mandibular medullary blood showed greater growth of bone structure, increasing around 35% more in the neoformation of vital bone.

A biocomplex to repair experimental critical size defects associated with photobiomodulation therapy

The association of scaffolds to repair extensive bone defects can contribute to their evolution and morphophysiological recomposition. The incorporation of particulate biomaterials into three-dimensional fibrin bioproducts together with photobiomodulation therapy (PBM) has potential and can improve regenerative medicine procedures. The objective of this experiment was to evaluate the effects of PBM therapy on critical size defects filled with xenogenic bone substitute associated with fibrin biopolymer. Methods: A critical defect of 8 mm was performed in 36 Wistar male adult rats that were divided into four groups. Groups BC and BC-PBM were defined as controls with defects filled by a clot (without or with PBM, respectively) and groups XS and XS-PBM that comprised those filled with biocomplex Bio-OssTM in association with fibrin biopolymer. PBM was applied immediately after the surgery and three times a week every other day, with the parameters: wavelength of 830 nm, energy density 6.2 J/cm2, output power 30 mW, beam area of 0.116 cm2, irradiance 0.258,62 W/cm2, energy/point 0.72 J, total energy 2.88 J. Fourteen and 42 days after the surgery, animals were euthanatized and subjected to microtomography, qualitative and quantitative histological analysis. Results: The BC-PBM and XS-PBM groups had a similar evolution in the tissue repair process, with a higher density of the volume of new formed bone in relation to the groups without PBM (p = 0.04086; p = 0.07093, respectively). Intense vascular proliferation and bone deposition around the biomaterial particles were observed in the animals of the groups in which biocomplex was applied (XS and XS-PBM). Conclusion: PBM therapy allowed an improvement in the formation of new bone, with a more organized deposition of collagen fibers in the defect area. Biocomplex favored the insertion and permanence of the particulate material in bone defects, creating a favorable microenvironment for accelerate repair process.(AU)

Progress in Biomechanics of Materials in 2021 / 医用生物力学

Tissue has a complex three-dimensional (3D) dynamic structure, and is affected by various forms of forces. Cells sense mechanical forces from extracellular matrix (ECM), and the mechanical micro-environment constructed by ECM regulates different biological functions of cells. To prepare biomaterials which can simulate the ECM mechanical micro-environment of tissues is one of the research hot spots and difficulties in biomechanical field. Different physical and chemical properties of biomaterials endow materials with specific mechanical properties, which further affect the behavior and function of cells. Based on the latest literature of biomechanics of materials in the year 2021, this study mainly focused on the role of novel mechanical biomaterials in regulating cell biological behavior and application in tissue engineering. The future development direction in the field of biomechanics of materials was also discussed.

Research progress on detection methods of pyrethroid insecticide residues in human biomaterials / 环境与职业医学

In recent years, due to the wide use of pyrethroid insecticides, the impact of pyrethroid insecticides on human health cannot be ignored. Therefore, how to detect pyrethroid insecticide residues in human body accurately and efficiently has become a research hotspot. However, it is difficult to detect pyrethroid insecticides because of its low residues and fast metabolism. Our article reviewed research on the detection of pyrethroid pesticide residues in human biomaterials in recent years, listed various pretreatment methods and detection methods of different biomaterials in detail, as well as summarized reported limits of detection, limits of quantitation, and recoveries of different methods. Finally, we prospected further development in detection methods of pyrethroid pesticide residues in human biomaterials.

Advances in self-assembled peptide hydrogels for bone regeneration / 中国药科大学学报

@#The development of osteoinductive bone-filling biomaterials for bone regeneration is of great significance.Self-assembled peptide hydrogels with high biomimetic extracellular matrix structure, low immunogenicity, easy synthesis and modification, and flexible loading capacity provide a highly efficient therapeutic platform for bone tissue repair.Herein, we discuss the design principles of self-assembled peptide hydrogels, report the structural characteristics and assembly mechanisms of self-assembled peptides, and highlight recent advances in self-assembled peptide hydrogels for bone regeneration, including delivery to cells , bone morphogenetic proteins, active factors and small molecular substances.Finally, the bottleneck and development direction of self-assembled peptide hydrogels are pointed out, aiming to provide guidance for the construction of hydrogel delivery systems with high osteogenic properties.

Research advances of three-dimensional bioprinting technology in urinary system tissue engineering / 生物医学工程学杂志

For the damage and loss of tissues and organs caused by urinary system diseases, the current clinical treatment methods have limitations. Tissue engineering provides a therapeutic method that can replace or regenerate damaged tissues and organs through the research of cells, biological scaffolds and biologically related molecules. As an emerging manufacturing technology, three-dimensional (3D) bioprinting technology can accurately control the biological materials carrying cells, which further promotes the development of tissue engineering. This article reviews the research progress and application of 3D bioprinting technology in tissue engineering of kidney, ureter, bladder, and urethra. Finally, the main current challenges and future prospects are discussed.

Research progress on action mechanism and clinical application of hyaluronic acid / 药学实践杂志

Hyaluronic acid is widely present in the human body. It is an important component of extracellular matrix. It has unique hydrodynamic properties, good viscoelasticity and strain properties. At present, hyaluronic acid has been widely used in biomaterials, targeted-drug preparations, cosmetics and prevention of adhesion after abdominal surgery. With the expansion of the application scope of hyaluronic acid and the continuous emergence of new medical materials, the research on hyaluronic acid has been increasing in recent years. This paper reviews the clinical application of hyaluronic acid and its mechanism, in order to provide reference for the further development and safe application of hyaluronic acid products.

Evaluation of tissue in repair with natural latex and / or hyaluronic acid in surgical bone defects

Abstract This study evaluated the bone repair in surgical defects of rats treated with hyaluronic acid (HA) associated or not with Hevea brasiliensis fraction protein (F-1). Bone defect were created in 15 albino Wistar rats divided into 3 groups (n=5): Control group (1) - blood clot; HA group (2) - 0.5% hyaluronic acid; HAF1 group (3) - 0.1% F-1 protein fraction dissolved in 0.5% hyaluronic acid. After 4 weeks, the animals were euthanized and the bone repair was evaluated through histomorphometric analysis, zymography and immunohistochemistry. The neoformed bone area did not show a significant difference (p = 0.757), but there was a tendency for bone trabeculation to increase in the groups HA and HAF1. For immunohistochemically analysis, there was a difference in vascular endothelial growth factor (VEGF) labeling (p = 0.023), being higher in the groups HA and HAF1 than the control group. No significant difference in bone sialoprotein (BSP) (p = 0.681), osteocalcin (p = 0.954), however, significant difference in platelet endothelial cell adhesion molecule-1 (CD-31) (p = 0.040), with HAF1 group being significantly lower than the control. For zymographic analysis, there was no significant difference for metalloproteinase-2 (MMP-2) (p = 0.068), but there was a tendency to increase MMP-2 in the HA group. Despite the influence on angiogenic factors and the apparent tendency for greater trabeculation in the HA and HAF1 groups, there was no significant difference in the area of ​​newly formed bone tissue in the analyzed period.

Resumo Este estudo avaliou o reparo ósseo em defeitos cirúrgicos de ratos tratados com ácido hialurônico (AH) associado ou não à fração proteica de Hevea brasiliensis (F-1). Foram criados defeitos ósseos em 15 ratos albinos Wistar divididos em 3 grupos (n = 5): Grupo controle (1) - coágulo sanguíneo; Grupo HA (2) - ácido hialurônico 0,5%; Grupo HAF1 (3) - fração proteica F-1 0,1% dissolvida em ácido hialurônico a 0,5%. Após 4 semanas, os animais foram submetidos à eutanásia e o reparo ósseo avaliado por meio de análise histomorfométrica, zimografia e imunohistoquímica. A área óssea neoformada não apresentou diferença significativa (p = 0,757), mas houve tendência de aumento da trabeculação óssea nos grupos HA e HAF1. Para a análise imunoistoquímica, houve diferença na marcação do fator de crescimento endotelial vascular (VEGF) (p = 0,023), sendo maior nos grupos HA e HAF1 do que no grupo controle. Nenhuma diferença significativa na sialoproteína óssea (BSP) (p = 0,681), osteocalcina (p = 0,954), no entanto, diferenças significativas foram encontradas para a molécula de adesão de células endoteliais plaquetárias-1 (CD-31) (p = 0,040), com o grupo HAF1 sendo significativamente inferior ao controle. Para a análise zimográfica, não houve diferença significativa para metaloproteinase-2 (MMP-2) (p = 0,068), mas houve tendência de aumento da MMP-2 no grupo HA. Apesar da influência sobre os fatores angiogênicos e da aparente tendência de maior trabeculação nos grupos HA e HAF1, não houve diferença significativa na área de tecido ósseo neoformado no período analisado.

Biomateriales compuestos para restauración ósea obtenidos mediante tecnologías basadas en el uso del campo electromagnético / Composite biomaterials for bone restoration obtained by technologies based on the use of the electromagnetic

Introducción: El panorama demográfico en el mundo está cambiando. La población mayor de 60 años es el segmento que está creciendo más rápidamente y en el que las enfermedades del tejido óseo se presentan con más frecuencia, lo que aumenta la demanda de materiales y tecnologías apropiadas para restaurar estos tejidos. Objetivo: Analizar la información que se ha generado sobre el desarrollo de biomateriales compuestos para la reparación ósea, con énfasis en la identificación de las tecnologías emergentes basadas en el uso del campo electromagnético, sus aplicaciones y potencialidades. Métodos: Se consultaron trabajos científicos publicados en libros, revistas, patentes y tesis. El 80 por ciento de la documentación seleccionada pertenece al periodo 2010-2019. Análisis e integración de la información: Los métodos identificados fueron clasificados en cinco grupos: electrodeposición química, ya sea por electrólisis, electroforesis o síntesis electroforética in situ; electroporación; electrohilado; control magnético distal y bioestimulación electromagnética de células y tejidos, directamente o por la introducción de dispositivos que convierten la energía electromagnética en energía mecánica. Conclusiones: Estos métodos permiten la conformación de matrices celulares y acelulares compuestas y, además, dispositivos bioestimuladores con control de los parámetros de construcción y acción, de tal manera, que se logran procesos con mayor grado de reproducibilidad y a la medida de los requerimientos específicos para cada paciente(AU)

Introduction: The global demographic panorama is changing. The population aged over 60 years is the fastest growing segment, as well as the one where bone tissue diseases are most common, increasing the demand of appropriate materials and technologies to restore those tissues. Objective: To analyze the information so far generated about the development of composite biomaterials for bone repair, with an emphasis on the identification of emerging technologies based on the use of the electromagnetic field, its applications and potential. Methods: An analysis was performed of scientific papers published in books, journals, patents and theses. Of the documentation selected, 80 percent was from the period 2010-2019. Data analysis and integration: The methods identified were classified into five groups: chemical electrodeposition, be it by in situ electrophoretic synthesis, electrolysis or electrophoresis; electroporation; electrospinning; distal magnetic control and electromagnetic biostimulation of cells and tissues, either directly or incorporating devices which convert electromagnetic energy into mechanical energy. Conclusions: These methods permit the conformation of composite cellular and acellular matrices as well as biostimulator devices controlling construction and action parameters in such a way that the processes obtained display greater reproducibility and are more in keeping with the specific requirements of each patient(AU)

Impacto clínico del estroncio y del zinc en los procesos de regeneración ósea y del cartílago, aproximación desde la biología hacia la clínica. Revisión de literatura / Clinical impact of strontium and zinc on bone and cartilage regeneration processes, an approach from biology to the clinic. Literature review

Muchos trastornos sistémicos como la artritis o la osteoporosis son patologías responsables de las alteraciones crónicas de la articulación temporomandibular, creando así un problema a largo plazo que afectan la calidad de vida de aquellas personas que las padecen. Actualmente no existe tratamiento curativo para dichas patologías, aunque sí de tipo paliativo, que en muchas ocasiones tienen efectos secundarios en el tiempo o una limitación en su efectividad y eficacia, por lo que se hace necesario buscar alternativas con la implementación de terapias regenerativas para el tratamiento de aquellas enfermedades que afectan el sistema musculoesquelético. En muchos estudios se discute sobre el papel fundamental que cumple el zinc y el estroncio en la génesis de tejido tanto cartilaginoso como óseo, así como la relevancia de incorporarlos con diversos biomateriales en procedimientos de regeneración, sin embargo, este tema no es claro aún y requieren más aten- ción por parte del clínico. El objetivo de este artículo es determinar la función cumplen el zinc y el estroncio en los procesos de regeneración del hueso y el cartílago desde una visión molecular y celular aplicada a la práctica clínica, con el fin de obtener nuevas alternativas en el tratamiento de diversas patologías y alteraciones musculoesqueléticas que mejoren las condiciones de salud oral de los pacientes, además de, contar con la revisión que nos aproxime a comprender los mecanismos de acción de diferentes moléculas que incorporadas a los biomateriales compatibles con el tejido duro y blando mejoren las condiciones biológicas para la regeneración.

Many systemic disorders such as arthritis or osteoporosis are pathologies responsible of temporomandibular joint chronic dysfunctions, thus creating a long-term problem that affects life ́s quality of those who suffer from them. Currently there is no curative treatment for these pathologies, although there is a palliative treatment, which in many cases have side effects over time or a limitation in their effectiveness and efficacy, so it is necessary to look for alternatives with the implementation of regenerative therapies for treatment of those diseases that affect musculoskeletal system. In many studies the fundamental role of zinc and strontium in genesis of both cartilaginous and bone tissue is discussed, as well as the relevance of incorporating them with various biomaterials in regeneration procedures, however, this issue is not clear yet and requires more attention from the clinician. The objective of this article is to determine function of zinc and strontium in regeneration processes of bone and cartilage from a molecular and cellular perspective applied to clinical practice, in order to obtain new alternatives in the treatment of various pathologies and musculoskeletal alterations that improve the oral health conditions of patients. In addition, this review brings us closer to understanding the mechanisms of action of different molecules that when incorporated into biomaterials compatible with hard and soft tissue improve the biological conditions for the regeneration.

Histological comparison between biphasic calcium phosphate and deproteinized bovine bone on critical-size bone defects

Abstract The limited options for bone repair have led to an extensive research of the field and the development of alloplastic and xenogeneic grafts. The purpose of this study was to evaluate bone repair with two bone substitutes: deproteinized bovine bone (DBB) and biphasic calcium phosphate ceramic (BCP) in critical-size defect. A total of 8-mm defects were made in the parietal bones of rabbits (n=12). The animals were divided into three experimental groups: sham (defect filled with a blood clot), DBB (defect filled with DBB), and BCP (defect filled with BCP). After the experimental periods of 15 and 45 days, the animals were euthanized and submitted to histomorphometric analysis. The total defect area, mineralized tissue area, biomaterial area, and soft tissue area were evaluated. A greater amount of immature bone tissue and biomaterial particles were observed in the BCP group compared to DBB and sham at 45 days (p<0.05). There was no difference in the qualitative pattern of bone deposition between DBB and BCP. However, the sham group did not show osteoid islands along with the defect, presenting a greater amount of collagen fibers as well in relation to the DBB and BCP groups. There was a greater number of inflammatory cells in the DBB at 45 days compared to BCP and sham groups. In conclusion, BCP and DBB are options for optimizing the use of bone grafts for maxillofacial rehabilitation. Bone defects treated with BCP showed greater deposition of bone tissue at 45 days.

Resumo As opções limitadas para reparo ósseo levaram ao desenvolvimento de abrangente pesquisa na área de enxertos aloplásticos e xenogênicos. O objetivo deste estudo foi avaliar o reparo ósseo com dois substitutos ósseos: osso bovino desproteinizado (DBB) e cerâmica fosfática de cálcio bifásica (BCP) em defeito de tamanho crítico. Material e métodos: defeitos críticos de 8 mm foram feitos nos ossos parietais de coelhos (n=12). Os animais foram divididos em três grupos experimentais: sham (defeito preenchido com coágulo sanguíneo), DBB (defeito preenchido com DBB) e BCP (defeito preenchido com BCP). Após os períodos experimentais de 15 e 45 dias, os animais foram sacrificados e submetidos à análise histomorfométrica. Foram avaliadas a área total de defeitos, área de tecidos mineralizados, área de biomateriais e área de tecidos moles. Resultados: maior quantidade de tecido ósseo imaturo e de partículas de biomaterial foram observados no grupo BCP em comparação aos grupos DBB e sham aos 45 dias (p<0,05). Não houve diferença no padrão qualitativo de deposição óssea entre DBB e BCP. Ainda, o grupo sham não apresentou ilhas osteóides ao longo do defeito, apresentando maior quantidade de fibras colágenas em relação aos grupos DBB e BCP. Houve maior quantidade de células inflamatórias no DBB aos 45 dias em comparação aos grupos BCP e sham. Conclusões: BCP e DBB são opções para otimizar o uso de enxertos ósseos na reabilitação de pacientes. Defeitos ósseos tratados com BCP mostraram maior deposição de tecido ósseo aos 45 dias.

Uso da túnica vaginal canina conservada em glicerina a 98% como curativo biológico no tratamento de feridas cutâneas produzidas em ratos Wistar / Use of canine vaginal tunic preserved in 98% glycerin as biological curative in the treatment of skin produced in wound Wistar rats

Na procura por material alternativo no tratamento de feridas cutâneas, buscou-se com este estudo avaliar o comportamento da túnica vaginal canina conservada em glicerina a 98% como curativo biológico no tratamento de feridas cutâneas provocadas experimentalmente em ratos. Foram utilizados 16 ratos Wistar, nos quais foram induzidas experimentalmente duas lesões cutâneas na região dorsal, sendo uma cranial e a outra caudal. Uma ferida serviu de controle, a qual não recebeu tratamento, a outra recebeu a túnica vaginal recobrindo toda extensão da lesão. A seleção de qual das feridas, cranial ou caudal, iria receber a membrana foi feita de forma aleatória. Os animais foram distribuídos em quatro grupos de igual número para análises clínicas, macroscópicas e histológicas decorridos três, sete, 14 e 21 dias de pós-operatório. Na avaliação clínica e macroscópica pode-se observar que o processo de reparação teve evolução semelhante tanto no grupo controle quanto no grupo membrana. Na análise histopatológica foi constatada grande quantidade de infiltrado inflamatório nos períodos iniciais, no entanto, decorridos 21 dias, a epiderme já se encontrava reparada, e em todos os momentos foi observada maior presença de tecido conjuntivo no grupo membrana, sugerindo maior precocidade na cicatrização. Deste modo, concluiu-se que a túnica vaginal canina pode ser utilizada como nova alternativa no tratamento de feridas cutâneas.

In the search for alternative material in the treatment of cutaneous wounds, this study aimed to evaluate the behavior of canine vaginal tunic conserved in glycerin 98% as a biological dressing in the treatment of cutaneous wounds provoked experimentally in rats. Sixteen animals were used in which two cutaneous lesions were caused in the dorsal region, one cranial and the other caudal. One wound served as a control which did not receive treatment, the other received the vaginal tunic covering all extension of the lesion. The selection of which of the wounds, cranial or caudal, would receive the membrane was made at random. The animals were divided into four groups of equal numbers for clinical, macroscopic, and histological analyzes after three, seven, 14 and 21 postoperative days. In the clinical and macroscopic evaluation, it can be observed that the healing process had similar evolution in both the control group and the membrane group. In the histopathological analysis, a large amount of inflammatory infiltrate was observed in the initial periods; however, after 21 days the epidermis was already healed, and at all times a greater presence of connective tissue was observed in the membrane group, suggesting a greater precocity in healing. Thus, it was concluded that the canine vaginal tunic can be used as a new alternative in the treatment of cutaneous wounds.

Matriz extracelular de la submucosa de intestino delgado (mec- sid; sid) como biomaterial versátil en medicina regenerativa basada en ingeniería de tejidos / Extracellular matrix of small intestine submucose (mec-sid; sid) as a versatile biomaterial in regenerative medicine based on tissue engineering

Resumen Durante las últimas décadas, la submucosa del intestino delgado (SID), una matriz extracelular descelularizada (MEC) de origen natural, ha atraído atención en la reparación de tejidos porque puede proporcionar abundantes factores bioactivos y un microambiente biomimético de tres dimensiones para inducir las funciones celulares deseadas. En este artículo se revisan las últimas investigaciones sobre SID, que se centran en los siguientes aspectos: superioridad principal como una notable bioactividad, baja inmunogenicidad, reabsorbibilidad y capacidad de recelularización. Se reporta como la adhesión, proliferación, migración y diferenciación de las células se ve influenciada cuando son depositadas sobre este soporte, debido a sus características. Se presenta el gran potencial de este biomaterial para resolver los problemas de cuello de botella que se encuentran en la reparación de varios tejidos, convirtiéndola en un excelente biomaterial para uso en medicina regenerativa basada en ingeniería de tejidos. Palabras clave: Reparación de tejidos, matriz extracelular, Biomateriales, Ingeniería de tejidos, Propiedades fisicoquímicas.

Over the past decades, the small intestine submucosa (SID), a naturally occurring decellularized extracellular matrix (ECM), has attracted attention in tissue repair because it can provide abundant bioactive factors and a three-dimensional biomimetic microenvironment to induce the functions desired cell phones. This article reviews the latest research on SID, which focuses on the following aspects: main superiority as remarkable bioactivity, low immunogenicity, resorbability and recellularization capacity. It is reported how the adhesion, proliferation, migration and differentiation of cells is influenced when they are deposited on this support, due to its characteristics. The great potential of this biomaterial is presented to solve the bottleneck problems found in the repair of various tissues, making it an excellent biomaterial for use in regenerative medicine based on tissue engineering.

Técnica de apexificación con un sustituto bioactivo de la dentina en una sola sesión: caso clínico / Apexification technique with a bioactive dentin substitute in a single session: a clinical case

Las piezas con necrosis pulpar y ápice abierto son un desafío de la práctica clínica endodóntica. Durante mucho tiempo estas piezas han sido tratadas con la técnica de apexificación con hidróxido de calcio. Esta técnica estimula la formación de una barrera calcificada a nivel apical, pero a partir de varias sesiones de tratamiento y los riesgos asociados que esto conlleva. Hoy en día, con el desarrollo de nuevas tecnologías, están a disposición materiales biocerámicos que permiten realizar el protocolo en una sola sesión. El Biodentine es un biocerámico con tiempo de fraguado corto y buena capacidad de sellado, que permite reducir los tiempos clínicos. El objetivo de este trabajo es presentar un caso clínico de una pieza dentaria diagnosticada con necrosis pulpar y con apicoformación incompleta, tratada con una técnica de apexificación con Biodentine en una sesión (AU)

Biomaterials for bone regeneration: an orthopedic and dentistry overview

Because bone-associated diseases are increasing, a variety of tissue engineering approaches with bone regeneration purposes have been proposed over the last years. Bone tissue provides a number of important physiological and structural functions in the human body, being essential for hematopoietic maintenance and for providing support and protection of vital organs. Therefore, efforts to develop the ideal scaffold which is able to guide the bone regeneration processes is a relevant target for tissue engineering researchers. Several techniques have been used for scaffolding approaches, such as diverse types of biomaterials. On the other hand, metallic biomaterials are widely used as support devices in dentistry and orthopedics, constituting an important complement for the scaffolds. Hence, the aim of this review is to provide an overview of the degradable biomaterials and metal biomaterials proposed for bone regeneration in the orthopedic and dentistry fields in the last years.

The new bone formation in human maxillary sinuses using two bone substitutes with different resorption types associated or not with autogenous bone graft: a comparative histomorphometric, immunohistochemical and randomized clinical study

Abstract Objective The aim of this study is to evaluate the new bone and connective tissue formation and the biomaterial remaining after maxillary sinus bone augmentation using 5 different bone substitutes. The osteocalcin immunolabeling was performed to demonstrate their calcification and the possibility of receiving dental implants. Methodology 40 patients underwent maxillary sinus bone augmentation and were divided in 5 groups: Group 1 with 8 maxillary sinuses were grafted with autogenous bone graft (AB); Group 2 with 8 maxillary sinuses grafted with bioactive glass (BG); Group 3 with 8 maxillary sinuses grafted with bioactive glass added to autogenous bone graft (BG + AB) 1:1; Group 4 with 8 maxillary sinuses grafted with Bio-Oss (BO) and Group 5 with 8 maxillary sinuses grafted with Bio-Oss added to autogenous bone graft (BO + AB) 1:1. Results In group AB, 37.8% of bone was formed in the pristine bone region, 38.1% in the intermediate and 44.5% in the apical region. In group BG, 43.6% was formed in the pristine bone, 37% in the intermediate and 49.3% in the apical region. In group BG + AB 1:1, 39.0% was formed in the pristine bone region, 34.8% in the intermediate and 36.8% in apical region. In group BO, 33.4% was formed in the pristine bone, 32.5% in the intermediate and 34.3% in the apical region. In group BO + AB 1:1, 32.8% was formed in the pristine bone, 36.1% in intermediate and 27.8% in the apical regions. The immunolabeling for osteocalcin showed an intensive staining for all groups, which could demonstrate the calcification of the bone formed. Conclusion This study showed that the groups evaluated formed a suitable lamellar bone in the maxillary sinus reconstruction after six months of bone healing, thus being indicated to receive dental implants.

Research progress on tumor hyperthermia / 中华放射肿瘤学杂志

In recent years, increasing evidence has shown that hyperthermia is safe, effective and causes low toxicity. Hyperthermia can exert synergistic effect with other treatments, such as radiotherapy and chemotherapy. It has become an important adjuvant anti-tumor treatment secondary to surgery, chemotherapy, radiotherapy and biological treatment. Hyperthermia can improve the efficacy of radiotherapy and chemotherapy by directly inhibiting tumor cells and heat-induced radiosensitizing effect. Hence, hyperthermia is gradually applied in the multimodality treatment of tumors. In this article, we intend to review the research progress on the application of tumor hyperthermia in conventional radiotherapy, chemotherapy, immunotherapy and new biomaterials.