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INTRODUCTION: Additive manufacturing is a tool with potential use in medicine and dentistry. The manufacture of metals and composites is already advanced, however, concerns about titanium hypersensitivity, tissue staining, and corrosion caused by gradual material degradation encourage research into more biocompatible alternatives. OBJECTIVE: This systematic scoping review aimed to gather studies that evaluated zirconia implants produced by additive manufacturing to describe the current stage of the printing technique and the final product. METHODS: Searches in Embase, PubMed, SCOPUS, Web of Science, and Google Scholar databases were enriched with manual searches between February and March 2021 and updated in June 2022 using keywords: zirconium implants, zirconium oxide, additive manufacturing, rapid prototyping, 3D printing, selective laser melting, and electron beam melting. The criteria included studies that evaluated or described zirconia implants obtained by 3D printing, with a direct relationship to dentistry or orthopedics. RESULTS: The database search resulted in 671 articles. Eight articles were selected for full reading and remained in this systematic review. CONCLUSION: The printing technique for zirconia implants is promising. However, further studies are required before implants produced by the printing technique can be tested clinically. The literature with results regarding the impression product is still limited.
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Implantes Dentários , Zircônio , Impressão Tridimensional , TitânioRESUMO
As a consequence of technological advances, the number of devices has increased, with the emergence of different smartphones, tablets, and smartwatches present in both personal and professional activities. As a result, mobile applications have been developed, and with them comes the need for techniques and methods that provide support for conducting evaluation and prototyping since the current approaches are limited and cannot support the complexity and the need for understanding the context. The overall goal of the study is to evaluate the applicability of adopting a situated and embodied approach to mobile application usability testing. The aspects of postmodern and phenomenological approaches were taken into consideration. The study was conducted using the technique of digital ethnography, in particular the re-enactment technique, combined with qualitative research techniques to capture the evidence that the situated and embodied approach allows for capturing the perceptions and experience of the participants about the use of the application under evaluation. As motivation, there is the theoretical and methodological evolution and contribution and the proof that the postmodern and situated approach allows us to evaluate the usability of mobile applications in a complete way, considering the context and the user experience. The results show aspects of experience, reflections, perceptions, contingencies, practices, and meanings that go beyond the complexity of interactions and context with the use of the application, reinforcing the effectiveness of the use of the situated prototyping approach.
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INTRODUCTION: The preparation of parallel axial wall guide planes in abutment teeth is essential for providing a correct path of insertion and removal axis for removable partial dentures (RPDs). With the introduction of digital resources, new alternatives to the conventional method can be used to manufacture guide preparation for guide planes. AIMS: To describe the use of computer-aided design/computer-aided manufacturing (CAD/CAM) technology for the manufacture of guide planes to guide the reduction of the axial walls of abutment teeth according to the insertion and removal axis of the RPD. METHODS: This technique used the "bite splint" module of the Dental Wings software for the virtual planning of guide planes, to promote the construction of axial walls parallel to the abutment teeth. This was performed from the virtual design on a standard tessellation language (STL) file obtained by intraoral scanning, which determined the best trajectory for insertion and removal of the metallic structure. CONCLUSION: Digital technology allows the design and production of guide planes for the preparation of abutment teeth, simplifying the conventionally used technique, with precision and speed.
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Desenho Assistido por Computador , Prótese Parcial Removível , Humanos , TecnologiaRESUMO
There is a massive demand to identify alternative methods to detect new cases of COVID-19 as well as to investigate the epidemiology of the disease. In many countries, importation of commercial kits poses a significant impact on their testing capacity and increases the costs for the public health system. We have developed an ELISA to detect IgG antibodies against SARS-CoV-2 using a recombinant viral nucleocapsid (rN) protein expressed in E. coli. Using a total of 894 clinical samples we showed that the rN-ELISA was able to detect IgG antibodies against SARS-CoV-2 with high sensitivity (97.5%) and specificity (96.3%) when compared to a commercial antibody test. After three external validation studies, we showed that the test accuracy was higher than 90%. The rN-ELISA IgG kit constitutes a convenient and specific method for the large-scale determination of SARS-CoV-2 antibodies in human sera with high reliability.
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There is a massive demand to identify alternative methods to detect new cases of COVID-19 as well as to investigate the epidemiology of the disease. In many countries, importation of commercial kits poses a significant impact on their testing capacity and increases the costs for the public health system. We have developed an ELISA to detect IgG antibodies against SARS-CoV-2 using a recombinant viral nucleocapsid (rN) protein expressed in E. coli. Using a total of 894 clinical samples we showed that the rN-ELISA was able to detect IgG antibodies against SARS-CoV-2 with high sensitivity (97.5%) and specificity (96.3%) when compared to a commercial antibody test. After three external validation studies, we showed that the test accuracy was higher than 90%. The rN-ELISA IgG kit constitutes a convenient and specific method for the large-scale determination of SARS-CoV-2 antibodies in human sera with high reliability.
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PURPOSE: This in vitro study evaluated the dimensional accuracy of three 3D printers and one milling machine with their respective polymeric materials using a simplified geometrical model. MATERIALS AND METHODS: A simplified computer-aided design (CAD) model was created. The test samples were fabricated with three 3D printers: a dental desktop stereolithography (SLA) printer, an industrial SLA printer, and an industrial fused deposition modeling (FDM) printer, as well as a 5-axis milling machine. One polymer material was used per industrial printer and milling machine while two materials were used with the dental printer for a total of five study groups. Test specimens were then digitized using a laboratory scanner. The virtual outer caliper method was used to measure the linear dimensions of the digitized 3D printed and milled specimens in x-, y-, and z-axes, and compare them to the known values of the CAD model. Data were analyzed with Kruskal-Wallis one-way ANOVA on Ranks followed by the Tukey's test. RESULTS: Milled specimens were not significantly different from the CAD model in any dimension (p > 0.05). All 3D printed specimens were significantly different from the CAD model in all dimensions (p = 0.01), except the dental SLA 3D printer with one of the polymers tested (Bis-GMA) which was not significantly different in two (x and z) dimensions (p = 0.4 and p = 0.12). CONCLUSIONS: The milling technology tested provided greater dimensional accuracy than the selected 3D printing. Printer, printing technology, and material selection affected the accuracy of the printed model.
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Desenho Assistido por Computador , Estereolitografia , Polímeros , Impressão TridimensionalRESUMO
PURPOSE OF REVIEW: This narrative will focus on the adoption of design thinking to improve patient-centered care innovation in Orthopedics. RECENT FINDINGS: The literature reveals a complete set of applications of the design thinking approach in the different stages of the patient experience throughout the health context; however, the papers identified focus on specific parts of the process, and there is no systemic analysis about the different aspects involved in each stage of the complete experience. This review presents a holistic analysis concerning the application of design thinking to the distinct phases of innovation development in orthopedics, from the identification of the specific initial challenges up to the introduction of technology-based artifacts, such as innovations in the musculoskeletal health market. Systematic description of design thinking application to orthopedics, including concepts, methods, tools, and implementation examples in the most relevant phases of the patient experience-clinical treatment, perioperative care, and rehabilitation.
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3D printing is a technology that describes a manufacturing process previously planned and designed in a computer to create an object 1,2. This technology was introduced in dentistry by Chuck Hull since 1986 and allowed the automation and thus improved dental workflow 2. Technologies used in 3D printing involves: Stereolithography (SLA), bioprinting, fused deposition modeling (FDM), selective laser sintering (SLS), and PolyJet printing. We can choose one of them depending on the clinical use and material, need of accuracy among others. To 3D printing you need to use a scanner with an integrated software in order to capture the 3D images of the object being scanned. Those 3D images are stored in Standard Tessellation Language (STL) file 3. But what "Tessellation" means? Tessellation is the covering process of a surface, using one or more geometric shapes, with no overlaps and no gaps. It meansthat the object scanned is copied in detail with high reliability and then can be printed.
La impresión 3D es una tecnología que describe un proceso de fabricación previamente planificado y diseñado en un computador para crear un objeto. Esta tecnología fue introducida en odontología por Chuck Hull desde 1986 y permitió la automatización y, por lo tanto, mejoró el flujo de trabajo del consultorio. Las tecnologías utilizadas en la impresión 3D incluyen: estereolitografía (SLA), bioimpresión, modelado por deposición fundida (FDM), sinterización selectiva por láser (SLS) e impresión PolyJet. Podemoselegir uno de ellos dependiendo del uso clínico y material, necesidad de precisión entre otros.Para la impresión 3D, debe usar un escáner con un software integrado para capturar las imágenes 3D del objeto que se escanea. Esas imágenes 3D se almacenan en el archivo de Lenguaje estándar de teselado (STL). Pero, ¿qué significa "Teselado"? El teselado es el proceso de recubrimiento de una superficie, utilizando una o más formas geométricas, sin superposiciones ni espacios. Significa que el objeto escaneado secopia en detalle con alta confiabilidad y luego se puede imprimir.
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PURPOSE: The progressive expansion of the technology that facilitates the development of three-dimensional (3D) printing within the field of otorhinolaryngology has opened up a new study front in medicine. The objective of this study is to systematically review scientific publications describing the development of 3D models having applications in otorhinolaryngology, with emphasis on subareas with a large number of publications, as well as the countries in which the publications are concentrated. METHODS: In this literature review, specific criteria were used to search for publications on 3D models. The review considered articles published in English on the development of 3D models to teach otorhinolaryngology. The studies with presurgical purposes or without validation of the task by surgeons were excluded from this review. RESULTS: This review considered 39 articles published in 10 countries between 2012 and 2021. The works published prior to 2012 were not considered as per the inclusion criteria for the research. Among the 39 simulators selected for review, otology models comprised a total of 15 publications (38%); they were followed by rhinology, with 12 (31%); laryngology, with 8 (21%); and head and neck surgery, with 4 publications (10%). CONCLUSION: The use of 3D technology and printing is well established in the context of surgical education and simulation models. The importance of developing new technological tools to enhance 3D printing and the current limitations in obtaining appropriate animal and cadaver models signify the necessity of investing more in 3D models.
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Otolaringologia , Impressão Tridimensional , HumanosRESUMO
This report describes the first use of a novel workflow for in-house computer-aided design (CAD) for application in a resource-limited surgical outreach setting. Preoperative computed tomography imaging obtained locally in Haiti was used to produce rapid-prototyped 3-dimensional (3D) mandibular models for 2 patients with large ameloblastomas. Models were used for patient consent, surgical education, and surgical planning. Computer-aided design and 3D models have the potential to significantly aid the process of complex surgery in the outreach setting by aiding in surgical consent and education, in addition to expected surgical applications of improved anatomic reconstruction.
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Reconstrução Mandibular , Cirurgia Assistida por Computador , Desenho Assistido por Computador , Haiti , Humanos , Mandíbula/cirurgia , Reconstrução Mandibular/métodos , Modelos Anatômicos , Impressão TridimensionalRESUMO
The aim of this study was to evaluate and compare the resistance to fracture of interim restorations obtained through additive techniques (3D impressions) and subtractive techniques (milling) using a computer-aided design and manufacture (CAD/CAM) system of a three-unit fixed dental prosthesis (FDP) to ascertain its clinical importance. (1) Materials and methods: In total, 40 samples were manufactured and divided into two groups (n = 20) using: (1) light-curing micro hybrid resin for temporary crowns and bridges (PriZma 3D Bio Prov, MarketechLabs, São Paulo, Brazil) for the rapid prototyping group (RP) and (2) a polymethylmethacrylate (PMMA) CAD/CAM disc (Vipiblock Trilux, VIPI, São Paulo, Brazil) for the computer-assisted milling (CC). The resistance to fracture was determined with a universal testing machine. (2) Results: The strength and the standard deviation for the computer-assisted milling group were higher (1663.57 ± 130.25 N) than the rapid prototyping (RP) group, which had lower values of (1437.74 ± 73.41 N). (3) Conclusions: The provisional restorations from the computer-assisted milling group showed a greater resistance to fracture than the provisional restorations obtained from the rapid prototyping group.
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This paper aimed at reporting the creation of brachycephalic and dolichocephalic 3D synthetic anatomical models of canine heads (3D SAMCH) as a complementary technique to traditional osteotechnique using Computed Tomography (CT) images in volumetric reconstruction. The study was carried out in three stages, namely: a) preparation of canine heads in natura; b) creation of digital files of canine heads using CT; and c) 3D printing of synthetic anatomical models of canine heads. As a result, two 3D SAMCH were produced due to rarer availability in Animal Anatomy laboratories collections; the important representation of the cribriform plate was possible, but a remarkable defect presented was the teeth. It concluded that the digital files creation through CT scanner allows a fine representation of canine heads if considered pros and cons regarding the use of synthetic models instead of natural bones.
O objetivo deste trabalho foi relatar a criação de modelos anatômicos 3D sintéticos de cabeças de cães braquicé-falo e dolicocéfalo (3D SAMCH) como técnica complementar à osteotécnica tradicional por meio de imagens de Tomografia Computadorizada (TC) para reconstrução volumétrica. O estudo foi realizado em três etapas, a saber: a) preparação do esque-leto de cabeças caninas in natura; b) criação de arquivos digitais de cabeças caninas por meio da TC; e, c) impressão 3D de modelos anatômicos sintéticos de cabeças caninas. Como resultado, dois modelos 3D SAMCH foram produzidos devido à disponibilidade mais rara das respectivas peças anatômicas originais nos acervos dos laboratórios de Anatomia Animal; a importante representação da placa cribriforme foi possível, mas um defeito notável apresentado nos modelos sintéticos foram os dentes. Conclui-se que a criação de arquivos digitais por meio da tomografia computadorizada permitiu uma representação precisa das cabeças caninas se considerados os prós e os contras quanto ao uso de modelos sintéticos em vez de ossos naturais.
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Animais , Cães , Crânio , Impressão Tridimensional , Mandíbula , Cães/anatomia & histologiaRESUMO
This paper aimed at reporting the creation of brachycephalic and dolichocephalic 3D synthetic anatomical models of canine heads (3D SAMCH) as a complementary technique to traditional osteotechnique using Computed Tomography (CT) images in volumetric reconstruction. The study was carried out in three stages, namely: a) preparation of canine heads in natura; b) creation of digital files of canine heads using CT; and c) 3D printing of synthetic anatomical models of canine heads. As a result, two 3D SAMCH were produced due to rarer availability in Animal Anatomy laboratories collections; the important representation of the cribriform plate was possible, but a remarkable defect presented was the teeth. It concluded that the digital files creation through CT scanner allows a fine representation of canine heads if considered pros and cons regarding the use of synthetic models instead of natural bones.(AU)
O objetivo deste trabalho foi relatar a criação de modelos anatômicos 3D sintéticos de cabeças de cães braquicé-falo e dolicocéfalo (3D SAMCH) como técnica complementar à osteotécnica tradicional por meio de imagens de Tomografia Computadorizada (TC) para reconstrução volumétrica. O estudo foi realizado em três etapas, a saber: a) preparação do esque-leto de cabeças caninas in natura; b) criação de arquivos digitais de cabeças caninas por meio da TC; e, c) impressão 3D de modelos anatômicos sintéticos de cabeças caninas. Como resultado, dois modelos 3D SAMCH foram produzidos devido à disponibilidade mais rara das respectivas peças anatômicas originais nos acervos dos laboratórios de Anatomia Animal; a importante representação da placa cribriforme foi possível, mas um defeito notável apresentado nos modelos sintéticos foram os dentes. Conclui-se que a criação de arquivos digitais por meio da tomografia computadorizada permitiu uma representação precisa das cabeças caninas se considerados os prós e os contras quanto ao uso de modelos sintéticos em vez de ossos naturais.(AU)
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Animais , Cães , Impressão Tridimensional , Crânio , Mandíbula , Cães/anatomia & histologiaRESUMO
Congenital anomalies are hereditary or acquired, and their location and intensity are determining factors for the survival of animals. Some cases are rare, often unidentified, poorly reported and of unknown etiology. This paper reports a congenital malformation in a French bulldog, demonstrating the importance of accurate diagnosis for surgical decisions. The use of new technologies such as computed tomography and rapid prototyping enables the analysis of morphofunctional changes, resulting in excellent results for clinical cases in which it is difficult to identify and scale the anatomical deformities. Through this feature, it is possible to accurately recreate anatomical structures of interest, enabling greater assertiveness in deciding the treatment to be established, whether surgical or not. Castration of animals that survive this condition due to hereditary etiology is recommended.(AU)
Anomalias congênitas possuem caráter hereditário ou adquirido, sendo que sua localização e intensidade são fatores determinantes para a sobrevivência do animal. Algumas são raras, muitas vezes não identificadas, pouco relatadas e com etiologia desconhecida. O presente trabalho registra um caso de malformação congênita em um bulldog francês, demonstrando a importância do diagnóstico preciso para a decisão cirúrgica. A utilização de novas tecnologias como tomografia computadorizada e prototipagem rápida possibilitam a análise de alterações morfofuncionais, tendo ótimo resultado para casos clínicos em que há dificuldade em identificar e dimensionar deformidades anatômicas. Através desse recurso é possível recriar com precisão estruturas anatômicas de interesse, possibilitando maior assertiva na decisão do tratamento a ser estabelecido, sendo ele cirúrgico ou não. É recomendada a castração dos animais que sobreviveram a essa condição, devido a etiologia hereditária.(AU)
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Animais , Cães , Impressão Tridimensional , Anormalidades Congênitas/veterinária , Doenças do Cão , Tomografia Computadorizada por Raios X/veterináriaRESUMO
Canine Hip Dysplasia (CHD) is a highly prevalent articular pathological condition. In this sense, radiography becomes an important diagnostic method to determine the presence and severity of the disease. The objective was to create 3D models and their respective radiographs representing the CHD (3D AMCHD). The research was carried out in the Laboratory of 3D Educational Technologies of UFAC, under no. 23107.007273/2017-49 (CEUA/UFAC). A canine skeleton (hip bone, femurs and patellae) was used without anatomical deformities compatible with DCF (pelvis, femurs and patella), which were scanned in order to obtain the files of the base model. In these files the deformations representing the different degrees of CHD were performed. Subsequently, the 3D AMCHD files were printed, mounted and X-rayed. The 3D AMCHD represented the bone deformations of the different degrees of CHD. In the radiographs of the 3D AMCHD it was possible to observe and determine each of the bones that constituted the hip joints. This allowed to reproduce the correct positioning to represent the CHD diagnosis and establish the precise points to determine the Norberg angle. In this way, it was evidenced that the 3D AMCHD can be a possible tool to be used in the Teaching of Veterinary Medicine.(AU)
A displasia coxofemoral canina (DCF) é uma condição patológica articular de grande prevalência. Nesse sentido, a radiografia torna-se um método de diagnóstico importante para determinar a presença e a gravidade da doença. O objetivo do presente trabalho foi criar modelos 3D e suas respectivas radiografias representando a DCF (MADCF 3D). A pesquisa foi realizada no Laboratório de Tecnologias Educacionais 3D da UFAC, sob o nº. 23107.007273/2017-49 (Ceua/Ufac). Foram utilizados esqueletos caninos (pelve, fêmures e patelas) sem deformidades anatômicas compatíveis com a DCF, os quais foram digitalizados a fim de se obterem os arquivos do modelo base. Nesses arquivos foram realizadas as deformações que representavam os diferentes graus da DCF. Posteriormente, os arquivos dos MADCF 3D foram impressos, montados e radiografados. Os MADCF 3D representaram as deformações ósseas dos diferentes graus da DCF. Nas radiografias dos MADCF 3D, foi possível observar e determinar cada um dos ossos que constituíam as articulações coxofemorais. Isso permitiu reproduzir o posicionamento correto para representação do diagnóstico DCF e estabelecer os pontos precisos para determinar o ângulo de Norberg. Dessa forma, evidenciou-se que os MADCF 3D podem ser uma possível ferramenta a ser empregada no ensino de medicina veterinária.(AU)
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Animais , Cães , Ensino , Impressão Tridimensional/instrumentação , Displasia Pélvica Canina/diagnóstico por imagem , Modelos Anatômicos , Medicina Veterinária/instrumentação , Radiografia/veterináriaRESUMO
Canine Hip Dysplasia (CHD) is a highly prevalent articular pathological condition. In this sense, radiography becomes an important diagnostic method to determine the presence and severity of the disease. The objective was to create 3D models and their respective radiographs representing the CHD (3D AMCHD). The research was carried out in the Laboratory of 3D Educational Technologies of UFAC, under no. 23107.007273/2017-49 (CEUA/UFAC). A canine skeleton (hip bone, femurs and patellae) was used without anatomical deformities compatible with DCF (pelvis, femurs and patella), which were scanned in order to obtain the files of the base model. In these files the deformations representing the different degrees of CHD were performed. Subsequently, the 3D AMCHD files were printed, mounted and X-rayed. The 3D AMCHD represented the bone deformations of the different degrees of CHD. In the radiographs of the 3D AMCHD it was possible to observe and determine each of the bones that constituted the hip joints. This allowed to reproduce the correct positioning to represent the CHD diagnosis and establish the precise points to determine the Norberg angle. In this way, it was evidenced that the 3D AMCHD can be a possible tool to be used in the Teaching of Veterinary Medicine.(AU)
A displasia coxofemoral canina (DCF) é uma condição patológica articular de grande prevalência. Nesse sentido, a radiografia torna-se um método de diagnóstico importante para determinar a presença e a gravidade da doença. O objetivo do presente trabalho foi criar modelos 3D e suas respectivas radiografias representando a DCF (MADCF 3D). A pesquisa foi realizada no Laboratório de Tecnologias Educacionais 3D da UFAC, sob o nº. 23107.007273/2017-49 (Ceua/Ufac). Foram utilizados esqueletos caninos (pelve, fêmures e patelas) sem deformidades anatômicas compatíveis com a DCF, os quais foram digitalizados a fim de se obterem os arquivos do modelo base. Nesses arquivos foram realizadas as deformações que representavam os diferentes graus da DCF. Posteriormente, os arquivos dos MADCF 3D foram impressos, montados e radiografados. Os MADCF 3D representaram as deformações ósseas dos diferentes graus da DCF. Nas radiografias dos MADCF 3D, foi possível observar e determinar cada um dos ossos que constituíam as articulações coxofemorais. Isso permitiu reproduzir o posicionamento correto para representação do diagnóstico DCF e estabelecer os pontos precisos para determinar o ângulo de Norberg. Dessa forma, evidenciou-se que os MADCF 3D podem ser uma possível ferramenta a ser empregada no ensino de medicina veterinária.(AU)
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Animais , Cães , Ensino , Impressão Tridimensional/instrumentação , Displasia Pélvica Canina/diagnóstico por imagem , Modelos Anatômicos , Medicina Veterinária/instrumentação , Radiografia/veterináriaRESUMO
The use of prototypes as testing instruments has become a common strategy in the innovation of services and products and increasingly in the implementation of "smart" urban policies through living labs or pilots. As a technique for validating hypotheses about the future performance of products or policies, prototyping is based on the idea of generating original knowledge through the failures produced during the testing process. Through the study of an experimentation and prototyping project developed in Santiago de Chile called "Shared Streets for a Low-Carbon District," I analyse the technique of prototyping as a political device that can make visible (or invisible) certain entities and issues, determining what the experimental entities can do and say. I will show how the technique of prototyping defines modes of participation, what is visible and thinkable, what can be spoken and what is unspeakable. In this sense, I examine two ambivalent capacities of prototyping: as a mechanism of management and enrolment that seeks to prescribe normativities (problem-validating prototype) and as an event that can make frictions tangible, articulating matters of concern and ways to open up alternative scenarios (problem-making prototype).
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Planejamento de Cidades/métodos , Chile , Humanos , Projetos de PesquisaRESUMO
Microfluidic paper-based analytical devices (µPADs) allow user-friendly and portable chemical determinations, although they provide limited applicability due to insufficient sensitivity. Several approaches have been proposed to address poor sensitivity in µPADs, but they frequently require bulky equipment for power and/or read-outs. Universal serial buses (USB) are an attractive alternative to less portable power sources and are currently available in many common electronic devices. Here, USB-powered µPADs (USB µPADs) are proposed as a fusion of both technologies to improve performance without adding instrumental complexity. Two ITP USB µPADs were developed, both powered by a 5 V potential provided through standard USB ports. The first device was fabricated using the origami approach. Its operation was analyzed experimentally and numerically, yielding a two-order-of-magnitude sample focusing in 15 min. The second ITP USB µPAD is a novel design, which was numerically prototyped with the aim of handling larger sample volumes. The reservoirs were moved away from the ITP channel and capillary action was used to drive the sample and electrolytes to the separation zone, predicting 25-fold sample focusing in 10 min. USB µPADs are expected to be adopted by minimally-trained personnel in sensitive areas like resource-limited settings, the point-of-care and in emergencies.
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Isotacoforese/instrumentação , Técnicas Analíticas Microfluídicas/instrumentação , Papel , Fontes de Energia Elétrica , Eletrólitos/química , Desenho de EquipamentoRESUMO
ABSTRACT: Congenital anomalies are hereditary or acquired, and their location and intensity are determining factors for the survival of animals. Some cases are rare, often unidentified, poorly reported and of unknown etiology. This paper reports a congenital malformation in a French bulldog, demonstrating the importance of accurate diagnosis for surgical decisions. The use of new technologies such as computed tomography and rapid prototyping enables the analysis of morphofunctional changes, resulting in excellent results for clinical cases in which it is difficult to identify and scale the anatomical deformities. Through this feature, it is possible to accurately recreate anatomical structures of interest, enabling greater assertiveness in deciding the treatment to be established, whether surgical or not. Castration of animals that survive this condition due to hereditary etiology is recommended.
RESUMO: Anomalias congênitas possuem caráter hereditário ou adquirido, sendo que sua localização e intensidade são fatores determinantes para a sobrevivência do animal. Algumas são raras, muitas vezes não identificadas, pouco relatadas e com etiologia desconhecida. O presente trabalho registra um caso de malformação congênita em um bulldog francês, demonstrando a importância do diagnóstico preciso para a decisão cirúrgica. A utilização de novas tecnologias como tomografia computadorizada e prototipagem rápida possibilitam a análise de alterações morfofuncionais, tendo ótimo resultado para casos clínicos em que há dificuldade em identificar e dimensionar deformidades anatômicas. Através desse recurso é possível recriar com precisão estruturas anatômicas de interesse, possibilitando maior assertiva na decisão do tratamento a ser estabelecido, sendo ele cirúrgico ou não. É recomendada a castração dos animais que sobreviveram a essa condição, devido a etiologia hereditária.
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Introduction: The anatomy of the temporal bone is complex due to the large number of structures and functions grouped in this small bone space, which do not exist in any other region in the human body. With the difficulty of obtaining anatomical parts and the increasing number of ear, nose and throat (ENT) doctors, there was a need to create alternatives as real as possible for training otologic surgeons. Objective: Developing a technique to produce temporal bone models that allow them to maintain the external and internal anatomical features faithful to the natural bone. Methods: For this study, we used a computed tomography (CT) scan of the temporal bones of a 30-year-old male patient, with no structural morphological changes or any other pathology detected in the examination, which was later sent to a 3D printer in order to produce a temporal bone biomodel. Results: After dissection, the lead author evaluated the plasticity of the part and its similarity in drilling a natural bone as grade "4" on a scale of 0 to 5, in which 5 is the closest to the natural bone and 0 the farthest from the natural bone. All structures proposed in the method were found with the proposed color. Conclusion: It is concluded that it is feasible to use biomodels in surgical training of specialist doctors. After dissection of the bone biomodel, it was possible to find the anatomical structures proposed, and to reproduce the surgical approaches most used in surgical practice and training implants (AU)