Development of a teledentistry system for the elderly in the context of the covid-19 pandemic: 3d diagnostic models integration in a web platform / Desarrollo de un sistema de teleodontología para adultos mayores en el contexto de la pandemia de covid-19: integración de modelos de diagnóstico 3d en una plataforma web

Objective: To recognize the usefulness of incorporating Three-Dimensional models of standardized humans in electronic health records, in the context of the development of a teledentistry web platform designed for the attention of the elderly population in COVID-19 pandemic context. Material and Methods: A teledentistry web platform designed with different modules for clinical records. Through a new user-computer interface with a standardized virtual 3D phantom, an extraoral physical examination, an intraoral examination section was modeled. A label-associated marker is allowed to record descriptive aspects of the findings. A 3D odontogram represents multiple patient's conditions for each of the 32 dental positions. Results: From a total of 135 patients registered on the platform, 51 markers and 33 photographs associated with the surface of the virtual 3D phantoms were recorded. For the Location parameter: Hard palate 27.6%, inserted gingiva 15.7%, tongue 15.6%. For the Type of lesion parameter (according to the information entered in the pathology selector): unidentified 35.3%, sub-prosthetic stomatitis 23.5%, irritative fibroma 9.8%. Through the registration of the exact location of the finding in the virtual phantom by a 3D marker, the 3D modeling of the oral pathologies contributed to a better diagnosis, improving the remote communication between the attending dentist and specialists. Conclusion: The combination of the 3D modeling and anatomical-referencing in a teledentistry platform can become a powerful tool for the dental practice, due to their utility and specificity.

Objetivo: Reconocer la utilidad de incorporar modelos tridimensionales de humanos estandarizados en registros electrónicos de salud, en el contexto del desarrollo de una plataforma web de teleodontología diseñada para la atención de la población adulta mayor en contexto de pandemia por COVID-19. Material y Métodos: Una plataforma web de teleodontología diseñada con diferentes módulos para historias clínicas. A través de una nueva interfaz usuario-computadora con un fantoma 3D virtual estandarizado, se modeló un examen físico extraoral, una sección de examen intraoral. Se permite un marcador asociado a la etiqueta para registrar aspectos descriptivos de los hallazgos. Un odontograma 3D representa múltiples condiciones del paciente para cada una de las 32 posiciones dentales.Resultados: De un total de 135 pacientes registrados en la plataforma, se registraron 51 marcadores y 33 fotografías asociadas a la superficie de los fantomas virtuales 3D. Para el parámetro Ubicación: Paladar duro 27,6%, encía insertada 15,7%, lengua 15,6%. Para el parámetro Tipo de lesión (según la información ingresada en el selector de patología): no identificado 35,3%, estomatitis subprotésica 23,5%, fibroma irritativo 9,8%. A través del registro de la ubicación exacta del hallazgo en el fantoma virtual mediante un marcador 3D, el modelado 3D de las patologías orales contribuyó a un mejor diagnóstico, mejorando la comunicación remota entre el odontólogo tratante y los especialistas. Conclusión: La combinación del modelado 3D y la referenciación anatómica en una plataforma de teleodontología puede convertirse en una poderosa herramienta para la práctica odontológica, debido a su utilidad y especificidad.

Avaliação da acurácia dos modelos dentários digitais obtidos para cirurgia ortognática / Assessment of the accuracy of digital dental models obtained for orthognathic surgery

O objetivo deste estudo laboratorial foi avaliar a acurácia dos modelos digitais obtidos por duas técnicas de escaneamento (escâner intraoral - Itero 5d Element® - e escâner de bancada -Straumann ®) de um modelo experimental (Nacional Ossos ®) da arcada superior confeccionada em poliuretano e do modelo de gesso obtido desta arcada. Os pontos A ­ 3mm acima do elemento 17; B ­ 3mm acima do elemento 14; C ­ 3mm acima do elemento 24; D ­ 3mm acima do elemento 27; E ­ cúspide mesiovestibular do elemento 16; F - ponto de contato mais incisal entre os elementos 11 e 21; G - Cúspide mesiovestibular do elemento 26 foram utilizados como referência para as medidas realizadas. As medidas foram realizadas em um software (Geomagic®) de simulação cirúrgica e analisadas quanto a validade e precisão das técnicas de escaneamento utilizadas em todos os grupos (1 a 5). O grupo 1 corresponde ao grupo padrão-ouro; o 2 ao grupo do escaneamento com escâner intraoral do modelo de poliuretano; o 3 ao escaneamento de bancada do modelo; o 4 ao escaneamento com escâner intraoral do modelo de gesso; e 5 ao escaneamento de bancada do modelo de gesso. Na análise da validação, todas as técnicas apresentaram-se válidas quando comparadas ao grupo controle com exceção da medida FG que apresentou diferenças estatisticamente significativas (p<0,05) entre os grupos 1 e 2. A precisão foi avaliada através do índice de correlação intraclasse (CCI) e todas as técnicas apresentaram-se altamente precisas com (CCI) próximo de 1. Desta forma, conclui-se que o escâner intraoral e o escâner de bancada utilizados neste estudo foram confiáveis quando comparados ao grupo controle e que os dois modelos de escâner utilizados se apresentaram com alta precisão (AU).

The objective of this experimental study was to evaluate the accuracy of digital models generated by two scanning techniques (intraoral scanner - Itero 5d Element® - and desktop scanner -Straumann ®) of an experimental model of the upper arch (Nacional Ossos ®) made of polyurethane and the plaster model obtained from this arch. Points A ­ 3mm above element 17; B ­ 3mm above element 14; C ­ 3mm above element 24; D ­ 3mm above element 27; E ­ mesiobuccal cusp of element 16; F - most incisal point of contact between elements 11 and 21; G - Mesiobuccal cusp of element 26 were used as a reference for the measurements performed. The measurements were performed in a surgical simulation software (Geomagic ®) and analyzed for the validity and precision of the scanning techniques used in all groups (1 to 5). Group 1 corresponds to the gold standard group; 2 to the scanning group with intraoral scanner of the polyurethane model; 3 to the desktop scan of the model; 4 to intraoral scanner scanning of the plaster model; and 5 to the desktop scan of the plaster model. In the validation analysis, all techniques showed to be valid compared to the control group, except the FG measure, which showed statistically significant differences (p<0.05) between groups 1 and 2. Precision was assessed using the intraclass correlation(ICC) index, and all techniques were highly accurate with an ICC close to 1. Thus, it is concluded that the intraoral scanner and the bench scanner used in this study were reliable compared to the control group and that the two scanner models used presented themselves with high precision (AU).

Three-dimensional printing of orbital computed tomography scan images for use in ophthalmology teaching / Impressão tridimensional de imagens médicas de tomografia computadorizada para uso no ensino de oftalmologia

ABSTRACT Introduction: The use of tridimensional (3D) printing in healthcare has contributed to the development of instruments and implants. The 3D printing has also been used for teaching future professionals. In order to have a good 3D printed piece, it is necessary to have high quality images, such as the ones from Computerized Tomography (CT scan) exam, which shows the anatomy from different cuts and allows for a good image reconstruction. Purpose: To propose a protocol for creating digital files from computerized tomography images to be printed in 3D and used as didactic material in the ophthalmology field, using open-source software, InVesalius®, Blender® and Repetier-Host©. Methods: Two orbit CT scan exam images in the DICOM format were used to create the virtual file to be printed in 3D. To edit the images, the software InVesalius® (Version 3.1.1) was used to delimit and clean the structure of interest, and also to convert to STL format. The software Blender® (Version 2.80) was used to refine the image. The STL image was then sent to the Repetier-Host© (Version 2.1.3) software, which splits the image in layers and generates the instructions to print the piece in the 3D printer using the polymer polylactic acid (PLA). Results: The printed anatomical pieces printed reproduced most structures, both bone and soft structures, satisfactorily. However, there were some problems during printing, such as the loss of small bone structures, that are naturally surrounded by muscles due to the lack of support. Conclusion: Despite the difficulties faced during the production of the pieces, it was also possible to reproduce the anatomical structures adequately, which indicates that this protocol of 3D printing from medical images is viable.

RESUMO Introdução: O uso de impressão em 3-D na área da saúde tem contribuído para o desenvolvimento de instrumentos e próteses. A impressão 3-D tem sido usada para o ensino de futuros profissionais. Para se alcançar uma boa peça em 3-D, é necessário ter imagens de alta qualidade, como aquelas geradas pelo exame de Tomografia Computadorizada (TC), que mostra a anatomia sob diferentes cortes e permite uma boa reconstrução de imagem. Objetivo: Propor um protocolo para a criação de arquivos digitais a partir de imagens de tomografia computadorizada a serem impressas em 3-D e usadas como modelo de material didático oftalmológico usando software de código aberto, InVesalius®, Bender® e Repetier-Host©. Métodos: Foram utilizadas imagens em formato DICOM provenientes de dois exames de tomografia computadorizada de órbitas para a impressão tridimensional. Para manuseio das imagens, foram utilizados o InVesalius®, versão 3.1.1, para delimitar e limpar a estrutura de interesse e também para converter em formato STL. O Blender®, versão 2.80 foi usado para refinamento. A imagem em STL foi então enviada para o programa Repetier-Host, versão 2.1.3, que divide a imagem em camadas e gera as instruções para impressão da peça em ácido polilático na impressora tridimensional. Resultados: As peças anatômicas impressas reproduziram de forma satisfatória a maioria das estruturas ósseas e musculares. No entanto, houve dificuldade durante a impressão das estruturas ósseas menores, como perda de estrutura óssea pequena, que não possuíam sustentação, por serem envoltas pelo músculo. Conclusão: Apesar das dificuldades encontradas na produção dessas peças de estudo, foi possível reproduzir estruturas com fidelidade, indicando que o protocolo proposto viabiliza a impressão de imagens oriundas da tomografia computadorizada para impressão tridimensional.

Clinical Applications of Additive Manufacturing Models in Neurosurgery: a Systematic Review

Introduction Three-dimensional (3D) printing technologies provide a practical and anatomical way to reproduce precise tailored-made models of the patients and of the diseases. Those models can allow surgical planning, besides training and surgical simulation in the treatment of neurosurgical diseases. Objective The aim of the present article is to review the scenario of the development of different types of available 3D printing technologies, the processes involved in the creation of biomodels, and the application of those advances in the neurosurgical field. Methods We searched for papers that addressed the clinical application of 3D printing in neurosurgery on the PubMed, Ebsco, Web of Science, Scopus, and Science Direct databases. All papers related to the use of any additivemanufacturing technique were included in the present study. Results Studies involving 3D printing in neurosurgery are concentrated on threemain areas: (1) creation of anatomical tailored-made models for planning and training; (2) development of devices and materials for the treatment of neurosurgical diseases, and (3) biological implants for tissues engineering. Biomodels are extremely useful in several branches of neurosurgery, and their use in spinal, cerebrovascular, endovascular, neuro-oncological, neuropediatric, and functional surgeries can be highlighted. Conclusions Three-dimensional printing technologies are an exclusive way for direct replication of specific pathologies of the patient. It can identify the anatomical variation and provide a way for rapid construction of training models, allowing the medical resident and the experienced neurosurgeon to practice the surgical steps before the operation.

Cranial osteomyelitis as a complication of furuncular myiasis / Osteomielite craniana como complicação de miíase furuncular

ABSTRACT Objective: To report the case of an infant with infrequent cranial osteomyelitis as a complication of furuncular myiasis. Case description: The patient was a 4-month-old male who presented to the emergency department with a nodular skull lesion with edema, tenderness, pain, and purulent drainage, as well as progress of the ulcerated lesion and evidence of larvae inside. Antibiotic treatment was initiated, and the patient was taken to the operating room to remove the larvae, but he had no symptomatic improvement. A skull radiograph was taken to visualize the osteolytic lesion, and a 3D computed tomography scan showed osteomyelitis of the external parietal surface. Antibiotic management readjustment continued for a total of six weeks, and a skin flap was used with clinical improvement. Comments: Myiasis is defined as the infestation of vertebrates with fly larvae. In mammals, larvae can feed on host tissue and cause a wide range of infestations depending on their location in the body. The cranial osteomyelitis as a complication of myiasis described in this report seems to be an exceptional case.

RESUMO Objetivo: Relatar um caso de criança com osteomielite craniana infrequente como complicação da miíase furuncular. Descrição do caso: Paciente do sexo masculino, com quatro meses de idade, que se apresentou no pronto-socorro com lesão nodular no crânio com edema, sensibilidade, dor e drenagem purulenta, com evolução da lesão ulcerada e evidência de larva no interior. O tratamento com antibióticos foi iniciado e o paciente foi levado à sala de cirurgia para remover as larvas, mas não houve melhora. Uma radiografia do crânio foi realizada para visualizar a lesão osteolítica e uma tomografia computadorizada em 3D mostrou osteomielite da superfície parietal externa. O reajuste do tratamento com antibióticos foi mantido por um total de seis semanas e um retalho cutâneo foi realizado com melhora clínica. Comentários: Miíase é definida como a infestação de vertebrados com larvas de moscas. Nos mamíferos, as larvas podem se alimentar do tecido hospedeiro e causar uma ampla variedade de infestações, dependendo da sua localização no corpo. A osteomielite como complicação da miíase, apresentada nesse caso, parece ser uma forma não usual de complicação dessa doença.

Cirugía laparoscópica con imagen 3D: indicaciones, resultados y evaluación subjetiva y objetiva de cirujanos participantes / Laparoscopic surgery with 3D image: indications, results and subjective and objective evaluation of participating surgeons

Resumen Introducción El uso del sistema de visión 3D en cirugía laparoscópica puede significar una mejor performance de los procedimientos quirúrgicos de mayor complejidad. Objetivo Reportar las indicaciones, los resultados y la valoración de un grupo de cirujanos de diferentes especialidades en el uso de visión 3D. Materiales y Método: Se analizan las indicaciones quirúrgicas y los resultados subjetivos y objetivos del uso del sistema óptico 3D (n = 155 pacientes) en cirugía laparoscópica compleja. Para evaluación subjetiva se aplicó a una encuesta de percepción cualitativa a los cirujanos participantes tipo Likert. Para la evaluación objetiva, se registran los tiempos quirúrgicos empleados en los diferentes procedimientos efectuados y las complicaciones postoperatorias y se comparan con los pacientes operados con sistema 2D (n = 783 pacientes) en el mismo periodo. Resultados el 70,6% concuerda tener mejor imagen con la técnica 3D, el 64,7% de los cirujanos refieren que se puede reducir el tiempo operatorio, el 58,8% considera que se puede reducir el error quirúrgico, el 92% y 100% respectivamente afirman que el confort del cirujano es mejor con el uso de óptica 3D y que esta técnica es recomendable para los procedimientos complejos. El tiempo operatorio se redujo en algunos procedimientos, especialmente urológicos. No se encontró diferencias sustanciales al comparar los resultados con el uso de sistema 3D versus 2D en cuanto a complicaciones postoperatorias. En la 3D no se encontró mortalidad postoperatoria, probablemente por el menor número de pacientes de ese grupo. Conclusión La laparoscopia 3D posee una buena valoración por los cirujanos que la emplearon, principalmente en calidad de imagen, reducción del tiempo operatorio y confort del cirujano en comparación con la laparoscopía 2D convencional. No se encontró diferencias sustanciales al comparar los resultados con el uso de sistema 3D versus 2D en cuanto a tiempo operatorio ni complicaciones postoperatorias.

Introduction The use of the 3D vision system in laparoscopic surgery can mean better performance in more complex surgical procedures. Aim Report the indications, results and assessment of a group of surgeons of different specialties in the use of 3D vision. Materials and Method Surgical indications and subjective and objective results of the use of 3D optical system in patients (n = 155) submitted to complex laparoscopic surgery are analyzed. Subjective evaluation based on a survey of qualitative perception (Likert) was applied to the participating surgeons. For objective evaluation, the operatory times and postoperative complications were recorded and compared with the results observed with the use of the 2D system (783 patients) in the same period. Results 70.6% agree to have a better image with the 3D technique, 64.7% of surgeons report that the operative time can be reduced, 58.8% consider that it can be reduced the surgical error, 92% and 100% respectively considered that the comfort of the surgeon is better with the use of 3D optics and that this technique is recommended for complex procedures. No substantial differences were found when comparing the results with the use of 3D versus 2D system by the same surgical teams in terms of operative times and postoperative complications. In 3D, postoperative mortality was probably not found due to the lower number of patients in this group. Conclusion 3D laparoscopy has a good evaluation by the surgeons who used it, mainly in image quality, reduction of operative time and comfort of the surgeon compared to conventional 2D laparoscopy. No substantial differences were found when comparing the results with the use of 3D versus 2D system in terms of operative times or postoperative complications.

Uso de digitalizador e impressora doméstica em 3 dimensões em rinoplastia / Domestic three-dimensional scanner and printer in patients undergoing rhinoplasty

Os princípios para uma rinoplastia bem-sucedida incluem consulta e planejamento pré-operatório e uma análise clínica abrangente que defina as metas da cirurgia. Mais recentemente, a digitalização e a impressão doméstica em 3 dimensões tornaram-se disponíveis. O objetivo deste estudo é descrever um método de digitalização em 3 dimensões e de impressão doméstica da anatomia real do paciente para ser usada como ajuda intraoperatória. Nós apresentamos uma forma de uso desta tecnologia no transoperatório, auxiliando o cirurgião a comparar os resultados obtidos após suas manobras, verificar a sua adesão ao plano cirúrgico previamente estabelecido e melhorar a sua tomada de decisão durante a cirurgia. Em conclusão, a aplicação da impressão doméstica em 3 dimensões demonstra um efeito positivo sobre o tratamento de alterações estéticas do nariz.

The principles for a successful rhinoplasty include preoperative consultation and planning, as well as a comprehensive clinical analysis and defining rhinoplasty goals. Three-dimensional domestic scanning and printing have recently become available. We sought to objectively describe this method as an intraoperative aid in patients' anatomy. This method can be used trans-operatively to help surgeons compare the results of his or her technique, check adherence to the surgical plan, and improve his or her surgical decision-making. We found that the application of 3-dimensional printing had a positive effect on the treatment of patients with aesthetic nose disorders.

Accuracy of mandibular measurements of sexual dimorphism using stabilizer equipment

Abstract The objective of this investigation was to compare the accuracy of mandibular measurements using a stabilizer (MS) with gold standard computed tomography (GS) images. Sixty mandibles were studied. Werth TomoScope HV Compact® was used to obtain CT images (GS), and the MS was also used. Analysis of the CT scans was performed using the VG Studio Max software® (Volume Graphics GmbH, Heidelberg, Germany), and MS was used after the proper positioning of the mandible. Descriptive and paired t test measures were used, and a ROC curve was calculated, as well as sensibility and specificity. MedCalc and STATA 13.0® were used (95% level of significance). Bicondylar breadth, bicoronoid breadth and minimum ramus breadth reached the highest concordance correlation coefficients at 0.99 (0.99-1.00), 0.99 (0.99–1.00) and 1.00 (0.99–1.00), respectively. Comparing observers with GS, the lowest accuracy was noted for the maximum mandibular length [0.59 (0.45–0.69), 0.64 (0.51–0.74)], the breadth of the right (0.14 (0.04–0.23), 0.14 (0.004–0.24)) and left mandibular body [0.14 (0.03–0.24), 0.16 (0.05-0.26)], and the right [0.58 (0.45–0.69), 0.63 (0.51–0.73) and left (0.59 (0.45–0.70), 0.59 (0.46–0.69)] mandibular angle. Various measurements exhibited good sensibility for males using MS: maximum mandibular length (78.12), bicondylar breadth (78.12), left mandibular notch breadth (84.37), and the left height of the mandibular body at the mental foramen (75.00). High specificity in discriminating females was observed for the left maximal ramus height (85.19), mandibular length (85.71), bicoronoid breadth (96.43), right height of the mandibular body at the mental foramen (82.19), bimental breadth (78.57), breadth right (92.86) and left (96.43) mandibular body, minimum ramus breadth (89.29), and left mandibular angle (85.71). MS was able to discriminate sexual dimorphism.

Educação mediada por tecnologia em Fonoaudiologia: impacto na motivação para aprendizagem sobre o Sistema Miofuncional Orofacial / Computer-assisted instruction in Speech-Language and Hearing Sciences: impact on motivation for learning about the Orofacial Myofunctional System

RESUMO O objetivo deste estudo foi comparar três métodos de aprendizagem sobre Anatomia e Fisiologia do Sistema Miofuncional Orofacial quanto à motivação para a aprendizagem em Fonoaudiologia. Participaram 36 estudantes do segundo ano de graduação, após assinatura de termo de consentimento livre e esclarecido. Cada estudante foi alocado randomicamente nos grupos: Grupo I (GI) – 12 participantes do Método Interativo 1 (MI1); Grupo II (GII) – 12 participantes do Método Interativo 2 (MI2); Grupo III (GIII) – 12 participantes do Método Tradicional (MT). Os métodos de aprendizagem foram aplicados durante horário de estudo complementar semanal, após aula expositiva de disciplina obrigatória. Concluída a aplicação dos métodos de aprendizagem, foi aplicado o questionário Instructional Materials Motivation Survey para avaliar a motivação. Os dados foram submetidos à análise estatística no software SPSS versão 21. A comparação entre os grupos foi realizada pela ANOVA seguida pelo teste post hoc de Tukey. O nível de significância foi de 5%. Os grupos diferiram em todos os aspectos avaliados e na pontuação total (F2,33=3691,17 p<0,001). O GII teve maior pontuação geral (GI x GII = p=0,015; GI x GIII = p=0,115; GII x GIII = p<0,001). Com relação à atenção (GII x GIII = p=0,001) e à confiança (GII x GIII = p=0,003), o GII teve maior pontuação que o GIII. Não houve diferença quanto à relevância. O GII teve a maior pontuação para satisfação (GI x GII = p=0,023; GII x GIII = p<0,001). Neste estudo, foi observado que o modelo computacional 3D foi mais eficiente para motivar os estudantes durante a aprendizagem.

ABSTRACT This study aimed to compare the learning motivation of three learning methods as means of teaching Anatomy and Physiology of the Orofacial Myofunctional System of second-year Speech-Language and Hearing Sciences undergraduate students. The study was conducted with 36 students that participated after signing an informed consent form. Each student was randomly allocated to the groups: Group I (GI) – 12 participants using Interactive Method 1 (IM1); Group II (GII) – 12 participants using Interactive Method 2 (IM2); and Group III (GIII) – 12 participants using the Traditional Method (TM). The learning methods were applied during weekly complementary study schedule, following the discipline’s lectures. Upon the conclusion of the learning methods application, the Instructional Materials Motivation Survey questionnaire was administered for evaluating the students’ learning motivation. Data were analyzed using SPSS software version 21. Comparisons between groups were performed using ANOVA followed by Tukey post hoc test. The significance level was set at 5%. The groups differed in all evaluated aspects with the total score (F2,33 = 3691.17 p <0.001). The GII had the highest overall score (GI x GII = p = 0.015; GI x GIII = p = 0.115; GII x GIII = p <0.001). On attention (GII x GIII = p = 0.001) and confidence (GII x GIII = p = 0.003), GII had higher scores than GIII. There was no difference between groups on relevance. For satisfaction, GII had the highest score (GI x GII = p = 0.023; GII x GIII = p <0.001). Therefore, summatively, the 3D computer model was more efficient in enhancing students’ learning motivation.

3-D simulation of posterior fossa reduction in Chiari I / Simulação em 3D da redução da fossa posterior no Chiari do tipo I

ABSTRACT We proposed a 3D model to evaluate the role of platybasia and clivus length in the development of Chiari I (CI). Using a computer aided design software, two DICOM files of a normal CT scan and MR were used to simulate different clivus lengths (CL) and also different basal angles (BA). The final posterior fossa volume (PFV) was obtained for each variation and the percentage of the volumetric change was acquired with the same method. The initial normal values of CL and BA were 35.65 mm and 112.66º respectively, with a total PFV of 209 ml. Ranging the CL from 34.65 to 29.65 – 24.65 – 19.65, there was a PFV decrease of 0.47% – 1.12% – 1.69%, respectively. Ranging the BA from 122.66º to 127.66º – 142.66º, the PFV decreased 0.69% – 3.23%, respectively. Our model highlights the importance of the basal angle and clivus length to the development of CI.

RESUMO No presente estudo, propusemos a criação de um modelo computacional em 3D com elaboração de software onde dois arquivos em formato DICOM com uma TC e RNM de crânio foram usados para simular diferentes mensurações na extensão do clivus (EC) e no ângulo basal (AB). O volume final da fossa posterior (VFP) foi obtido em cada variação, bem como a percentagem de volume alterada. O tamanho inicial da EC era de 35,65 mm e o do AB era de 112.66º, com um VFP de 209 ml. Variando a EC de 34,65 para 29,65 – 24.65 e 19.65, houve uma diminuição do VFP de 0.47%, 1.12% e 1.69%, respectivamente. Variando o AB de 122,66º para 127,66º e 142,66º, o VFP diminui para 0.69% e 3.23%, respectivamente. Nosso modelo enfatiza a importância da patogênese do aumento do AB e do encurtamento do clivus no desenvolvimento do Chiari I.

Virtual reality exposure using three-dimensional images for the treatment of social phobia

Objective: To test a potential treatment for social phobia, which provides exposure to phobia-inducing situations via computer-generated, three-dimensional images, using an open clinical trial design. Methods: Twenty-one patients with a DSM-IV diagnosis of social phobia took part in the trial. Treatment consisted of up to 12 sessions of exposure to relevant images, each session lasting 50 minutes. Results: Improvements in social anxiety were seen in all scales and instruments used, including at follow-up 6 months after the end of treatment. The average number of sessions was seven, as the participants habituated rapidly to the process. Only one participant dropped out. Conclusion: This study provides evidence that exposure to computer-generated three-dimensional images is relatively inexpensive, leads to greater treatment adherence, and can reduce social anxiety. Further studies are needed to corroborate these findings.

In adolescents with epilepsy, high scores of anxiety and depression are associated with occurrence of seizures in public places / Em adolescentes com epilepsia, altos escores de ansiedade e depressão foram associados com ocorrência de crises em lugares públicos

Objective To assess depression and anxiety symptoms of adolescents with epilepsy compared with adolescents without epilepsy. Method The study sample consisted of: case participants (50 subjects) attending the pediatric epilepsy clinic of a tertiary hospital and control participants (51 subjects) from public schools. The instruments utilized were: identification card with demographic and epilepsy data, Beck Depression Inventory and State-Trait Anxiety Inventory. Results No significant differences were founded between the groups regarding scores for depression and anxiety symptoms but both groups presented moderate scores of anxiety. A correlation was found between low scores anxiety and not frequent seizures, low scores anxiety and perception of seizure control, high scores of anxiety and depression and occurrence of seizures in public places. Conclusion Low scores of anxiety are associated with not frequent seizures; high scores of anxiety and depression are associated with occurrence of seizures in public places. .

Objetivo O presente estudo teve como objetivo avaliar os sintomas de ansiedade e depressão de adolescentes com epilepsia comparados com adolescentes sem epilepsia. Método A amostra consistiu: grupo caso (50 indivíduos) atendidos no ambulatório de epilepsia infantil do Hospital Universitário e grupo controle (51 indivíduos) de escolas públicas. Os instrumentos utilizados foram: cartão com dados demográficos e de epilepsia, Beck Depression Inventory e State-Trait Anxiety Inventory. Resultados Os resultados não mostraram diferenças significativas entre os grupos em relação à depressão e ansiedade, mas ambos os grupos apresentaram escores moderados de ansiedade. Foi encontrada correlação entre baixa pontuação de ansiedade e crises não frequentes e percepção de controle de crises; altas pontuações de ansiedade e depressão e ocorrência de crises em lugares públicos. Conclusão Variáveis psicossociais e da doença são contingências importantes no comportamento adaptativo e controle do humor em uma doença crônica como a epilepsia. .

Image Guided Neurosurgery by Using Neuronavigation Integrated with Intraoperative Three-Dimensional Ultrasound.

Introduction: Intra-operative ultrasound provides low cost real time imaging that is simple and rapid to use. In recent years there has been a signifi cant improvement in the quality of ultrasound imaging. Ultrasound integrated neuronavigation can be used to optimize the approach, and achieving safe maximal resection, thereby improving outcomes for patients with diff erent localization and histology of brain tumors, vascular patology, spontaneous intra-cerebral hemorrhage. Material and Methods: Since 2007 till 2010, in the Institute of Neurology and Neurosurgery, 130 operations with application of 2D iUS have been performed. Starting from March till May 2012, 17 patients went under surgical treatment using the intraoperative ultrasound integrated neuronavigation system. Results: We applied ultrasound neuronavigation system in 17 cases on patients with diverse pathologies, including brain tumors (craniopharyngeoma, corpus callosum and intracerebral glioblastoma, intraaxial glioma), vascular patology (arteriovenous malformations, aneurysms), spontaneous intracerebral hemorrhage. Application of ultrasound neuronavigation system aids in improving postoperative outcomes for these patients. Conclusions: Th e integration of 3D US with neuronavigation technology created an effi cient and inexpensive tool for intraoperative imaging in neurosurgery. Th e technology has been applied to optimize surgery of brain tumors, but it has also been found to be useful in other procedures such as operations for aneurysms or arteriovenous malformations. iUS is easy to use and has a rapid learning curve which makes it a useful tool to the neurosurgeons intraoperative armamentarium.

Effect of the High-Pitch Mode in Dual-Source Computed Tomography on the Accuracy of Three-Dimensional Volumetry of Solid Pulmonary Nodules: A Phantom Study

OBJECTIVE: To evaluate the influence of high-pitch mode (HPM) in dual-source computed tomography (DSCT) on the accuracy of three-dimensional (3D) volumetry for solid pulmonary nodules. MATERIALS AND METHODS: A lung phantom implanted with 45 solid pulmonary nodules (n = 15 for each of 4-mm, 6-mm, and 8-mm in diameter) was scanned twice, first in conventional pitch mode (CPM) and then in HPM using DSCT. The relative percentage volume errors (RPEs) of 3D volumetry were compared between the HPM and CPM. In addition, the intermode volume variability (IVV) of 3D volumetry was calculated. RESULTS: In the measurement of the 6-mm and 8-mm nodules, there was no significant difference in RPE (p > 0.05, respectively) between the CPM and HPM (IVVs of 1.2 +/- 0.9%, and 1.7 +/- 1.5%, respectively). In the measurement of the 4-mm nodules, the mean RPE in the HPM (35.1 +/- 7.4%) was significantly greater (p < 0.01) than that in the CPM (18.4 +/- 5.3%), with an IVV of 13.1 +/- 6.6%. However, the IVVs were in an acceptable range (< 25%), regardless of nodule size. CONCLUSION: The accuracy of 3D volumetry with HPM for solid pulmonary nodule is comparable to that with CPM. However, the use of HPM may adversely affect the accuracy of 3D volumetry for smaller (< 5 mm in diameter) nodule.

Measurements of anterior chamber depth, white-to-white distance, anterior chamber angle, and pupil diameter using two Scheimpflug imaging devices / Medida da profundidade da câmara anterior, distância branco a branco, ângulo da câmara anterior e diâmetro pupilar usando dois dispositivos de imagens de Scheimpflug

Purpose: To compare the ocular anterior chamber depth, white-to-white distance, anterior chamber angle, and pupil diameter, as measured with two different Scheimpflug imaging devices. Methods: This transversal study included 80 right eyes from 80 subjects aged from 20 to 40 years. Their spherical equivalents ranged from -4.25 to +1.00 diopters (D). Each eye's anterior chamber depth, white-to-white distance, anterior chamber angle, and pupil diameter, were measured for far vision using both the Galilei G4 (double Scheimpflug camera) and the Pentacam HR (single Scheimpflug camera) systems. Results: Mean anterior chamber depths were calculated as 3.12 ± 0.23 mm and 3.19 ± 0.24 mm when measured with the Galilei G4 and the Pentacam HR, respectively. The mean white-to-white distance measured was 11.84 ± 0.31 mm and 11.90 ± 0.43 mm when measured with the Galilei G4 and the Pentacam HR, respectively. Mean pupil diameters were measured as 3.22 ± 0.58 mm and 3.22 ± 0.52 mm when measured with the Galilei G4 and the Pentacam HR, respectively. Finally, the mean anterior chamber angle was 34.30 ± 2.86 degrees when it was measured with the Galilei G4, and 39.26 ± 2.85 degrees when measured with the Pentacam HR. A comparative analysis revealed that the Galilei G4 yielded a significantly lower (P<0.05) measurement for the anterior chamber depth, anterior chamber angle, and pupil diameter, than the Pentacam HR system. Comparable values (P>0.05) for both devices were obtained for the white-to-white distance measurements. Conclusion: The Galilei G4 and Pentacam HR Scheimpflug systems cannot be used interchangeably because they produce significant measurement differences. .

Objetivo: Avaliar a medida da profundidade da câmara anterior, distância branco a branco, ângulo da câmara anterior e diâmetro pupilar usando dois dispositivos de imagens de Scheimpflug diferentes. Métodos: Este estudo transversal incluiu 80 olhos direitos de 80 indivíduos com idades entre 20 e 40 anos. O equivalente esférico variou de -4,25 a +1,00 dioptrias (D). A profundidade da câmara anterior de cada olho, a distância branco a branco, o ângulo da câmara anterior e o diâmetro pupilar, foram medidos para visão de longe usando tanto o Galilei G4 (câmera de Scheimpflug dupla) e os sistemas Pentacam HR (câmera de Scheimpflug simples). Resultados: A profundidade média da câmara anterior foi 3,12 ± 0,23 mm e 3,19 ± 0,24 mm, usando o Galilei G4 e o Pentacam HR, respectivamente. A distância média da medida de branco a branco com o Galilei G4 foi 11,84 ± 0,31 mm e com o HR Pentacam foi 11,90 ± 0,43 mm. A média do diâmetro pupilar foi 3,22 ± 0,58 mm e 3,22 ± 0,52 mm, medidos com o Galilei G4 e o Pentacam HR, respectivamente. Finalmente, a média do ângulo da câmara anterior foi de 34,30 ± 2,86 graus quando foi medido com o G4 Galileu, e 39,26 ± 2,85 graus com o Pentacam HR. A comparação revelou que o dispositivo Galilei G4 mediu significativamente menor (P<0,05) profundidade da câmara anterior, ângulo da câmara anterior e diâmetro da pupila do que o sistema de Pentacam HR, enquanto valores comparáveis (P>0,05) entre os dois dispositivos Scheimpflug foram obtidos para as medidas da distância branco a branco. Conclusão: O Galileu G4 e o Pentacam HR não podem ser usados indiferentemente, devido ás diferenças entre os dois aparelhos terem sido significativas sob o ponto de vista clínico. .

Computer Aided Designing-Computer Aided Milling in Prosthodontics: A Promising Technology for Future.

Computer aided designing-computer aided milling (CAD-CAM) technology was introduced to dentistry way back in 1971. Over the years there has been a constant upgradation in the quality and popularity of its application to dentistry. CAD-CAM fabricated prosthesis though initially were considered costly and technique sensitive, nowadays they are being extensively used because of advancements in various CAD-CAM systems that have gained popularity. Th e ease of work and reduced chair side time makes them a boon while providing prosthodontics treatment. Dental CAD-CAM systems are being used not only for crowns and bridges, inlays and onlays but also for fabrication of removable prosthesis, stents, and implant components. Th is article reviews the evolution of the CAD-CAM system and its applications in the fi eld of dentistry over the past two and a half decades.

Real Stereopsis Test Using a Three-Dimensional Display with Tridef Software

PURPOSE: To investigate horizontal image disparity in three-dimensional (3-D) perception using 3-D animations in normal control patients and patients with intermittent exotropia, anisometropic amblyopia, and partially accommodative esotropia. MATERIALS AND METHODS: A total of 133 subjects were included. Stereopsis was measured using the Titmus Stereo test (Stereo Optical Inc., Chicago, IL, USA) and a 3-D stereopsis test with a 15 inch 3-D display laptop, adjusting 3-D parameters of 0 mm horizontal disparity to 15 mm horizontal disparity. RESULTS: When compared with normal controls, the average threshold of the 3-D stereopsis test was significantly reduced for esotropia patients (p<0.001) and for anisometric amblyopia patients (p<0.001), compared to normal controls. No significant difference was observed between normal controls and intermittent exotropia patients (p=0.082). The 3-D stereopsis test was correlated with the Titmus Stereo test (Spearman's rho=0.690, p<0.001). Mean difference in stereoacuity was 1.323 log seconds of arc (95% limits of agreement: 0.486 to 2.112), and 125 (92.5%) patients were within the limits of agreement. CONCLUSION: This study demonstrated that a 3-D stereopsis test with animation is highly correlated with the Titmus Stereo test; nevertheless, 3-D stereopsis with animations generates more image disparities than the conventional Titmus Stereo test. The 3-D stereopsis test is highly predictive for estimating real stereopsis in a 3-D movie theater.

Nuevas técnicas en ultrasonido tridimensional / New techniques in 3D ultrasound

La incorporación del ultrasonido (US) tridimensional (3D) ha tenido un gran impacto en la práctica obstétrica permitiendo visualizar estructuras anatómicas fetales, en especial la cara, de una manera mucho más real, lo cual ha demostrado tener gran importancia en el vínculo prenatal. Pero más allá de poder adquirir excelentes imágenes superficiales, la técnica 3D permite ver el plano ortogonal y navegar libremente a través del volumen obtenido. En la actualidad un gran número de equipos de ultrasonografía cuentan con capacidad tridimensional de última generación, y varios de ellos disponen de software adecuado para efectuar un número muy importante de operaciones sobre el volumen obtenido. Sin embargo, muy frecuentemente, el manejo que efectuamos de la ecografía 3D se encuentra limitado a la obtención de imágenes de la superficie fetal desperdiciando una importantísima cantidad de recursos adicionales. El propósito de este artículo es brindar al lector una descripción clara y una compresión sencilla de las diferentes herramientas de las que dispone en su equipo 3D con el propósito de que las pueda incorporar a su práctica clínica o a la investigación.

Neuronavegador cirúrgico guiado por imagens de ressonância magnética pré-operatória, baseado num transdutor de posição magnético / Surgical neuronavigator guided by preoperative magnetic resonance images, based on a magnetic position sensor

Neurocirurgia guiada por imagem permite ao neurocirurgião navegar dentro do cérebro do paciente, usando imagens préoperatórias como orientação, através do uso de sistemas de rastreamento 3D, durante o procedimento cirúrgico. Seguindo um procedimento de calibração, a posição tridimensional e a orientação dos instrumentos cirúrgicos podem ser transmitidas ao computador. Estas informações espaciais são usadas para acessar a região de interesse nas imagens pré-operatórias com a finalidade de apresentá-las ao cirurgião durante o procedimento cirúrgico. Contudo, quando se faz a craniotomia para a remoção da lesão, o movimento do tecido cerebral pode ser fonte significativa de erro nestes sistemas de navegação. A arquitetura implementada neste trabalho visa o desenvolvimento de um sistema que permite planejamento e orientação cirúrgica guiada por imagem de ultrassom. Para orientação cirúrgica foi desenvolvido um software que permite extrair fatias do volume de imagens de ressonância magnética (IRM), com orientação fornecida por um transdutor espacial baseado em indução magnética (Polhemus®). As fatias extraídas com este software são importantes porque mostram a região do cérebro que o neurocirurgião está observando durante o ato cirúrgico e, além disso, elas podem ser correlacionadas com imagens de ultrassom (IUS) intra-operatórias para detectar e corrigir a deformação do tecido cerebral durante a cirurgia. A ferramenta para navegação pre-cirúrgica foi desenvolvida para fornecer três fatias ortogonais obtidas através do volume de imagens. Na metodologia usada para a implementação do software, foi utilizada a linguagem de programação Python™ e a biblioteca gráfica Visualization Toolkit (VTK). O programa para extrair fatias do volume de IRM permitiu a aplicação de transformações ao volume, com base nos valores de coordenadas fornecidos pelo transdutor de posição Polhemus®.

Image guided neurosurgery enables the neurosurgeon to navigate inside the patient’s brain using pre-operative images as a guide and a tracking system, during a surgery. Following a calibration procedure, three-dimensional position and orientation of surgical instruments may be transmitted to computer. The spatial information is used to access a region of interest, in the pre-operative images, displaying them to the neurosurgeon during the surgical procedure. However, when a craniotomy is involved and the lesion is removed, movements of brain tissue can be a significant source of error in these conventional navigation systems. The architecture implemented in this work intends the development of a system to surgical planning and orientation guided by ultrasound image. For surgical orientation, the software developed allows the extraction of slices from the volume of the magnetic resonance images (MRI) with orientation supplied by a magnetic position sensor (Polhemus®). The slices extracted with this software are important because they show the cerebral area that the neurosurgeon is observing during the surgery, and besides they can be correlated with the intra-operative ultrasound images to detect and to correct the deformation of brain tissue during the surgery. Also, a tool for per-operative navigation was developed, providing three orthogonal planes through the image volume. In the methodology used for the software implementation, the Python™ programming language and the Visualization Toolkit (VTK) graphics library were used. The program to extract slices of the MRI volume allowed the application of transformations in the volume, using coordinates supplied by the position sensor.