3D stereophotogrammetry quantification for tissue repositioning using Botulinum toxin A: a case report / Quantificação por estereofotogrametria 3D para reposicionamento tecidual com Toxina botulínica A: relato de caso

Hereby, we objectively assessed the outcomes of a facial-lifting procedure with Botulinum toxin type A (BoNT-A) using a 3D stereophotogrammetry quantification (3D-SQ). A 46-year-old female patient received a full face BoNT-A treatment in a total dose of 180 Speywood Units (sU). Frontal, lateral and oblique photographs were taken before and 20 days after treatment, at rest and during mimic movements. Also, a facial scanning was performed before and 20 days after BoNT-A injections. The results were analyzed using a 3D-SQ software. The photographs showed a decrease in expression lines and dynamic wrinkles. In addition, a better-defined jawline and volume gain in the midface area with improvement of the profile appearance, due to the reduction of the sagging skin under the chin, was observed. The 3D-SQ showed volume gains of 1.17 ml on the right and of 1.59 ml on the left cheekbone areas, due to the cranially soft-tissue repositioning. In addition, a decrease in the volume of melomental folds areas (0.27ml on the right and 0.41 ml on the left side) was reported, compatible to the above-mentioned volume gain. Measurements considering cephalometric points showed a decrease in the total facial height (distance from Trichion to Mental points), suggesting a soft tissue dislocation in an upward direction. Finally, this case report showed quantitative results that can evidence the role of BoNT-A in facial- lifting procedures. These results reinforce the importance of using a 3D-SQ to assess the outcomes of BoNT-A and, probably, other aesthetic procedures.(AU)

No presente estudo avaliamos objetivamente os resultados de um procedimento de lifting facial com toxina botulínica tipo A (BoNT-A) usando uma quantificação de estereofotogrametria 3D (3D-SQ). Uma paciente do sexo feminino de 46 anos recebeu um tratamento facial completo com BoNT-A em uma dose total de 180 unidades Speywood (sU). Fotografias frontais, laterais e oblíquas foram tomadas antes e 20 dias após o tratamento, em repouso e durante os movimentos mímicos. Além disso, um escaneamento facial foi realizado antes e 20 dias após as injeções de BoNT-A. Os resultados foram analisados por meio de um software 3D-SQ. As fotografias mostraram uma diminuição das linhas de expressão e rugas dinâmicas. Além disso, observou-se um maxilar mais bem definido e ganho de volume na região média da face com melhora da aparência do perfil, devido à redução da flacidez da pele sob o queixo. O 3D-SQ apresentou ganho de volume de 1,17 ml à direita e 1,59 ml à esquerda, devido ao reposicionamento do tecido mole. Além disso, foi relatada diminuição do volume das áreas do sulco mentual (0,27 ml à direita e 0,41ml à esquerda), compatível com o ganho de volume acima citado. As medidas considerando os pontos cefalométricos mostraram uma diminuição da altura facial total (distância dos pontos Triquion ao Mentual), sugerindo um deslocamento superior dos tecidos moles. Em conclusão, este relato de caso mostrou resultados quantitativos que podem evidenciar o papel da BoNT-A em procedimentos de lifting facial. Esses resultados reforçam a importância da 3D-SQ para avaliar objetivamente os resultados de harmonização orofacial com BoNT-A e outros materiais. (AU)

Eficácia do tratamento ortodôntico com sistema invisalign / Efficiency of orthodontic treatment with invisalign system – a case report

Com o aumento da preocupação com a estética na Ortodontia, novas alternativas de tratamento têm sido criadas, sendo o Invisalign uma delas. Desenvolvido pela Align Technology, esse sistema ortodôntico é composto por moldeiras transparentes fabricadas de forma digital. Este artigo teve como objetivo relatar a utilização do Invisalign no tratamento ortodôntico de um paciente residente no exterior, e avaliar o controle da movimentação dentária em consultas com grandes intervalos, assim como sua eficácia no tratamento de más-oclusões.

With increasing concern with aesthetics in orthodontics, new treatment options have been created, like the Invisalign. Developed by Align Technology, this orthodontic system is composed by transparent trays made in digital form. The aim of this article is to report the use of Invisalign orthodontic treatment of a patient living abroad, and to evaluate the control of tooth movement on appointments with large ranges, as well as its effectiveness in the treatment of malocclusion.

Processamento de estruturas tridimensionais de Medicina Nuclear na modalidade PET / Processing of three-dimensional structures of Nuclear Medicine in PET modality

A Medicina Nuclear, como especialidade de obtenção de imagens médicas é um dos principais procedimentos utilizados hoje nos centros de saúde, tendo como grande vantagem a capacidade de analisar o comportamento metabólico do paciente. Este projeto está baseado em imagens médicas obtidas através da modalidade PET (Positron Emission Tomography). Para isso, foi desenvolvida uma estrutura de processamento de imagens tridimensionais PET, constituída por etapas sucessivas que se iniciam com a obtenção das imagens padrões (gold standard), sendo utilizados para este fim volumes simulados do Ventrículo Esquerdo do Coração criadas como parte do projeto, assim como phantoms gerados com o software NCAT-4D. A seguir, nos volumes simulados é introduzido ruído Poisson que é o ruído característico das imagens PET. Na sequência é executada uma etapa de pré-processamento, utilizando alguns filtros 3D tais como o filtro da mediana, o filtro da Gaussiana ponderada e o filtro Anscombe/Wiener. Posteriormente é aplicada a etapa de segmentação, processo baseado na teoria de Conectividade Fuzzy sendo implementadas quatro diferentes abordagens 3D: Algoritmo Genérico, LIFO, kTetaFOEMS e Pesos Dinâmicos. Finalmente, um procedimento de avaliação conformado por três parâmetros (Verdadeiro Positivo, Falso Positivo e Máxima Distância) foi utilizado para mensurar o nível de eficiência e precisão do processo. Constatou-se que o par Filtro - Segmentador constituído pelo filtro Anscombe/Wiener junto com o segmentador Fuzzy baseado em Pesos Dinâmicos proporcionou os melhores resultados, com taxas de VP e FP na ordem de 98,49 ± 0,27% e 2,19 ± 0,19%, respectivamente, para o caso do volume do Ventrículo Esquerdo simulado. Com o conjunto de escolhas feitas ao longo da estrutura de processamento, encerrou-se o projeto analisando um número reduzido de volumes pertencentes a um exame PET real, obtendo-se a quantificação dos volumes.

The Nuclear medicine, as a specialty to obtain medical images is very important, and it has became one of the main procedures utilized in Health Care Centers to analyze the metabolic behavior of the patient. This project was based on medical images obtained by the PET modality (Positron Emission Tomography). Thus, we developed a framework for processing Nuclear Medicine three-dimensional images of the PET modality, which is composed of consecutive steps that start with the generation of standard images (gold standard) by using simulated images of the Left Ventricular Heart, such as phantoms obtained from the NCAT-4D software. Then, Poisson quantum noise was introduced into the whole volume to simulate the characteristic noises in PET images. Subsequently, the pre-processing step was executed by using specific 3D filters, such as the median filter, the weighted Gaussian filter, and the Anscombe/Wiener filter. Then the segmentation process, which is based on the Fuzzy Connectedness theory, was implemented. For that purpose four different 3D approaches were implemented: Generic, LIFO, kTetaFOEMS, and Dynamic Weight algorithm. Finally, an assessment procedure was used as a measurement tool to quantify three parameters (True Positive, False Positive and Maximum Distance) that determined the level of efficiency and precision of our process. It was found that the pair filter - segmenter formed by the Anscombe/Wiener filter together with the Fuzzy segmenter based on Dynamic Weights provided the best results, with VP and FP rates of 98.49 ± 0.27% and 2.19 ± 0.19%, respectively, for the simulation of the Left Ventricular volume. Along with the set of choices made during the processing structure, the project was finished with the analysis of a small number of volumes that belonged to a real PET test, thus the quantification of the volumes was obtained.

Contrornos radiculares de imágenes radiográficas dentales detectatdos bajo ambiente Matlab: estudio piloto / Roots contours in dental radiographic images detected under Matlab environment: a pilot study

La denominación placa o película fotográfica de rayos X designa una imagen obtenida por radiación electromagnética, invisible, capaz de atravesar cuerpos opacos con la finalidad de visualizar los cuerpos duros (estructura ósea). Las imágenes de rayos X convencionales, en el ámbito de la odontología ofrece una imagen con información visual bidimensional insuficiente desde el punto de vista de las mediciones de contornos radiculares, en este sentido, el presente estudio sugiere procesar la radiografía para reconstruir la imagen en 3D y detectar los contornos de las mismas, bajo ambiente Matlab. Se aplicó dicho proyecto a varias radiografías dentales donde se pudo evidenciar con mayor exactitud y precisión diversos factores que conllevan a un tratamiento más certero. Este procedimiento permitió que imágenes originales en niveles de grises y con poca discriminación visual pasen a tener color con alto contraste visual, asociado a la densidad del tejido con los distintos niveles de combinación de los componentes de la matriz de colores. De esta forma, el profesional consigue localizar fácilmente, con un mínimo margen de error, el foco de interés para tratamientos en las diversas áreas de la odontología, ofreciendo así, un plan de tratamiento más acertado al paciente.

The designations plate or photographic pel X-rays denotes an image obtained by Electromagnetic radiation, invisible, able to pass through opaque bodies in order to view the hard bodies (bone structure). The conventional X-ray images in dentistry provide an insufficient image with bidimensional visual information for what this study suggests to reconstruct a 3D image and detect the contours of the same, under Matlab environment. This project was applied to several dental radiographs which became evident with greater accuracy and precision several factors that lead to more accurate treatment.. This procedure allowed the original images in gray levels and low pass visual discrimination have high visual contrast color associated with tissue density with different levels of combination of the components of the array of colors. Thus, the practitioners unable to locate easily, with a minimal margin of error, the focus of interest for treatment in various areas of dentistry, offering a successful treatment plan the patient.

Validity of midsagittal reference planes constructed in 3D CT images / 대한치과교정학회지

OBJECTIVE: The purpose of this study was to evaluate the validity of midsagittal reference (MSR) planes constructed in maxillofacial 3D images. METHODS: Maxillofacial computed tomography (CT) images were obtained in 36 normal occlusion individuals who did not have apparent facial asymmetry, and 3D images were reconstructed using a computer software. Six MSR planes (Cg-ANS-Ba, Cg-ANS-Op, Cg-PNS-Ba, Cg- PNS-Op, FH perpendicular (Cg, Ba), FH perpendicular (Cg, Op)) were constructed using the landmarks located in the midsagittal area of the maxillofacial structure, such as Cg, ANS, PNS, Ba and Op, and FH plane constructed with Po and Or. The six pairs of landmarks (Z, Fr, Fs, Zy, Mx, Ms), which represent right and left symmetry in the maxillofacial structure, were selected. Statistically significant differences of the right and the left measurements were examined through t-test, and the difference of the right and the left measurement was compared among the six MSR planes. RESULTS: The distances from the right and the left landmarks in each pair to each MSR plane did not show a statistically significant difference. The reproducibility of the landmark identification was excellent. CONCLUSION: All the six planes constructed in this study can be used as a MSR plane in maxillofacial 3D analysis, particularly, the planes including Cg and ANS.

Three Dimensional MRI and Software for Studying Normal Anatomical Structures of an Entire Body

For identifying the pathological findings in magnetic resonance images (MRIs), normal anatomical structures in MRIs should be identified in advance. For studying the anatomical structures in MRIs, a learning tool that includes the followings is necessary. First, MRIs of the entire body; second, horizontal, coronal, and sagittal MRIs; third, segmented images corresponding to the MRIs; fourth, three dimensional (3D) images of the anatomical structures in the MRIs; fifth, software incorporating the MRIs, segmented images, and 3D images. Such a learning tool, however, is hard to obtain. Therefore, in this research, such a learning tool which helps medical students and doctors study the normal anatomical structures in MRIs was made as follows. A healthy young Korean male adult with standard body shape was selected. Six hundred thirteen MRIs of the entire body were scanned (slice thickness 3 mm, interslice gap 0 mm, field of view 480 mm x 480 mm, resolution 512 x 512, T1 weighted), and transferred to the personal computer. Sixty anatomical structures in the MRIs were segmented to make segmented images. Coronal, sagittal MRIs and coronal, sagittal segmented images were made. On the basis of the segmented images, forty-seven anatomical structures' 3D images were made by manual surface reconstruction method. Software incorporating the MRIs, segmented images, and 3D images was composed. This learning tool that includes horizontal, coronal, sagittal MRIs of the entire body, corresponding segmented images, 3D images of the anatomical structures in the MRIs, and software is expected to help medical students and doctors study the normal anatomical structures in MRIs. This learning tool will be presented worldwide through Internet or CD titles.

Three-Dimensional Images and Software for Studying Anatomical Structures in MRIs / 체질인류학회지

Medical students and doctors should study the appearance of normal anatomical structures in the magnetic resonance images (MRIs). For this purpose, horizontal, coronal, sagittal MRIs of a healthy entire body and corresponding segmented images were prepared. However, it is inconvenient to select interesting MRIs and segmented images; and it is difficult to understand how stereoscopic anatomical structures appear in the MRIs. Therefore, in this research, a software, on which interesting MRIs can be conveniently displayed among the horizontal, coronal, sagittal MRIs and corresponding segmented images can be displayed together, was composed. And after stacking the segmented images, three-dimensional (3D) image of each anatomical structure was manually reconstructed by surface rendering. Then another software, on which interesting 3D images of anatomical structures can be displayed and rotated, was composed too. These softwares are expected to help medical students and doctors understand normal anatomical structures in the MRIs and read pathological findings in the MRIs of patients.