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On-Board Imaging of Respiratory Motion: Investigation of Markerless and Self-Sorted Four-Dimensional Cone-Beam CT (4D-CBCT)Vergalasova, Irina January 2013 (has links)
<p>To date, image localization of mobile tumors prior to radiation delivery has primarily been confined to 2D and 3D technologies, such as fluoroscopy and 3D cone-beam CT (3D-CBCT). Due to the limited information from these images, larger volumes of healthy tissue are often irradiated in order to ensure the radiation field encompasses the entirety of the target motion. Since the overarching goal of radiation therapy is to deliver maximum dose to cancerous cells and simultaneously minimize the radiation delivered to healthy surrounding tissues, it would be ideal to use 4D imaging to obtain time-resolved volume images of the tumor motion during respiration. </p><p>4D-CBCT imaging has been previously investigated, but has not yet seen large clinical translation due to the obstacles of long acquisition time and large image radiation dose. Furthermore, 4D-CBCT currently requires the use of external surrogates to correlate the patient's respiration with the image acquisition process. This correlation has been under question by a multitude of studies demonstrating the uncertainties that exist between the surrogate and the actual motion of the internal anatomy. Errors in the correlation process may result in image artifacts, which could potentially lead to reconstructions with inaccurate target volumes, thereby defeating the purpose of even using 4D-CBCT. </p><p>It is therefore the aim of this dissertation to initially highlight an additional limitation of using 3D-CBCT for imaging respiratory motion and thereby reiterate the need for 4D-CBCT imaging in the treatment room, develop a simple and efficient technique to achieve markerless, self-sorted 4D-CBCT and finally to comprehensively evaluate its robustness across a variety of potential clinical scenarios with a digital human phantom. </p><p>People often spend a longer period of time exhaling as compared with inhaling, and some do so in an extremely disproportionate manner. To demonstrate the disadvantage of using 3D-CBCT in such instances, a dynamic thorax phantom was imaged with a large variety of simulated and patient-derived respiratory traces of ratios of time spent in the inspiration phase versus time spent in the expiration phase (I/E ratio). Canny edge detection and contrast measures were employed to compare the internal target volumes (ITVs) generated per profile. The results revealed that an I/E ratio of less than one can lead to potential underestimation of the ITV with the severity increasing as the inspiration becomes more disproportionate to the expiration. This occurs because of the loss of contrast in the inspiration phase, due to the fewer number of projections acquired there. The measured contrast reduction was as high as 94% for small targets (0.5 cm) moving large amplitudes (2.0 cm) and still as much as 22.3% for large targets (3.0 cm) moving small amplitudes (0.5 cm). This is alarming because the degraded visibility of the target in the inspiration phase may inaccurately impact the alignment of the planning ITV with that of the FB-CBCT and thereby affect the accuracy of the localization and consequent radiation delivery. These potential errors can be avoided with the use of 4D-CBCT instead, to form the composite volume and serve as the verification ITV for alignment.</p><p>In order to delineate accurate target volumes from 4D-CBCT phase images, it is crucial that the projections be properly associated with the patient's respiration. Thus, in order to improve previously developed 4D-CBCT techniques, the basics of Fourier Transform (FT) theory were utilized to extract the respiratory signal directly from the acquired projection data. Markerless, self-sorted 4D-CBCT reconstruction was achieved by developing methods based on the phase and magnitude information of the Fourier Transform. Their performance was subsequently compared to the gold standard of visual identification of peak-inspiration projections. Slow-gantry acquired projections of two sets of physical phantom data with sinusoidal respiratory cycles of 3 and 6 seconds as well as three patients were used as initial evaluation of the feasibility of the Fourier technique. Quantitative criteria consisted of average difference in respiratory phase (ADRP) and percentage of projections assigned within 10% respiratory phase of the gold standard (PP10). For all five projection datasets, the results supported feasibility of both FT-Phase and FT-Magnitude methods with ADRP values less than 5.3% and PP10 values of 87.3% and above. </p><p>Because the technique proved to be promising in the initial feasibility study, a more comprehensive evaluation was necessary in order to assess the robustness of the technique across a larger set of possibilities that may be encountered in the clinic. A 4D digital XCAT phantom was used to generate an array of respiratory and anatomical variables that affect the performance of the technique. The respiratory variables studied included: inspiration to expiration ratio, respiratory cycle length, diaphragmatic motion amplitude, AP chest wall expansion amplitude, breathing irregularities such as baseline shift and inconsistent peak-inspiration amplitude, as well as six breathing profiles derived from cine-MRI images of three healthy volunteers and three lung cancer patients. The anatomical variables studied included: male and female patient size (physical dimension and adipose content), body-mass-index (BMI) category, tumor location, and percentage of the lung in the field-of-view (FOV) of the projection data. CBCT projections of each XCAT phantom were then generated. Additional external imaging factors such as image noise and detector wobble were added to select cases with different percentages of lung in the projection FOV to investigate any effects on the robustness. FT-Phase and FT-Magnitude were each applied and quantitatively compared to the gold standard. Both methods proved to be robust across the studied scenarios with ADRP<10% and PP10>90%, when incorporating minor modifications to region-of-interest (ROI) selection and/or low-frequency location to certain cases of diaphragm amplitude and lung percentage in the FOV of the projection (for which a method may have previously struggled). Nevertheless, in the instance where one method initially faltered, the other method prevailed and successfully identified peak-inspiration projections. This is promising because it suggests that the two methods provide complementary information to each other. To ensure appropriate clinical adaptation of markerless, self-sorted 4D-CBCT, perhaps an optimal integration of the two methods can be developed.</p> / Dissertation
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Tooth length measurement accuracy and reliability with cone-beam CT and panoramic radiographyRosenblatt, Mark 06 1900 (has links)
This study assessed the accuracy and reliability of tooth length measurements through axial, coronal and sagittal serial slices of CBCT volumes; conventional panoramic radiographs; and CBCT panoramic reconstructions to that of a digital caliper gold standard. Samples consisted of maxillary premolars collected from patients requiring extractions for routine orthodontic treatment. Extracted teeth were measured directly with digital calipers and images were digitally measured in Dolphin 3D software. Analysis of CBCT serial slices resulted in highly accurate and reliable tooth length measurements for all slice orientations compared to the gold standard. Conventional panoramic radiographs were relatively inaccurate, overestimating tooth lengths by 29%, while CBCT panoramic reconstructions underestimated lengths by 4%. CBCT serial slice volume analysis provides clinicians with greater measurement confidence, while panoramic radiographs, produced either by conventional means or reconstructed from 3-D volumes should be considered less accurate and reliable for the detection of mild root resorption. / Medical Sciences - Orthodontics
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Avaliação da raiz mesiovestibular de primeiros molares superiores para detecção do canal mesiopalatino com o uso da tomografia computadorizada de feixe cônicoFontana, Mathias Pante January 2017 (has links)
Os molares superiores são um dos grupos dentários que mais recebem tratamentos endodônticos e apresentam grande complexidade anatômica nos seus sistemas de canais radiculares. A presença de um canal mesiopalatino (MP) na raiz mesiovestibular é um achado bastante comum e a sua não detecção está relacionada com um alto índice de insucessos na terapia endodôntica. Recentemente, a tomografia computadorizada de feixe cônico (TCFC) vem ganhando destaque na avaliação do canal MP pela sua capacidade de fornecer informações detalhadas e em três dimensões, sendo considerada o melhor método de imagem para essa investigação in vivo. Desta forma, o objetivo desta tese foi pesquisar a prevalência e simetria do número de canais da raiz mesiovestibular em primeiros molares superiores homólogos, por meio da TCFC, assim como, analisar o uso dos filtros de refinamento de imagem para esta investigação. Para o primeiro objetivo, desenvolveu-se uma pesquisa com 264 pacientes possuindo o primeiro molar superior bilateralmente. Foi encontrada simetria em 78,79% dos pacientes, sendo que o canal MP esteve presente bilateralmente em 67,42%. Do total de 528 dentes avaliados, 78% apresentaram o canal MP não havendo correlação da sua presença com sexo e faixa etária (p > 0,05). Para o segundo objetivo, 30 exames de TCFC foram avaliados com cinco diferentes filtros (Original, Smooth, Sharpen, Sharpen Mild, Angio Sharpen Low e Angio Sharpen High) além das imagens originais (sem filtro). Todos os filtros apresentaram altos índices de acurácia (> 83,3%), sensibilidade (> 90%) e especificidade (> 62%), sem diferença estatística (p > 0,05). Entretanto, quando o nível de certeza foi avaliado, os filtros Angio Sharpen High e Sharpen apresentaram os piores resultados, com diferença significativa para as imagens Originais (p <0,05). Os resultados das pesquisas conduzidas permitem concluir que o canal MP é uma condição altamente prevalente e a sua simetria bilateral é frequente. O emprego de filtros de imagem da TCFC não influenciou a detecção do canal MP, entretanto os filtros de maior realce devem ser evitados pois reduzem a certeza do diagnóstico. / The upper molars are the dental group that most receives endodontic treatments and presents great anatomical complexity of their root canal systems. The presence of a second mesiobuccal canal (MB2) is a common finding and its non-detection is related to a high failure rate in endodontic therapy. Recently, cone-beam computed tomography (CBCT) has been highlighted in the MB2 evaluation for its ability to provide detailed and three-dimensional information, and is considered the best imaging method for such investigation in vivo. Thus, the aim of this thesis was to investigate the prevalence and symmetry of the root canal numbers from the mesiobuccal root of first homologous upper molars, as well as to evaluate the use of CBCT image filters for that purpose. For the first objective, a research was developed with 264 patients having the first upper molar bilaterally. Symmetry was found in 78.79% patients, and the MB2 was bilaterally present in 67.42%. Out the total of 528 teeth evaluated, 78% presented the MB2, with no correlation with sex and age group (p > 0.05). For the second objective, 30 CBCT scans were evaluated with five different filters (Original, Smooth, Sharpen, Sharpen Mild, Angio Sharpen Low and Angio Sharpen High) in addition to the original images (none filter). All filters presented high levels of accuracy (> 83.3%), sensitivity (> 90%) and specificity (> 62%), with no statistical difference (p > 0.05). However, when the level of certainty was evaluated, Angio Sharpen High and Sharpen filters presented the worst results, with significant difference for Original images (p < 0.05). The results of the conducted studies allow us to conclude that the MB2 is a highly prevalent condition and its bilateral simmetry is frequent. The use of CBCT image filters did not influence the MB2 detection, however higher enhancement filters should be avoided because they reduce the certainty of the diagnosis.
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Avaliação da cirurgia de avanço mandibular por meio da superposição de modelos tridimensionais / Avaliação da cirurgia de avanço mandibular por meio da superposição de modelos tridimensionais / Avaliação da cirurgia de avanço mandibular por meio da superposição de modelos tridimensionais / Assessment of mandibular advancement surgery with 3D CBCT models superimposition / Assessment of mandibular advancement surgery with 3D CBCT models superimposition / Assessment of mandibular advancement surgery with 3D CBCT models superimpositionAlexandre Trindade Simões da Motta 10 August 2007 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Deslocamentos de côndilos e ramos acompanhando a cirurgia de avanço mandibular foram descritos, mas a influência destas mudanças na instabilidade pós-cirúrgica ainda é pouco conhecida. Limitações na avaliação quantitativa de deslocamentos cirúrgicos pelos métodos tradicionais podem ser superadas através da tomografia cone beam e ferramentas de imagens tridimensionais. O objetivo deste trabalho foi avaliar as mudanças nas posições de côndilos, ramos e mento após cirurgia isolada de avanço de mandíbula. Foram realizadas tomografias computadorizadas de feixe cônico (CBCT) antes da cirurgia (T1), 1 semana (T2) e 6 semanas após a cirurgia (T3) em 20 pacientes retrognatas com padrão normal ou horizontal (14 mulheres e 6 homens, idade média = 27,08 anos, variação de 13,9 a 53,7 anos) submetidos à osteotomia bilateral sagital do ramo para avanço mandibular, sete deles com mentoplastia como procedimento auxiliar. Modelos 3D computadorizados foram construídos e superpostos utilizando-se a base do crânio de T1 como referência. Para a superposição, utilizou-se um método automático que identifica e compara a escala de cinza dos voxels de duas estruturas tridimensionais, eliminando a necessidade de marcação de pontos anatômicos pelo operador. Após a combinação dos modelos das três fases, regiões anatômicas de interesse foram selecionadas, sendo analisadas separadamente. Distâncias entre as superfícies anatômicas foram computadas, no mesmo indivíduo, entre T1-T2, T2-T3 e T1-T3, exibindo as mudanças ocorridas com a cirurgia, após a remoção do splint cirúrgico, e a resultante total dos deslocamentos cirúrgicos, respectivamente. A navegação pelos modelos superpostos através dos métodos de visualização por mapas coloridos e semi-transparências permitiu a avaliação das direções de deslocamento das estruturas. Um deslocamento ântero-inferior do mento foi observado em todos os casos entre T1 e T2 (>4mm em 87,5%); entre T2 e T3 observou-se um movimento ântero-superior em 69% dos pacientes, e com algum componente posterior em 25% (<3mm). Entre T1-T3, observou-se um deslocamento ântero-inferior em 87,5% dos casos, e apenas anterior em 12,5% (>4mm em 80%). Considerando-se todas as direções de deslocamento, os côndilos apresentaram um movimento menor que 2mm em 77,5% (T1-T2) e 90% (T2-T3 e T1-T3) dos casos, enquanto os ramos deslocaram-se menos de 3mm em 72,5% (T1-T2) e menos de 2mm em 87,5% (T2-T3) e 82% (T1-T3) dos casos. Os côndilos apresentaram uma tendência de deslocamento látero-posterior com a cirurgia, e uma tendência oposta entre T2 e T3. Os ramos apresentaram tendência de deslocamento ínfero-latero-posterior com a cirurgia, mas súpero-medio-anterior entre T2 e T3. Entre T1-T3, as tendências foram médio-postero-superior nos côndilos e súpero-latero-anterior nos ramos. Importantes deslocamentos foram observados nos ramos e côndilos após o procedimento cirúrgico, mas as mudanças após a remoção do splint cirúrgico sugerem uma resposta adaptativa tendendo às posições pré-cirúrgicas. As mudanças no mento após seis semanas sugeriram adaptações aceitáveis na maioria dos casos. / Condyles and rami displacements following mandibular advancement surgery have been described, but these changes and bone remodeling/resorption influence on post-treatment instability are poorly understood at present. Cone beam computed tomography (CBCT) and 3D imaging tools can now overcome conventional methods limitations in assessing surgical displacements. The aim of this study was to assess surgery and short-term post-surgery changes in the position of the condyles, rami and chin with the superimposition of 3D cone-beam CT models. Pre-surgery (T1), 1 week post-surgery (T2), and 6 week post-surgery (T3) CBCT scans were acquired for 20 retrognathic patients (14 females and 6 males, mean age = 27.08 years, range = 13.9-53.7 years) with short or normal face height who underwent a BSSO mandibular advancement. Seven patients also received a genioplasty as an adjunctive procedure. 3D models were built and superimposed through a fully automated voxel-wise method using the cranial base of the pre-surgery scan as reference. After combining the 3 models, anatomic regions of the chin, right and left condyle and ramus were selected and analyzed separately. Within-subject surface distances between T1-T2, T2-T3, and T1-T3 were computed, showing changes with surgery, after splint removal, and the total movement resultant, respectively. Color-coded maps and semi-transparent display of overlaid structures allowed the evaluation of displacement directions. After an antero-inferior chin displacement with surgery in all the cases (>4mm in 87.5%), 25% of the patients showed some kind of posterior movement (< 3mm), and 69% showed an antero-superior movement after splint removal. Comparing T1-T3, an antero-inferior (87.5% of the cases) or only inferior (12.5%) displacement was observed (>4mm in 80%). Considering all directions of displacement, the surface distance differences for the condyles and rami were small: 77.5% of the condyles moved <2mm with surgery (T1-T2), and 90% moved <2mm in the short-term (T2-T3) and in the total evaluation (T1-T3), while the rami showed a <3mm change with surgery in 72.5% of the cases, and a <2mm change in 87.5% (T2-T3) and in 82% (T1-T3). The condyles tended to move latero-posteriorly with surgery compared to a medio-anterior movement between T2-T3. The rami exhibited outward movements with surgery (infero-latero-posterior) and supero-medio-anterior displacements from T2-T3. The displacement tendencies between T1-T3 were medio-postero-superior in the condyles, and supero-latero-anterior in the rami. Expected displacements with surgery were observed and post-surgery changes suggested a short-term adaptive response toward recovery of condyle and ramus displacements. The changes on the chin following splint removal suggested an acceptable adaptation.
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Avaliação da cirurgia de avanço mandibular por meio da superposição de modelos tridimensionais / Avaliação da cirurgia de avanço mandibular por meio da superposição de modelos tridimensionais / Avaliação da cirurgia de avanço mandibular por meio da superposição de modelos tridimensionais / Assessment of mandibular advancement surgery with 3D CBCT models superimposition / Assessment of mandibular advancement surgery with 3D CBCT models superimposition / Assessment of mandibular advancement surgery with 3D CBCT models superimpositionAlexandre Trindade Simões da Motta 10 August 2007 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Deslocamentos de côndilos e ramos acompanhando a cirurgia de avanço mandibular foram descritos, mas a influência destas mudanças na instabilidade pós-cirúrgica ainda é pouco conhecida. Limitações na avaliação quantitativa de deslocamentos cirúrgicos pelos métodos tradicionais podem ser superadas através da tomografia cone beam e ferramentas de imagens tridimensionais. O objetivo deste trabalho foi avaliar as mudanças nas posições de côndilos, ramos e mento após cirurgia isolada de avanço de mandíbula. Foram realizadas tomografias computadorizadas de feixe cônico (CBCT) antes da cirurgia (T1), 1 semana (T2) e 6 semanas após a cirurgia (T3) em 20 pacientes retrognatas com padrão normal ou horizontal (14 mulheres e 6 homens, idade média = 27,08 anos, variação de 13,9 a 53,7 anos) submetidos à osteotomia bilateral sagital do ramo para avanço mandibular, sete deles com mentoplastia como procedimento auxiliar. Modelos 3D computadorizados foram construídos e superpostos utilizando-se a base do crânio de T1 como referência. Para a superposição, utilizou-se um método automático que identifica e compara a escala de cinza dos voxels de duas estruturas tridimensionais, eliminando a necessidade de marcação de pontos anatômicos pelo operador. Após a combinação dos modelos das três fases, regiões anatômicas de interesse foram selecionadas, sendo analisadas separadamente. Distâncias entre as superfícies anatômicas foram computadas, no mesmo indivíduo, entre T1-T2, T2-T3 e T1-T3, exibindo as mudanças ocorridas com a cirurgia, após a remoção do splint cirúrgico, e a resultante total dos deslocamentos cirúrgicos, respectivamente. A navegação pelos modelos superpostos através dos métodos de visualização por mapas coloridos e semi-transparências permitiu a avaliação das direções de deslocamento das estruturas. Um deslocamento ântero-inferior do mento foi observado em todos os casos entre T1 e T2 (>4mm em 87,5%); entre T2 e T3 observou-se um movimento ântero-superior em 69% dos pacientes, e com algum componente posterior em 25% (<3mm). Entre T1-T3, observou-se um deslocamento ântero-inferior em 87,5% dos casos, e apenas anterior em 12,5% (>4mm em 80%). Considerando-se todas as direções de deslocamento, os côndilos apresentaram um movimento menor que 2mm em 77,5% (T1-T2) e 90% (T2-T3 e T1-T3) dos casos, enquanto os ramos deslocaram-se menos de 3mm em 72,5% (T1-T2) e menos de 2mm em 87,5% (T2-T3) e 82% (T1-T3) dos casos. Os côndilos apresentaram uma tendência de deslocamento látero-posterior com a cirurgia, e uma tendência oposta entre T2 e T3. Os ramos apresentaram tendência de deslocamento ínfero-latero-posterior com a cirurgia, mas súpero-medio-anterior entre T2 e T3. Entre T1-T3, as tendências foram médio-postero-superior nos côndilos e súpero-latero-anterior nos ramos. Importantes deslocamentos foram observados nos ramos e côndilos após o procedimento cirúrgico, mas as mudanças após a remoção do splint cirúrgico sugerem uma resposta adaptativa tendendo às posições pré-cirúrgicas. As mudanças no mento após seis semanas sugeriram adaptações aceitáveis na maioria dos casos. / Condyles and rami displacements following mandibular advancement surgery have been described, but these changes and bone remodeling/resorption influence on post-treatment instability are poorly understood at present. Cone beam computed tomography (CBCT) and 3D imaging tools can now overcome conventional methods limitations in assessing surgical displacements. The aim of this study was to assess surgery and short-term post-surgery changes in the position of the condyles, rami and chin with the superimposition of 3D cone-beam CT models. Pre-surgery (T1), 1 week post-surgery (T2), and 6 week post-surgery (T3) CBCT scans were acquired for 20 retrognathic patients (14 females and 6 males, mean age = 27.08 years, range = 13.9-53.7 years) with short or normal face height who underwent a BSSO mandibular advancement. Seven patients also received a genioplasty as an adjunctive procedure. 3D models were built and superimposed through a fully automated voxel-wise method using the cranial base of the pre-surgery scan as reference. After combining the 3 models, anatomic regions of the chin, right and left condyle and ramus were selected and analyzed separately. Within-subject surface distances between T1-T2, T2-T3, and T1-T3 were computed, showing changes with surgery, after splint removal, and the total movement resultant, respectively. Color-coded maps and semi-transparent display of overlaid structures allowed the evaluation of displacement directions. After an antero-inferior chin displacement with surgery in all the cases (>4mm in 87.5%), 25% of the patients showed some kind of posterior movement (< 3mm), and 69% showed an antero-superior movement after splint removal. Comparing T1-T3, an antero-inferior (87.5% of the cases) or only inferior (12.5%) displacement was observed (>4mm in 80%). Considering all directions of displacement, the surface distance differences for the condyles and rami were small: 77.5% of the condyles moved <2mm with surgery (T1-T2), and 90% moved <2mm in the short-term (T2-T3) and in the total evaluation (T1-T3), while the rami showed a <3mm change with surgery in 72.5% of the cases, and a <2mm change in 87.5% (T2-T3) and in 82% (T1-T3). The condyles tended to move latero-posteriorly with surgery compared to a medio-anterior movement between T2-T3. The rami exhibited outward movements with surgery (infero-latero-posterior) and supero-medio-anterior displacements from T2-T3. The displacement tendencies between T1-T3 were medio-postero-superior in the condyles, and supero-latero-anterior in the rami. Expected displacements with surgery were observed and post-surgery changes suggested a short-term adaptive response toward recovery of condyle and ramus displacements. The changes on the chin following splint removal suggested an acceptable adaptation.
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Avaliação da raiz mesiovestibular de primeiros molares superiores para detecção do canal mesiopalatino com o uso da tomografia computadorizada de feixe cônicoFontana, Mathias Pante January 2017 (has links)
Os molares superiores são um dos grupos dentários que mais recebem tratamentos endodônticos e apresentam grande complexidade anatômica nos seus sistemas de canais radiculares. A presença de um canal mesiopalatino (MP) na raiz mesiovestibular é um achado bastante comum e a sua não detecção está relacionada com um alto índice de insucessos na terapia endodôntica. Recentemente, a tomografia computadorizada de feixe cônico (TCFC) vem ganhando destaque na avaliação do canal MP pela sua capacidade de fornecer informações detalhadas e em três dimensões, sendo considerada o melhor método de imagem para essa investigação in vivo. Desta forma, o objetivo desta tese foi pesquisar a prevalência e simetria do número de canais da raiz mesiovestibular em primeiros molares superiores homólogos, por meio da TCFC, assim como, analisar o uso dos filtros de refinamento de imagem para esta investigação. Para o primeiro objetivo, desenvolveu-se uma pesquisa com 264 pacientes possuindo o primeiro molar superior bilateralmente. Foi encontrada simetria em 78,79% dos pacientes, sendo que o canal MP esteve presente bilateralmente em 67,42%. Do total de 528 dentes avaliados, 78% apresentaram o canal MP não havendo correlação da sua presença com sexo e faixa etária (p > 0,05). Para o segundo objetivo, 30 exames de TCFC foram avaliados com cinco diferentes filtros (Original, Smooth, Sharpen, Sharpen Mild, Angio Sharpen Low e Angio Sharpen High) além das imagens originais (sem filtro). Todos os filtros apresentaram altos índices de acurácia (> 83,3%), sensibilidade (> 90%) e especificidade (> 62%), sem diferença estatística (p > 0,05). Entretanto, quando o nível de certeza foi avaliado, os filtros Angio Sharpen High e Sharpen apresentaram os piores resultados, com diferença significativa para as imagens Originais (p <0,05). Os resultados das pesquisas conduzidas permitem concluir que o canal MP é uma condição altamente prevalente e a sua simetria bilateral é frequente. O emprego de filtros de imagem da TCFC não influenciou a detecção do canal MP, entretanto os filtros de maior realce devem ser evitados pois reduzem a certeza do diagnóstico. / The upper molars are the dental group that most receives endodontic treatments and presents great anatomical complexity of their root canal systems. The presence of a second mesiobuccal canal (MB2) is a common finding and its non-detection is related to a high failure rate in endodontic therapy. Recently, cone-beam computed tomography (CBCT) has been highlighted in the MB2 evaluation for its ability to provide detailed and three-dimensional information, and is considered the best imaging method for such investigation in vivo. Thus, the aim of this thesis was to investigate the prevalence and symmetry of the root canal numbers from the mesiobuccal root of first homologous upper molars, as well as to evaluate the use of CBCT image filters for that purpose. For the first objective, a research was developed with 264 patients having the first upper molar bilaterally. Symmetry was found in 78.79% patients, and the MB2 was bilaterally present in 67.42%. Out the total of 528 teeth evaluated, 78% presented the MB2, with no correlation with sex and age group (p > 0.05). For the second objective, 30 CBCT scans were evaluated with five different filters (Original, Smooth, Sharpen, Sharpen Mild, Angio Sharpen Low and Angio Sharpen High) in addition to the original images (none filter). All filters presented high levels of accuracy (> 83.3%), sensitivity (> 90%) and specificity (> 62%), with no statistical difference (p > 0.05). However, when the level of certainty was evaluated, Angio Sharpen High and Sharpen filters presented the worst results, with significant difference for Original images (p < 0.05). The results of the conducted studies allow us to conclude that the MB2 is a highly prevalent condition and its bilateral simmetry is frequent. The use of CBCT image filters did not influence the MB2 detection, however higher enhancement filters should be avoided because they reduce the certainty of the diagnosis.
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Cone Beam CT ve stomatologii: Pohybové artefakty a jejich redukce / Cone Be am CT in dentistry: Motion artifacts and their reductionHanzelka, Tomáš January 2013 (has links)
Cone Beam Computed Tomography (CBCT) allows effective 3D imaging in dentistry. CBCT consists of a planar detector and a x-ray source that rotate once around patient`s head. The x-ray beam is cone-shaped and is directed through the whole volume of interest. All the data needed are obtained during a single rotation of the source and detector. This rotation takes from several to several tens of seconds, and during this time the CBCT captures several hundred of 2D images. They represent different points of view on the region of interest and are later reconstructed to form a 3D data set. The biggest advantage of CBCT is that it can produce 3D image using at radiation doses similar to those of conventional diagnostic methods used in dentistry (Pauwels et al., 2010). In the experimental part of our experiment, we address one of the biggest weaknesses of CBCT - patient movement during scanning which has a major impact on the image quality and is currently the main limiting factor in the further development of this technology. In the first part of our experiment, we recorded movements of patients and CBCT scanner using a high speed camera and subsequently analyzed the data in MatLab program. Significant level of patient motion as well as motion of CBCT scanner was demonstrated. Motion was highest at the...
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‘Recommendations for the development of a framework for radiological imaging studies during implant therapy in SA’Beshtawi, Khaled Raed January 2021 (has links)
Philosophiae Doctor - PhD / Radiographic examination is an essential facet of dental implant therapy, and the success of this therapy depends on a suitable treatment based on adequate clinical and radiographic information. International organisational bodies have published guidelines on the use of radiographic imaging during implant therapy, but since the cone beam computed tomography modality became available, a need for the development of comprehensive imaging guidelines to limit the misuse of this modality became necessary. There is a lack of stringency regarding the recommendations and guidelines on radiographic imaging modalities used during implant therapy. This is due to variations in practice, experience, and socioeconomic factors. The most recent published global guidelines and recommendations and their relevance to dental implant therapy are described in this chapter.
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Mental foramen and accessory mental foramen variations: a systematic reviewZainy, Mariam Abd Ali Muslim 06 December 2020 (has links)
The location of mental nerve has been extensively studied anatomically and radiographically. This systematic review aims to summarize the common location of mental foramen (MF) as well as its anatomical variation, the accessory mental foramen (AMF). The PubMed and Google Scholar databases were both searched for the available study until Jan 2020. The database search yield 2766 study of which 47 were included in this study according to the inclusion criteria. The study concludes that in general the position of the mental foramen is between area distal to the first premolar root apex and the long axis of the apex of second premolar in 82% to 90% according to panoramic and CBCT studies reported until 2020 respectively. Importantly, AMF incident has been found in 8.3% of the population, according the all of the CBCT studies included in this systematic review.
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Změny kefalometrických hodnot se zaměřením na změnu tloušťky vestibulární kortikální kosti / Change of Cephalometric Values Focused on Labial Bone ThicknessFilipová, Diana January 2020 (has links)
The morphology of the craniofacial complex is prone to alterations resulting from a wide range of external factors. In the first part of the presented thesis, we analysed the influence of slow long- term changes of the environment and population genome by comparing historical (11-12th century AD) and contemporary skulls using cephalometric X-ray images. The second part focuses on the effects of orthodontic treatment on bone thickness in relevant areas, with the analysis being based on Cone Beam computed tomography. A comparison of the palatal angle of 115 historical and 75 contemporary skulls revealed a statistically significant decrease of this parameter. The follow-up of 58 patients utilizing three- dimensional diagnostic imaging measurements before and after treatment revealed a statistically significant decrease in vestibular bone thickness, without changes of total alveolar width. Our analysis revealed a substantial bone response to respective forces, with relevant clinical implications - respecting the anatomical limits of the range of motion is essential to achieve therapeutic success and to avoid alveolar defects. Keywords: 3D imaging, CBCT, cephalometry, orthodontics, dentistry
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