Relevant bibliographies by topics / Anatomie – Atlas

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Anatomie – Atlas'

Author: Grafiati
Published: 4 June 2021
Last updated: 12 February 2022

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Journal articles on the topic "Anatomie – Atlas"

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Marin, J. Manuel. "Atlas der Anatomie." Osteopathische Medizin 10, no. 3 (2009): 41. http://dx.doi.org/10.1016/j.ostmed.2009.07.011.

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Witte, Felicitas. "Anatomie vom Feinsten." physiopraxis 2, no. 09 (2004): 52–53. http://dx.doi.org/10.1055/s-0032-1307839.

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Haben Sie sich eigentlich schon mal gefragt, wie Bücher entstehen? Seit August gibt es Prometheus: den Anatomie-Atlas von Thieme mit einem neuen Lernkonzept. physiopraxis wollte wissen, was daran anders ist. Grafiker Karl Wesker, Anatom Prof. Michael Schünke und Projektleiter Dr. Jürgen Lüthje erzählen, wie aus einer Bildersammlung ein Atlas entstand.
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Stoffel, M. H. "Atlas der Anatomie des Hundes." Schweizer Archiv für Tierheilkunde 154, no. 11 (2012): 496. http://dx.doi.org/10.1024/0036-7281/a000394.

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Graber, T. M. "Atlas der anatomie im fernröntgenbild." American Journal of Orthodontics and Dentofacial Orthopedics 92, no. 6 (1987): 521. http://dx.doi.org/10.1016/0889-5406(87)90237-x.

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Halasz, Christina. "Anatomie für Osteopathen: Lehrbuch und Atlas." Osteopathische Medizin 21, no. 2 (2020): 39. http://dx.doi.org/10.1016/s1615-9071(20)30057-5.

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Alt, Friedbert. "Sobotta, Atlas der Anatomie des Menschen." Osteopathische Medizin 12, no. 3 (2011): 34. http://dx.doi.org/10.1016/j.ostmed.2011.07.005.

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Salomon, F. V., and H. Geyer. "Atlas der angewandten Anatomie der Haustiere." Schweizer Archiv für Tierheilkunde 146, no. 6 (2004): 303. http://dx.doi.org/10.1024/0036-7281.146.6.303b.

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Geyer, H. "Atlas der topografischen Anatomie der Haustiere." Schweizer Archiv für Tierheilkunde 150, no. 3 (2008): 135. http://dx.doi.org/10.1024/0036-7281.150.3.135a.

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Decurnex, V. "Atlas der angewandten Anatomie der Haustiere." Schweizer Archiv für Tierheilkunde 150, no. 3 (2008): 135. http://dx.doi.org/10.1024/0036-7281.150.3.135b.

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Stoffel, Michael H. "Atlas der angewandten Anatomie der Haustiere." Schweizer Archiv für Tierheilkunde 153, no. 10 (2011): 474. http://dx.doi.org/10.1024/0036-7281/a000251.

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Dissertations / Theses on the topic "Anatomie – Atlas"

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Bourdin, Valérie. "Atlas d'écho-anatomie de l'encéphale fœtal normal par échographie trans-vaginale." Bordeaux 2, 1991. http://www.theses.fr/1991BOR23066.

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Ourselin, Sébastien. "Recalage d'images médicales par appariement de régions : application à la construction d'atlas histologiques 3D." Nice, 2002. http://www.theses.fr/2002NICE5702.

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Charon, Nicolas. "Analysis of geometric and functional shapes with extensions of currents : applications to registration and atlas estimation." Phd thesis, École normale supérieure de Cachan - ENS Cachan, 2013. http://tel.archives-ouvertes.fr/tel-00942078.

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This thesis addresses several questions related to the recent field of computational anatomy. Broadly speaking, computational anatomy intends to analyse shape variability among populations of anatomical structures. In this work, we are focused, in the first place, on the case of datasets of curves, surfaces and more generally submanifolds. Our goal is to provide a mathematical and numerical setting to build relevant data attachment terms between those objects in the purpose of embedding it into the large diffeomorphic metric mapping (LDDMM) model for shape registration. Previous approaches have been relying on the concept of currents that represents oriented submanifolds. We first propose an extension of these methods to the situation of non-oriented shapes by adapting the concept of varifolds from geometric measure theory. In the second place, we focus on the study of geometrico-functional structures we call 'functional shapes' (or fshapes), which combine varying geometries across individuals with signal functions defined on these shapes. We introduce the new notion of fshape metamorphosis to generalize the idea of deformation groups in the pure geometrical case. In addition, we define the extended setting of 'functional currents' to quantify dissimilarity between fshapes and thus perform geometrico-functional registration between such objects. Finally, in the last part of the thesis, we move on to the issue of analyzing entire groups of individuals (shapes or fshapes) together. In that perspective, we introduce an atlas estimation variational formulation that we prove to be mathematically well-posed and build algorithms to estimate templates and atlases from populations, as well as tools to perform statistical analysis and classification. All these methods are evaluated on several applications to synthetic datasets on the one hand and real datasets from biomedical imaging on the other.
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Destrieux, Christophe. "Établissement et validation d'un atlas anatomique informatisé du cortex cérébral humain étudié in vivo sur représentation déplissée." Thesis, Tours, 2009. http://www.theses.fr/2009TOUR3123/document.

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Dans une 1ère partie, nous présentons l’évolution des méthodes utilisées pour décrire l’anatomie corticale, et lui appliquer des systèmes de coordonnées. Dans une 2ème partie, nous commentons la méthode de parcellisation automatique du cortex cérébral humain que nous avons publiée, en la replaçant au sein d’autres techniques disponibles. Elle utilise une approche bayesienne pour produire une parcellisation prenant en compte une base de donnée constituée de 12 cerveaux, mais aussi les caractéristiques de la surface corticale et la localisation des classes anatomiques voisines. Enfin, dans une 3ème partie, nous commentons les règles qui ont prévalu à l’établissement d’une parcellisation surfacique sulco-gyrale originale. Cette parcellisation en 74 classes anatomiques par hémisphère est utilisable par la méthode de parcellisation automatique tout en restant proche des conventions usuelles de la communauté de neuroimagerie. Elle nous permet de proposer un certain nombre d’améliorations de la Terminologia Anatomica. Le logiciel et la base de données sont disponibles avec le paquet FreeSurfer sur http : //surfer.nmr.mgh.harvard.edu/<br>We first present different methods used to describe the anatomy of the human cerebral cortex, and various coordinates systems. Then we comment the method we published for a fully automated parcellation of the cortical surface. It is described among various other techniques developed for the same purpose. Our method uses a bayesian approach to include several pieces of information in the labeling process : manual parcellation of 12 cortical surfaces, but also shape of the surface and anatomical classes of neighboring vertices. Finally, we comment the anatomical rules we proposed to parcellate the cortical surface in 74 anatomical classes per hemisphere. This parcellation can be used by the automated method we published, but also remains close enough to the anatomical conventions used in the neuroimaging field. We propose several improvements of the Terminologia Anatomica The software and the database are available and included in the FreeSurfer package (http : //surfer.nmr.mgh.harvard.edu/)
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Buessler, Emilie. "Construction et validation d'un atlas statistique 3D des os carpiens humains." Thesis, Université Grenoble Alpes (ComUE), 2019. http://www.theses.fr/2019GREAM060.

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Le poignet humain est une articulation essentielle, car il est à l'origine de la grande amplitude de mouvement de la main. C'est également une articulation complexe, composée de huit petits os carpiens, qui sont connectés aux cinq métacarpes et aux deux os de l'avant-bras. La complexité de l'articulation est non seulement due à ce grand nombre d'os, mais également à la petite taille des os carpiens et à leurs formes élaborées, qui rendent le mouvement des os les uns autour des autres également complexe. Dans cette thèse, nous nous sommes intéressés à la modélisation 3D de la forme des os. Peu de travaux ont été menés jusqu'à présent sur la modélisation des os du poignet, et peu de données exploitables pour des modèles informatiques ont été collectées. Or de tels modèles informatiques peuvent avoir de nombreuses applications : ils peuvent servir de base pour la création d'outils informatiques automatisés ou encore être intégrés dans des logiciels servant de support au diagnostique. La qualité des résultats de telles applications dépend de la qualité du modèle utilisé. C'est pourquoi nous attachons une attention particulière à la validation de notre travail, alors même qu'il n'existe pas de mesure directes pour l'évaluation, et qu'il faut utiliser des métriques indirectes.Nous nous sommes intéressés à des outils pour la modélisation 3D, particulièrement aux techniques de correspondance entre maillages. Nous présentons une méthode pour transformer des maillages bruts directement créés à partir de tomodensitogrammes en nouveaux maillages représentant les mêmes os tout en définissant des relations de correspondance. %Une telle procédure de remaillage n'est pas triviale à définir ni à valider, c'est pourquoi nous y portons une attention particulière.Une fois définies, ces relations rendent possible de nombreuses applications, qui permettent une validation supplémentaire des correspondances. Nous présentons plusieurs applications. La variabilité de la forme des os est analysée à l'aide d'outils statistiques tels que l'Analyse en Composantes Principales (ACP) ainsi qu'un outil basé sur les Processus Gaussiens.Les capacités d'adaptation du modèle ACP à de nouvelles formes sont utilisées pour définir des relations de correspondance avec une seconde base de données. Nous proposons également une méthode pour transférer simplement des systèmes de coordonnées ou tout autre point remarquable définis pour quelques exemples vers le reste de la base de données. Une telle application est utile pour des études biomécaniques de mouvement du poignet. Finalement, dans une dernière étape, nous nous sommes intéressés à la modélisation des mouvements des os du poignet à l'aide d'un modèle paramétrique basé sur des prédicteurs significatifs et facilement mesurables<br>The wrist is an essential joint, source of the large range of motion of the hand. It is also a complex joint, composed of eight small bones, connected to five metacarpal bones and two forearm bones. The complexity of the joint is not only due to the high number of interconnected bones, but also to the small size of the carpal bones and their elaborate shapes interlocked with each other, that move in an intricate way around each other.In this thesis we are interested in modeling the 3D wrist bone shapes. Not many works on wrist bones modeling have been conducted yet and little data have been collected into databases exploitable for computer models. The latter can be used to take measurements, serve as basis for the creation of automated IT tools, or else be integrated into software for diagnosis support for example. The quality of the results of such applications depends on the quality of the model. We therefore attach a special importance to the validation of our work, while such assessment cannot directly be measured and must be proven by indirect metrics.Interest was taken in tools for the modeling of 3D shapes, especially in techniques of correspondence between 3D meshes. We propose a method to transform raw meshes extracted from CT scans into bones representations with correspondence relations.%It is not trivial to define a resampling procedure, and neither is its quality assessment, to which we pay particular attention.The dense correspondence relations computed make possible many applications, that serve as further validation of the correspondence results. We propose several utilizations. Variability among bones is analyzed with statistical procedures such as the Principal Component Analysis (PCA) and another one based on Gaussian Processes.The registration capacities of the first model are employed for defining correspondence with a second database. We propose a method to easily transfer systems of coordinates or other landmarks from a few example towards the rest of the database, a convenient function for biomechanical wrist motion study. In a last phase, we are concerned with modeling wrist bones motions with a parametric model based on meaningful and easily measurable predictors
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Lignereux, Yves. "Atlas stéréotaxique de l'encéphale de la vache frisonne (Bos Taurus L. )." Toulouse 3, 1986. http://www.theses.fr/1986TOU30147.

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Khadra, Yasser. "Méthodologie de réalisation de modèles anatomiques maillés : application à l'imagerie du petit animal." Lyon, INSA, 2008. http://theses.insa-lyon.fr/publication/2008ISAL0034/these.pdf.

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En imagerie médicale, la robustesse de l’analyse et de la segmentation d’image est améliorée grâce à l’utilisation de connaissances à priori. Les atlas anatomiques constituent une base de connaissances à priori utiles pour localiser certains organes, ainsi que certaines structures très difficiles à distinguer sur des images complexes. Les atlas construits à partir d’un seul jeu de données ne permettent pas de prendre en compte les variations morphologiques et pathologiques inter-individus contrairement aux atlas moyens (construits à partir de plusieurs jeux de données). Dans cette thèse, nous nous intéressons à la construction d’un modèle moyen enrichi à partir des jeux de données surfaciques (modèles maillés). Ce modèle enrichi consiste en un modèle moyen (élément de base pour un atlas moyen) complété par des informations de variations géométriques de la structure anatomique étudiée (enrichissement). Pour atteindre cet objectif, nous construisons d’abord un modèle moyen déduit d’un ensemble d’apprentissage. Ensuite, nous procédons à l’enrichissement du modèle par des informations quantitatives, statistiques et géométriques extraites à partir de modèle moyen lui-même et de tous les modèles utilisés pour le construire. Les informations d’enrichissement du modèle moyen permettent ainsi la caractérisation de la variabilité d’une structure anatomique pathologique. La simplicité ou la complexité de l’enrichissement du modèle dépendront de l’application envisagée. Dans le cadre de cette thèse, nous proposons deux applications basées sur l’utilisation de ce modèle moyen enrichi : - Modèle de comparaison pour un processus de phénotypage anatomique du petit animal. - Modèle de référence pour la segmentation des images médicales in vivo intégrant des a priori sur la forme de la structure anatomique à segmenter<br>The medical image analysis and segmentation are improved thanks to the use of a priori knowledge. The anatomical atlases provide an a priori knowledge base useful to locale certain anatomical structures very difficult to distinguish on complex images. The atlases built from only one subject don't take into account the morphological variations and pathological inter-individuals, contrary to the average atlases (built from several subjects). Ln this thesis, we are interested in the construction of an enriched average model from a set of training meshed models. The constructed model consists of the average model (basic element for an average atlas) and the geometrical variations of the anatomical structure under consideration (enrichments. To achieve this objective, first we construct an average model from a set of training models representing the same anatomical structure. Next, we enrich the constructed average model with quantitative, statistical and geometrical information extracted from the average model itself and all the models from which it was constructed. The enrichments of the average model characterize the variability of a pathological anatomical structure. The simplicity and the complexity of the enrichments depend on the envisaged applications using the constructed madel. Ln the framework of this thesis, we propose two applications based on the use of the enriched average madel as: - Comparison model for an anatomical phenotyping process of smali animal models. - Reference model for in-vivo model-based image segmentation
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Izard, Camille. "Modélisation et estimation statistique pour l'imagerie médicale : application à la détection d'amers." Thesis, Lille 1, 2008. http://www.theses.fr/2008LIL10026/document.

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Dans ce travail, nous présentons une famille de modèles statistiques à atlas déformable pour l'analyse d'images médicales et plus particulièrement pour la détection d'amers. Les modèles à atlas déformable sont couramment utilisés pour la mise en correspondance d'images en vue de leur segmentation, alignement ou classification. Nous montrons que le problème de détection d'amers peut être formulé comme un problème de mise en correspondance locale. Dans un premier temps, nous présentons deux modèles statistiques qui utilisent les variations d'intensité ou les contours de l'image pour détecter les amers. Ensuite nous introduisons un modèle statistique plus riche qui permet de segmenter une nouvelle image et de la mettre en correspondance avec un atlas pour détecter les amers. À partir de chaque modèle proposé, nous obtenons par maximum de vraisemblance un algorithme d'apprentissage et un algorithme de détection. Les algorithmes ainsi dérivés sont à la fois simples et génériques. Grâce à l'étape d'apprentissage, la méthode proposée s'adapte automatiquement à différents types d'amers. Enfin, en introduisant le concept d'objet déformable et de fond d'image, il est possible de limiter les temps de calcul, en focalisant les efforts sur les sous parties de l'image qui caracterisent la position des amers. Cette modification s'avère utile en vue de l'application des algorithmes proposés à la détection d'amers dans des images médicales en 3D. Enfin nous présentons les résultats obtenus pour la détection d'amers dans des Images à Résonance Magnétique de cerveau<br>We present a family of statistical mode/s based on deformable template for medical image analysis, and more specifically for the detection of anatomical landmarks. Deformable template models are commonly used for image matching to perform segmentation, registration or classification. We show that if the position of the landmarks characterizes uniquely the deformation of an image, the landmark detection problem can be formalized as a local matching problem. Based on the proposed statistical models and using maximum Iikelihood principles, we derive both an algorithm to learn the model from training data and a testing algorithm for the detection of landmarks in new images. The first two statistical models we propose rely on intensity or edge matching to identify the location of the landmarks; while the third one uses simultaneous image segmentation and template registration to locate the landmarks. We introduce a foregroundlbackground statistical model for medical imaging, which allows us to limit the computational effort to matching discriminative patterns surrounding the land marks. The proposed a/gorithms provide simple generic methods to perform automatic detection of landmarks in medical imaging. We tested our approach on the detection of landmarks ln brain Magnetic Resonance Images
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Liang, Tong. "Atlas-based Segmentation of Temporal Bone Anatomy." The Ohio State University, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=osu1491835850819812.

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Conocimiento, Dirección de Gestión del. "Guía de acceso para Visible Body - Human Anatomy Atlas." Wolters Kluwer, 2004. http://hdl.handle.net/10757/655401.

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Books on the topic "Anatomie – Atlas"

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Sander, Antje. Crashkurs Anatomie fast. Bo rm Bruckmeier, 2003.

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T, Hansen John, ed. Atlas of human anatomy. 3rd ed. Icon Learning Systems, 2003.

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Netter, Frank H. Atlas of human anatomy. 3rd ed. Edited by Colacino Sharon. Ciba-Geigy, 1994.

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Sharon, Colacino, ed. Atlas of human anatomy. 2nd ed. Novartis, 1997.

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Netter, Frank H. Atlas of human anatomy. 5th ed. Saunders/Elsevier, 2010.

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Atlas of human anatomy. 4th ed. Saunders/Elsevier, 2006.

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Netter, Frank H. Atlas of human anatomy. 3rd ed. Edited by Hansen John T. Icon Learning Systems, 2003.

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Netter, Frank H. Atlas of human anatomy. Ciba-Geigy, 1989.

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Netter, Frank H. Atlas of human anatomy. 4th ed. Elsevier Saunders, 2006.

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Netter, Frank H. Atlas of human anatomy. Edited by Colacino Sharon. Ciba-Geigy, 1989.

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Book chapters on the topic "Anatomie – Atlas"

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Linn, Jennifer. "Anatomie." In Atlas Klinische Neuroradiologie des Gehirns. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-540-89569-5_1.

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Castorina, Sergio. "Anatomie Laparoscopique." In Video-Atlas Chirurgie Herniaire. Springer Paris, 2010. http://dx.doi.org/10.1007/978-2-8178-0151-3_2.

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van Dijk, Johan, Fred Spijkervet, and Jan Tromp. "1 Anatomie." In Atlas van de parodontale diagnostiek. Bohn Stafleu van Loghum, 2011. http://dx.doi.org/10.1007/978-90-313-8810-3_1.

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Himpens, Jacques, and Giovanni Dapri. "Anatomie Virtuelle Laparoscopique." In Video-Atlas Chirurgie Herniaire. Springer Paris, 2010. http://dx.doi.org/10.1007/978-2-8178-0151-3_3.

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Nakhosteen, John A., Norbert Niederle, and Donald C. Zavala. "Anatomie des Tracheobronchialsystems." In Atlas und Lehrbuch der Bronchoskopie. Springer Berlin Heidelberg, 1989. http://dx.doi.org/10.1007/978-3-662-05896-1_20.

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Thiel, Walter. "Photographischer Atlas der Praktischen Anatomie II." In Photographischer Atlas der Praktischen Anatomie II. Springer Berlin Heidelberg, 1999. http://dx.doi.org/10.1007/978-3-662-09285-9_1.

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Thiel, Walter. "Photographischer Atlas der Praktischen Anatomie II." In Photographischer Atlas der Praktischen Anatomie II. Springer Berlin Heidelberg, 1999. http://dx.doi.org/10.1007/978-3-662-09285-9_2.

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Bernardes, Antonio, and João Patricio. "Anatomie Abdominale et Inguino-Femorale." In Vidéo-Atlas Chirurgie herniaire. Springer Paris, 2010. http://dx.doi.org/10.1007/978-2-8178-0145-2_1.

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Bernardes, Antonio, and João Patricio. "Anatomie Abdominale Et Inguino-Femorale." In Video-Atlas Chirurgie Herniaire. Springer Paris, 2010. http://dx.doi.org/10.1007/978-2-8178-0151-3_1.

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Bernardes, Antonio, and Joao Patricio. "Anatomie Abdominale Et Inguino-Femorale." In Vidèo-Atlas Chirurgie Herniaire Tome 1. Springer Paris, 2010. http://dx.doi.org/10.1007/978-2-8178-0148-3_2.

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Conference papers on the topic "Anatomie – Atlas"

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Ordas, Sebastian, Estanislao Oubel, Rafael Sebastian, and Alejadro F. Frangi. "Computational Anatomy Atlas of the Heart." In 2007 5th International Symposium on Image and Signal Processing and Analysis. IEEE, 2007. http://dx.doi.org/10.1109/ispa.2007.4383715.

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Seixas, Flavio Luiz, Jean Damasceno, Andrea Silveira de Souza, Debora C. Muchaluat Saade, and Marcelo Pereira da Silva. "Automatic Segmentation of Brain Structures Based on Anatomic Atlas." In 2007 7th International Conference on Intelligent Systems Design and Applications. IEEE, 2007. http://dx.doi.org/10.1109/isda.2007.155.

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Seixas, Flavio Luiz, Jean Damasceno, Marcelo Pereira da Silva, Andrea Silveira de Souza, and Debora C. Muchaluat Saade. "Automatic Segmentation of Brain Structures Based on Anatomic Atlas." In Seventh International Conference on Intelligent Systems Design and Applications (ISDA 2007). IEEE, 2007. http://dx.doi.org/10.1109/isda.2007.4389629.

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Lam, K. H. Brian, Ugljesa Djuric, Ihor Batruch, Maxime Richer, and Phedias Diamandis. "Abstract 2694: An anatomic proteomic atlas of human glioblastoma." In Proceedings: AACR Annual Meeting 2021; April 10-15, 2021 and May 17-21, 2021; Philadelphia, PA. American Association for Cancer Research, 2021. http://dx.doi.org/10.1158/1538-7445.am2021-2694.

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Yu, Li, Qian Liu, Xueling Bai, Yinping Liao, Qingming Luo, and Hui Gong. "A digital rat atlas of sectional anatomy." In Fourth International Conference on Photonics and Imaging in Biology and Medicine, edited by Kexin Xu, Qingming Luo, Da Xing, Alexander V. Priezzhev, and Valery V. Tuchin. SPIE, 2006. http://dx.doi.org/10.1117/12.710690.

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Fernandes, Matheus Madureira, Rodrigo da Silva Garcia Prieto, Eduarda Savergnini Hemerly, Luísa Vieira Aarão Reis, Antônio Rodrigues Braga Neto, and Cristiane Alves de Oliveira. "O papel das tecnologias remotas ativas no ensino da pelviologia em contexto de pandemia por Covid-19 na disciplina de obstetrícia da Faculdade de Medicina da Universidade Federal Fluminense." In 44° Congresso da SGORJ - XXIII Trocando Ideias. Zeppelini Editorial e Comunicação, 2020. http://dx.doi.org/10.5327/jbg-0368-1416-2020130271.

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Introdução: Diante da pandemia de Covid-19, mudanças profundas no processo de ensino e aprendizado da Medicina, em geral, e da Obstetrícia, em particular, emergem como uma necessidade. No contexto de atividades teórico-práticas da disciplina de Obstetrícia, um caráter visual e interativo se revela essencial como facilitador do processo de aprendizagem discente. Portanto, a partir do uso de ferramentas digitais, buscamos analisar a transmissão do conhecimento sobre pelviologia nesse cenário novo e desafiador. Objetivos: Avaliar o uso de tecnologias digitais adaptadas ao contexto de um ensino mais prático da Obstetrícia, mais especificamente no âmbito da pelviologia, bem como analisar efeitos dessa metodologia na formação médica. Material e Métodos: Trata-se de um relato de experiência no qual se apresentou o emprego de metodologias ativas de conteúdo virtual para a sedimentação do estudo da pelviologia. Outrossim, foi aplicado um questionário por meio do Google Forms aos alunos do módulo de Obstetrícia da disciplina de Medicina Interna da Criança e do Adolescente II da Faculdade de Medicina da Universidade Federal Fluminense. O questionário contou com perguntas em formato de Escala Likert acerca de uma videoaula sobre o tema de pelviologia. Foi avaliada a satisfação de 19 alunos quanto às ferramentas utilizadas durante uma apresentação sobre pelviologia, entre as quais estão: o aplicativo Human Anatomy Atlas, que expõe estruturas anatômicas em modelos tridimensionais e que foi empregado para o ensino dos estreitos superior, médio e inferior da pelve, assim como dos planos de Hodge e DeLee; o editor de vídeo Lightworks, no qual se acoplou uma apresentação de figuras a uma narração sem a transmissão da imagem do apresentador; e o aplicativo Kinemaster, no qual se acoplou uma apresentação de figuras a uma transmissão de vídeo do apresentador concomitante. Também foi considerada a opinião dos alunos acerca da apresentação de figuras e slides com e sem a transmissão concomitante da imagem do apresentador. Resultados e Conclusão: Comparando o método “apresentação de figuras explicativas concomitante à transmissão da imagem do apresentador” e “apresentação de figuras explicativas sem a transmissão da imagem do apresentador”, percebe-se que o primeiro garante a maior satisfação dos alunos (89,4%) em relação ao segundo (78,9%). No entanto, quando se considera o uso do aplicativo Human Anatomy Atlas para a representação da anatomia pélvica em 3D, o grau de satisfação se eleva para 94,7%, embora não se tenha utilizado a transmissão concomitante da imagem do apresentador. Sobre a probabilidade de recomendar a apresentação a outras pessoas, 89,5% dos alunos declararam que “muito provavelmente” a recomendariam, e 10,5%, que “provavelmente” a recomendariam. O uso dos aplicativos demonstrou-se, portanto, benéfico para o melhor aprendizado dos alunos, e a transmissão da imagem do apresentador se apresentou como um atrativo.
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Durack, Jeremy C., Amy L. Ladd, Shyh-Yuan Kung, Margaret Krebs, Robert A. Chase, and Parvati Dev. "The David L. Bassett stereoscopic atlas of human anatomy." In the 2007 conference. ACM Press, 2007. http://dx.doi.org/10.1145/1255175.1255306.

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Tenhoff, Amanda C., Alex J. Deakyne, Tinen L. Iles, et al. "Development of an Open-Access Library of Pediatric Congenital Heart Diseases and Treatments: A Tutorial on the Atlas of Human Cardiac Anatomy." In 2020 Design of Medical Devices Conference. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/dmd2020-9064.

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Abstract The major aim of this project is to construct a growing database of information regarding specific manifestations of congenital heart diseases (CHDs), subsequent treatments, clinical cases, and patient outcomes. This will include 3D models generated from clinical imaging of individual patient hearts and respective de-identified clinical case information — all of which will be incorporated onto the free-access Atlas of Human Cardiac Anatomy website (http://www.vhlab.umn.edu/atlas/), where anyone can learn more about these diseases and their complexities [1]. Generated models can also be used for 3D printing, such as for pre-surgical planning, as well as for incorporation into virtual reality in order to expand outreach and education efforts [2]. Future work will incorporate computational modeling to enhance insights relative to treatment strategies and surgical planning. By studying a broad range of these unique individual cases, it will be possible for patients, clinicians, and medical device designers alike to better understand the clinical presentations of congenital heart diseases and develop more effective treatment strategies.
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Ranjan, Sohan R. "Organ localization through anatomy-aware non-rigid registration with atlas." In 2011 IEEE Applied Imagery Pattern Recognition Workshop: Imaging for Decision Making (AIPR 2011). IEEE, 2011. http://dx.doi.org/10.1109/aipr.2011.6176345.

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Lu, Qin, and Shuqian Luo. "Primary Research of Digital Atlas of Human Anatomy on Virtual Reality." In 2008 2nd International Conference on Bioinformatics and Biomedical Engineering. IEEE, 2008. http://dx.doi.org/10.1109/icbbe.2008.943.

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