ABSTRACT
Esse trabalho busca relatar o processo de confecção de peças anatômicas para o ensino da anatomia humana a partir de material cadavérico fetal. Os discentes do curso de medicina da Universidade Federal do Paraná (UFPR) Campus Toledo participaram do programa de voluntariado acadêmico e deram atenção especial aos aspectos técnicos do processo de dissecação, bem como a experiência subjetiva desse procedimento como ferramenta de aprendizado ativo. O procedimento foi realizado na sala de preparação de cadáver da UFPR Campus Toledo, utilizando instrumental de dissecação e cadáveres humanos fetais com 20, 17 e 14 semanas de idade gestacional, direcionado de modo a expor as partes constituintes do sistema neural. Foram confeccionadas peças de cérebro, cerebelo, tronco encefálico, medula espinal, nervos espinais e suas estruturas associadas. Os voluntários envolvidos foram capazes de produzir material de estudo de qualidade através da dissecação e fortalecer seu conhecimento em anatomia humana e aptidão manual. Também foi dada atenção à importância e às limitações do processo de dissecação como estratégia de aprendizado em cursos da área de saúde. pôde ser observado que a dissecação pode fazer parte de uma formação completa e bem estruturada dos discentes, que por sua vez irão integrar a sociedade e a academia. Além disso, a exposição da topografia neural fetal pode servir de referencial para posteriores estudos que venham a utilizar essas informações.
This work aims to report the confection process of anatomic pieces for teaching human anatomy from fetal cadaveric material. The students of the medicine course of Universidade Federal do Paraná (UFPR) Campus Toledo, took part in the academic volunteer program and paid special attention to the technical aspects of the dissection process, as well as the subjective experience of this procedure as an active learning tool. The procedure was performed at the cadaver preparation room of the UFPR Campus Toledo, using dissection tools and human fetal corpses of 20, 17 and 14 weeks of gestational ages, directed so as to expose the constituent parts of the neural system. Pieces of the brain, cerebellum, brainstem, spinal cord, spinal nerves, and its associated structures were made. The involved voluntaries were able to produce quality study material through dissection, and strengthen their knowledge in human anatomy and manual skill. Attention was also given to the importance and limitations of the dissection process as a learning strategy in health courses. it was observed that dissection can be part of a complete and well-structured training of students, who in turn will integrate society and academia. In addition, the exposure of fetal neural topography can serve as a reference for further studies that use this information
Este trabajo tiene como objetivo relatar el proceso de confección de piezas anatómicas para la enseñanza de la anatomía humana a partir de material cadavérico fetal. Los alumnos del curso de medicina de la Universidade Federal do Paraná (UFPR) - Campus Toledo, participaron del programa de voluntariado académico y prestaron especial atención a los aspectos técnicos del proceso de disección, así como a la vivencia subjetiva de este procedimiento como herramienta de aprendizaje activo. El procedimiento fue realizado en la sala de preparación de cadáveres de la UFPR - Campus Toledo, utilizando herramientas de disección y cadáveres de fetos humanos de 20, 17 y 14 semanas de edad gestacional, dirigidos de forma a exponer las partes constitutivas del sistema neural. Se realizaron piezas del cerebro, cerebelo, tronco encefálico, médula espinal, nervios espinales y sus estructuras asociadas. Los voluntarios participantes pudieron elaborar material de estudio de calidad mediante la disección y reforzar sus conocimientos de anatomía humana y habilidad manual. También se prestó atención a la importancia y las limitaciones del proceso de disección como estrategia de aprendizaje en los cursos de salud. Se observó que la disección puede formar parte de una formación completa y bien estructurada de los estudiantes, que a su vez integrarán la sociedad y el mundo académico. Además, la exposición de la topografía neural fetal puede servir de referencia para estudios posteriores que utilicen esta información.
Subject(s)
Humans , Male , Female , Dissection/education , Fetus/anatomy & histology , Nervous System/anatomy & histology , Spinal Cord/anatomy & histology , Volunteers/education , Brain/anatomy & histology , Cerebellum/anatomy & histology , Dura Mater/anatomy & histology , Education, Medical, Undergraduate , NeuroanatomyABSTRACT
Several studies on the elasmobranchs neuroanatomy have shown that their brain is more complex than previously thought, and had significant intra and interspecific variations. The objective of this work was conducting a comparative encephalic neuroanatomy study of two species of genus Myliobatis. In total, 16 organisms of genera Myliobatis californica and Myliobatis longirostris, collected in the coasts of Kino Bay, Sonora, Mexico, were used. In Myliobatis, the brain has a long telencephalon and the posterior central nucleus is poorly developed. Their cerebellum is asymmetric, has several sulci, most of which are transversally oriented, with four lobes (anterior, medium and two posterior), a condition which has not been reported for any other species. It was observed that, despite the morphology of M. californica and M. longirostris is similar, there are some significant differences. Both species have moderate foliation, but M. californica has more sulci. In the diencephalon of M. californica, it was observed that the lobes of the infundibulum are oval-shaped and separated, while in M. longirostris, such lobes are rounded and near the medium line. It has to be highlighted that Myliobatis belongs to the most derived batoid group; nevertheless, its brain is considerably less complex, as compared to what has been reported for the most derived milyobatoids species.
Diversos estudios sobre la neuroanatomía de los elasmobranquios han demostrado que el cerebro es más complejo de lo que se pensaba y presenta considerables variaciones tanto intra como interespecíficas. El objetivo de este trabajo fue realizar un estudio de neuroanatomía comparada del encéfalo de dos especies del género Myliobatis. Se utilizaron un total de 16 organismos de Myliobatis californica y Myliobatis longirostris, los cuales fueron colectados en las costas de Bahía Kino, Son., México. El cerebro de Myliobatis tiene un telencéfalo largo, el núcleo central posterior está poco desarrollado; el cerebelo es asimétrico, presenta surcos que en su mayoría están orientados transversalmente, con cuatro lóbulos (anterior, medio y dos posteriores), condición que no ha sido reportada para otra especie. Se observó que, aunque M. californica y M. longirostris presentan una morfología similar existen ciertas diferencias. En ambas especies presentan una foliación moderada; sin embargo, en M. californica se observan más surcos. En el diencéfalo de M. californica se observa que los lóbulos del infundíbulo son ovalados y están separados, mientras que en M. longirostris son redondeados y se encuentran próximos a la línea media. Es importante señalar que, pese a que Myliobatis pertenece al grupo de batoideos más derivado, su cerebro es considerablemente menos complejo de lo que se ha reportado para las especies de miliobatoideos más derivadas.
Subject(s)
Animals , Skates, Fish/anatomy & histology , Brain/anatomy & histology , Telencephalon/anatomy & histology , Cerebellum/anatomy & histologyABSTRACT
Plastination is currently the most important anatomical preservation technique due to the possibility of preserving bodies and organs for an indefinite period, in a dry and biosecure form, while preserving the morphological characteristics of the tissues. However, the shrinkage of the samples is also part of the plastination, perhaps becoming one of its few disadvantages. This paper presents the shrinkage caused by the classic technique of sheet plastination with polyester resin (Biodur® P40) in human brain slices, with the aim of statistically establishing the percentages of tissue shrinkage caused by this plastination protocol.
La plastinación es actualmente la técnica de preservación anatómica más importante debido a la posibilidad de preservar los cuerpos y órganos por un período indefinido, en forma seca y biosegura, al tiempo que preserva las características morfológicas de los tejidos. Sin embargo, la retracción de las muestras también es parte de la plastinación, quizás convirtiéndose en una de sus pocas desventajas. Este artículo presenta la retracción causada por la técnica clásica de plastinación de cortes con resina poliéster (Biodur® P40) en cortes de cerebro humano, con el objetivo de establecer estadísticamente los porcentajes de retracción de tejidos causados por este protocolo de plastinación.
Subject(s)
Humans , Organ Size , Polyesters/chemistry , Brain/anatomy & histology , Plastic Embedding/methods , Tissue Preservation , ResinsABSTRACT
While various neurodegenerative diseases affect cortical mass differently, finding an optimal and accurate method for measuring the thickness and surface area of cerebral cortex remains a challenging problem due to highly convoluted surface of the cortex. We therefore investigated cortical thickness in a sample of cadaveric specimens at the Discipline of Clinical Anatomy, Nelson R Mandela School of Medicine, University of KwaZulu-Natal, South Africa to provide some clue as to possible variations in the parameters. Following ethical approval, 60 brain samples were uniformly sectioned (5 mm thickness) and eight slices taken from each brain across regions of interest (ROI) prepared and stained by Mulligan's technique. Thickness was measured at selected angles (0º, 45º, 90º, 135º and 180º) for both right and left cerebral hemispheres. Mulligan's stain produced good cortical differentiation and clear images that enabled manual delineation of structures. Cortical thickness ranged from 3 to 5 millimeters across the ROI. Interestingly, there was rightward hemispheric asymmetry of cortical thickness of selective slices at suggested angles which is related to structurally and functionally important brain regions. Moreover, there was no significant correlation between the surface area of superficial cortex and the deep nuclei at the same level. The superficial cortex and deep nuclei are manifested independently in normal aging, neuropsychiatric or developmental disorders. Providing accurate morphometric evaluation of cortical thickness and area based on gross staining of the brain slices could provide qualitative data that may support the study of human cerebral cortex even in disease conditions.
Si bien varias enfermedades neurodegenerativas afectan a la masa cortical de manera diferente, encontrar un método óptimo y preciso para medir el grosor y el área de la superficie de la corteza cerebral sigue siendo un problema difícil debido a la superficie altamente enrevesada de la corteza. Por lo tanto, investigamos el grosor cortical en una muestra de cadáveres del Departamento de Anatomía Clínica de la Facultad de Medicina Nelson R. Mandela de la Universidad de KwaZulu-Natal, Sudáfrica, para proporcionar alguna pista sobre posibles variaciones en dichos parámetros. Después de la aprobación ética, 60 muestras de cerebro se seccionaron uniformemente (5 mm de grosor) y se tomaron ocho cortes de cada cerebro en regiones de interés (ROI) preparadas y teñidas con la técnica de Mulligan. El espesor se midió en los ángulos seleccionados (0º, 45º, 90º, 135º y 180º) para los hemisferios cerebrales derecho e izquierdo. La tinción de Mulligan produjo una buena diferenciación cortical e imágenes claras que permitieron la delineación manual de las estructuras. El grosor cortical osciló entre 3 y 5 milímetros a través del ROI. Curiosamente, hubo una asimetría hemisférica hacia la derecha del grosor cortical de los cortes en ángulos sugeridos que se relacionan con regiones cerebrales estructural y funcionalmente importantes. Además, no hubo una correlación significativa entre el área de la superficial de la corteza superficial y los núcleos profundos en el mismo nivel. La corteza superficial y los núcleos profundos se manifiestan de manera independiente en el envejecimiento normal, en los trastornos neuropsiquiátricos o del desarrollo. Realizar una evaluación morfométrica precisa del grosorcortical y el área basada en la tinción macroscópica de los cortes del cerebro, podría proporcionar datos cualitativos que puedan respaldar el estudio de la corteza cerebral humana incluso en condiciones de enfermedad.
Subject(s)
Humans , Male , Female , Middle Aged , Aged , Aged, 80 and over , Staining and Labeling/methods , Brain/anatomy & histology , Cadaver , Cerebral Cortex/anatomy & histology , Gray Matter/anatomy & histologyABSTRACT
La plastinación es una técnica anatómica de conservación cadavérica creada en 1977 por Gunther von Hagens, en Heidelberg, Alemania, y que sustituye los líquidos biológicos y/o de fijación por acetona, para luego impregar las muestras con distintas resinas, dependiendo de la técnica de plastinación desarrollada, para finalmente llevar a cabo la polimerización de los componentes incorporados a las muestras, para obtener muestras biológicas secas y totalmente duraderas. El objetivo de este trabajo consistió en desarrollar un protocolo de plastinación de cortes con resina poliéster (Biodur® P40) en secciones de 3 mm de espesor de cerebro humano. La muestras fueron fijadas y conservadas con formalina al 10 %. Los cerebros luego fueron seccionados con una maquina cortadora de tejidos, obteniéndose láminas delgadas de 3 mm de espesor. Inmediatamente los cortes de cerebro fueron colocados en deshidratación en acetona al 100 %, a -25 ºC, durante 7 días el primer baño de acetona, y durante otros 3 días más, para el segundo baño de acetona. Una vez deshidratados los cortes, estos fueron colocados en resina poliéster Biodur® P40 y se llevó a cabo la impregnación forzada de los cortes, en cámara de vacío a temperatura ambiente (20 ºC). Una vez finalizada la impregnación forzada, se procedió a la etapa de curado, la cual en primer lugar consiste en el armado de las cámaras de curado dentro de las cuales se colocaran los cortes con resina poliéster. Las cámaras de curado fueron colocadas bajo luz UV para acelerar la polimerización del poliéster y finalizar el proceso de plastinación. Se logró desarrollar satisfactoriamente en el Laboratorio de Plastinación y Técnicas Anatómicas de la Universidad de La Frontera un protocolo de plastinación de cortes con resina poliéster, obteniendo una excelente conservación de cortes de cerebro, con diferenciación de sustancias gris y blanca, y conservación de todas las características morfológicas.
Plastination is an anatomical technique of cadaveric conservation created in 1977 by Gunther von Hagens, in Heidelberg, Germany, and that substitutes biological and / or fixation fluids with acetone, to then impregnate the samples with different resins, depending on the developed plastination technique, to finally carry out the polymerization of the components incorporated into the samples, to obtain dry and totally durable biological samples. The aim of this work was to develop a sheet plastination protocol with polyester resin (Biodur® P40) in 3 mm thick slices of human brain. The samples were fixed and preserved with 10 % formalin. The brains were sectioned with a slice cut machine, obtaining thin sheets of 3 mm thick. Immediately the slices of brain were placed in dehydration in 100 % acetone, at -25 °C, for 7 days the first acetone bath, and for another 3 more days, for the second acetone bath. Once the cuts were dehydrated, they were placed in Biodur® P40 polyester resin and the forced impregnation was carried out in a vacuum chamber at room temperature (20 °C). Once the forced impregnation was finished, the curing stage was carried out, which first consists in the assembly of the curing chambers within which the slices with polyester resin were placed. The curing chambers were placed under UV light to accelerate the polymerization of the polyester and finished the plastination process. A sheet plastination protocol with polyester resin was successfully developed in the Laboratory of Plastination and Anatomical Techniques of Universidad de La Frontera, obtaining excellent conservation of brain slices, with differentiation of gray and white substances, and conservation of all morphological characteristics.
Subject(s)
Humans , Polyesters/chemistry , Resins, Synthetic/chemistry , Brain/anatomy & histology , Plastination/methods , Clinical ProtocolsABSTRACT
A small amount of acetic acid (AA), a common preservative, has been shown to increase contamination in cadaveric tissue, while larger concentrations can lead to the tissue becoming hard, especially in fresh brains. This study attempted to optimize the concentration of AA to be used in the cranial cavity in order to produce the most realistic consistency and color. Six adult cadaveric heads were preserved with descending glacial AA at concentrations of 98.5 %, 80 %, 60 %, 40 %, 20 %, and 10 %. The samples were kept at 5 °C for 14 days. The brain cortex was then dissected with a suction tube and forceps to reveal the underlying brain tissue for inspection. Color change, cortical firmness, pia mater stickiness, and participant satisfaction were evaluated. The color of the brains in all concentrations was slightly yellow. However, the temporal area of the brain preserved using 20 % AA was significantly more pink. The pia mater of the brain cortex of all samples was firm and difficult to pry apart, with the firmest consistency being in the brain tissue preserved using 98.5 % AA. The brain tissue in all samples had a liquid-like consistency. The brains preserved in AA at a concentration greater than 60 % yielded higher satisfaction scores. We conclude that acetic acid has a role in brain preservation for skull base surgery training and recommend AA concentrations higher than 60 % for maximal participants satisfaction.
Se ha demostrado que una pequeña cantidad de ácido acético (AA), un preservante común, aumenta la contaminación en el tejido del cadáver, mientras que mayores concentraciones pueden endurecer el tejido, particularmente en cerebros frescos. Este estudio intentó optimizar la concentración de AA en la cavidad craneal para producir una consistencia y coloración cerebral más cercanos a la realidad. Seis cabezas cadavéricas adultas se conservaron con AA glacial descendente en concentraciones de 98,5 %, 80 %, 60 %, 40 %, 20 % y 10 %. Las muestras se mantuvieron a 5 °C durante 14 días. Luego se diseccó la corteza cerebral con un tubo de succión y pinzas para observar e inspeccionar el tejido cerebral subyacente. Se evaluaron el color, la firmeza cortical, la viscosidad y adherencia de la piamadre y la reacción de los participantes ante esta conservación. El color de los cerebros en todas las concentraciones fue ligeramente amarillo. Sin embargo, el área temporal del cerebro, conservada con un 20 % de AA, fue significativamente más rosada. La piamadre de la corteza de todas las muestras fue de consistencia firme y difícil de separar; una mayor resistencia se observó en el tejido cerebral preservado con 98,5 % de AA. La consistencia del tejido cerebral en todas las muestras era líquida. Los cerebros conservados en AA a una concentración superior al 60 % recibieron puntuaciones de satisfacción más elevadas. Concluimos que el ácido acético desempeña un papel en la preservación del cerebro, permitiendo el entrenamiento en cirugía de base de cráneo, por lo que recomendamos concentraciones de AA superiores al 60 % para una satisfacción máxima por parte de los participantes.
Subject(s)
Humans , Adult , Organ Preservation , Surgical Procedures, Operative/education , Brain/anatomy & histology , Acetic Acid/chemistry , CadaverABSTRACT
The morphological and histological structure of the brains of Bufo gargarizans and Cynops orientalis were observed by anatomy and light microscopy. The results show that the brains of Bufo gargarizans and Cynops orientalis are divided into 5 parts which include the telencephalon, diencephalon, mesencephalon, cerebellum and medulla oblongata. The telencephalon consists of the olfactory bulb and the cerebral hemisphere. The olfactory bulb is developed that has two pairs of olfactory nerve. Bufo gargarizan has a symmetrical oval hemisphere optic lobes; Cynops orientalis only has a spherical optic lobe. The cerebellum is situated behind the optic lobe and closely connected with the myelencephalon. In this paper, the morphological and histological differences between the two species are discussed. The proportion of cerebral hemisphere is gradually increasing, which correlated with a progressive increase in the number of neuronal cell classes, and reflected in behavior complexity.
La estructura morfológica e histológica de los cerebros de Bufo gargarizans y Cynops orientalis se observó mediante anatomía y microscopía óptica. Los resultados muestran que los cerebros de Bufo gargarizans y Cynops orientalis se dividen en 5 partes, que incluyen el telencéfalo, diencéfalo, mesencéfalo, cerebelo y mielencéfalo. El telencéfalo consiste en bulbo olfatorio y hemisferio cerebral. El bulbo olfatorio tiene dos pares de nervios olfatorios. Los lóbulos ópticos de Bufo gargarizans son ovalados y simétricos en ambos hemisferios cerebrales; Cynops orientalis tiene solo un lóbulo óptico esférico. El cerebelo está situado detrás del lóbulo óptico y está estrechamente conectado con el mielencéfalo. En este trabajo, se discuten las diferencias morfológicas e histológicas entre las dos especies. El tamaño del hemisferio cerebral aumenta gradualmente, lo que se correlaciona con un aumento progresivo de células neuronales en los núcleos, reflejándose en la complejidad del comportamiento.
Subject(s)
Animals , Salamandridae/anatomy & histology , Brain/anatomy & histology , Bufo bufo/anatomy & histology , Anatomy, Comparative , Telencephalon/anatomy & histology , Mesencephalon/anatomy & histology , Cerebellum/anatomy & histology , Diencephalon/anatomy & histology , Myelencephalon/anatomy & histologyABSTRACT
This study stems from the findings during the gross and histopathological exam of 3,338 cattle brains as part of the bovine spongiform encephalopathy (BSE) active surveillance program of the Brazilian Ministry of Agriculture, Livestock, and Supply from 2001 to 2005. The work was carried out in the Veterinary Pathology Laboratory of the Federal University of Santa Maria which at the time (2001-2007) was the national reference laboratory for the diagnosis of BSE and other transmissible spongiform encephalopathies. Both gross and histopathological aspects are described. Several gross aspects were annotated: anatomic normal structures not commonly recognized (non-lesions), lesions of no clinical significance, postmortem changes and artifacts; all these can amount to important pitfalls that distract the pathologist during the routine gross examination of the central nervous system (CNS). Accordingly, equivalent pitfalls were described in the histological examination. Non-lesions observed were the pineal body, embryo remnants such as the external germinal layer of the cerebellum, subependymal plates, and clusters of neuroblasts in the basal ganglia; or circumventricular structures such as area postrema, subcomisural organ, and melanosis in the leptomeninges and vessel walls. Lesions with little or no clinical importance included age-related changes as lipofuscin, hemosiderin, mineralization and hyalinization of vessel walls within the brain and meninges. Corpora amylacea and corpora arenacea were detected respectively in astrocyte processes and the pineal body. Cytoplasmic neuronal vacuolization was observed in the red nucleus and habenular nucleus. Sarcocystis sp. without a correspondent inflammatory reaction was rarely observed. Included within findings with no clinical manifestation were axonal spheroids and perivascular mononuclear cuffings. Changes in the CNS due to killing, sampling and fixation methods can obscure or distract from the more critical lesions. The ones related to the process of killing included hemorrhages caused in cattle destroyed by a captive bolt. Artifacts related to sampling and handling of CNS tissue consisted of inclusion of bone sand in the neural tissue from sawing the calvarium; dark neurons produced by excessive handling of the brain, and micro-organisms that contaminated the tissues during sampling or histological processing. Postmortem autolytic or putrefactive changes observed included vacuolar changes in the myelin sheath, clear halos surrounding neurons and oligodendrocytes, clusters of putrefaction bacilli within vessels or dispersed throughout the brain tissue associated or not to clear halos. One interesting, and somewhat frequent, postmortem autolytic change found in the bovine brain was the partial dissolution of the granule cell layer (GCL) of the cerebellum, also referred to as conglutination of the GCL or as the French denomination "état glace". Due to the shortage of comprehensive publications in the subject, this review is intended to address the main pitfalls that can be observed in the brain of cattle hoping to help other pathologists avoiding misinterpret them.(AU)
Os resultados deste estudo foram obtidos pelo exame macroscópico e histopatológico de 3.338 cérebros de bovinos examinados durante o programa de vigilância ativa da encefalopatia espongiforme bovina (BSE) do Ministério da Agricultura, Pecuária e Abastecimento (MAPA), de 2001 a 2005. O trabalho foi realizado no Laboratório de Patologia Veterinária (LPV) da Universidade Federal de Santa Maria (UFSM) que, de 2001 a 2007, foi o laboratório nacional de referência para o diagnóstico da BSE e de outras encefalopatias espongiformes transmissíveis. Macroscopicamente, foram descritas estruturas anatômicas normais (não-lesões), mas que são, com frequência, interpretadas como lesões; lesões sem significado clínico; alterações pós-mortais e artefatos. Esses achados podem confundir e desviar a atenção do patologista durante o exame de rotina do sistema nervoso central (SNC). Da mesma forma, estruturas equivalentes foram descritas no exame histológico. As não-lesões observadas foram corpo pineal, remanescentes embrionários, como a camada germinativa externa do cerebelo, placas subependimárias e aglomerados de neuroblastos nos gânglios da base; ou estruturas circunventriculares, como área de postrema, órgão subcomissural e melanose em leptomeninges e paredes dos vasos. Lesões com pouca ou nenhuma importância relacionadas ao envelhecimento incluíram lipofuscina, hemossiderina, mineralização, hialinização das paredes dos vasos do encéfalo e das meninges. Corpora amylacea foram detectados em processos astrocíticos e corpora arenacea, no corpo pineal. Adicionalmente, foi observada vacuolização no citoplasma de neurônios do núcleo vermelho e do núcleo habenular. Sarcocystis sp. sem reação inflamatória correspondente foi raramente observado. Incluídos nos achados sem manifestação clínica estavam esferóides axonais e manguitos mononucleares perivasculares. Alterações no SNC causadas pelo método de abate, amostragem e fixação podem simular ou obscurecer lesões mais importantes. Aquelas relacionadas ao método de abate incluíram hemorragias causadas em bovinos dessensibilizados pelo dardo cativo ou por punção por faca da medula na articulação atlanto-occipital. Artefatos relacionados à amostragem e manuseio de tecido do SNC consistiram na inclusão de pó de osso no tecido neural em consequência do uso de serra para abrir a caixa craniana; neurônios escuros produzidos pelo manuseio excessivo do cérebro e micro-organismos que contaminaram os tecidos durante a amostragem ou processamento histológico. Alterações autolíticas pós-mortais ou de putrefação incluíram vacuolizações na bainha de mielina, halos claros em torno dos neurônios e oligodendrócitos, aglomerados de bacilos de putrefação dentro dos vasos ou dispersos em todo o tecido cerebral, relacionados ou não a halos claros. Uma alteração autolítica pós-mortal intrigante e relativamente frequente encontrada foi a dissolução parcial da camada de células granulares (CCG) do cerebelo, também referida como conglutinação da CCG ou "état glacé". Devido à escassez de publicações abrangentes neste assunto, esta revisão pretende abordar as principais ciladas que possam aparecer no cérebro de bovinos, na esperança de ajudar outros patologistas a evitar interpretá-las erroneamente.(AU)
Subject(s)
Animals , Cattle , Brain/anatomy & histology , Cattle/anatomy & histology , Cattle Diseases/physiopathology , Encephalopathy, Bovine Spongiform/physiopathology , Autopsy/veterinaryABSTRACT
Callichthyidae comprises the subfamilies Callichthyinae and Corydoradinae, both of which are morphologically distinct and monophyletic. Although there is consensus regarding the monophyly of the family, the relationships of about 80% of its species, currently included in the genus Corydoras, remain poorly known. Despite the vast amount of osteological information for Teleostei, knowledge regarding the phylogenetic implications of encephalon anatomy is sparse and represents a poorly explored source of potential characters. The present study aims to describe the encephalon morphology in members of the Callichthyidae in order to propose new characters that may help address phylogenetic questions regarding this group. In addition to representatives of Callichthyidae, specimens belonging to the Nematogenyidae, Trichomycteridae, Scoloplacidae, Astroblepidae and Loricariidae were dissected for comparative purposes. Head dissection revealed information on the structure of the medulla spinalis, rhombencephalon, mesencephalon, diencephalon and telencephalon. The conditions observed on the encephalons examined suggest that representatives of Callichthyidae have great taste perception and processing, while Corydoradinae stand out for visual acuity and Callichthyinae for mechanoreception processing subunits. Our results also indicate that the encephalon has important features for systematic studies of the family bringing greater resolution to current phylogenetic hypotheses.(AU)
Callichthyidae é composto por Callichthyinae e Corydoradinae, ambos morfologicamente distintos e monofiléticos. Apesar do consenso em relação ao mofiletismo da família, as relações de cerca de 80% de suas espécies, atualmente incluídas no gênero Corydoras, permanecem pouco conhecidas. Apesar da grande quantidade de informação osteológica sobre Teleostei, o conhecimento sobre as implicações filogenéticas da anatomia do encéfalo é escasso e, por isso, considerado uma fonte inexplorada de caracteres. O objetivo do presente estudo é a descrição morfológica dos encéfalos de Callichthyidae, fornecendo novos caracteres que podem elucidar questões filogenéticas para o grupo. Além dos representantes de Callichthyidae, espécimes pertencentes a Nematogenyidae, Trichomycteridae, Scoloplacidae, Astroblepidae e Loricariidae foram dissecados para fins comparativos. A dissecção do crânio revelou informações sobre a estrutura da medulla spinalis, rhombencephalon, mesencephalon, diencephalon e telencephalon. As condições observadas nos encéfalos sugerem que representantes de Callichthyidae possuem grande capacidade de percepção e processamento químico, enquanto os Corydoradinae se destacam pela acuidade visual e os Callichthyinae pelas unidades de processamento mecanoreceptoras. Nossos resultados indicam que os encéfalos detêm características importantes para contribuir com estudos sobre a sistemática da família, trazendo maior resolução para as hipóteses atuais de reconstrução filogenética.(AU)
Subject(s)
Animals , Catfishes/anatomy & histology , Catfishes/classification , Brain/anatomy & histology , Spinal CordABSTRACT
Handmade anatomy models may be a complementary useful tool to dissection and prosection, since the student interacts with the body structure in a three-dimensional way. In this study homemade dough (biscuit) was used to create a brain model. Two anatomy trainees from the medical school of the Universidade Federal Fluminense (Niteroi Brazil) were challenged to model the gross anatomy of the lateral aspect of the brain. They prepared and handled homemade dough to produce a simple and low cost model of the cerebral hemisphere. Styrofoam balls fixed by pins were used to create a framework, and dough rolls were modeled in order to create the brain sulci and gyri. At the end, the model closely resembled three-dimensional features of the human brain. Also, brain lobes were easily identified, as well as some major gyri and sulci, such as the central and lateral sulci and the precentral and postcentral gyri. In conclusion, the three-dimensional spatial characteristics, the clear identification of sulci and gyri and the brain lobes, make this model a good tool for students who only require basic anatomy in their curriculum.
Los modelos de anatomía elaborados a mano pueden ser una herramienta útil y complementaria a la disección y la prosección, debido a que el alumno interactúa con la estructura del cuerpo de manera tridimensional. En este estudio se utilizó una masa casera (bizcocho) para crear un modelo cerebral. Dos estudiantes de anatomía de la Facultad de Medicina de la Universidade Federal Fluminense (Niteroi, Brasil) fueron desafiados a modelar la anatomía macroscópica de la cara lateral del cerebro. Prepararon y manejaron masa casera para producir un modelo simple y de bajo costo del hemisferio cerebral. Bolas de espuma de poliestireno fijado por alfileres se utilizaron para crear un marco, y los rollos de masa fueron modelados con el fin de crear los surcos cerebrales y giros. Al final, el modelo resultó ser muy semejante a las características tridimensionales del cerebro humano. Además, los lóbulos cerebrales fueron fácilmente identificados, así como algunos giros y surcos mayores, tales como el surco central y lateral y el giro precentral y postcentral. En conclusión, las características espaciales tridimensionales, la identificación clara de los surcos y giros y los lóbulos cerebrales, hacen de este modelo una buena herramienta para los estudiantes que sólo requieren anatomía básica en su plan de estudios.
Subject(s)
Humans , Brain/anatomy & histology , Models, Anatomic , Neuroanatomy/educationABSTRACT
Mediante la comparación del neurocráneo de la "raya mariposa" Gymnura micrura con especies representantes de cinco familias de Batoidea, se reconoce que corresponde al patrón anatómico del orden Myliobatiformes, por la ausencia del rostro, la presencia de una sola fontanela y el mayor desarrollo de los procesos postorbitarios. La especie en estudio difiere de los Urotrygonidae y Dasyatidae por tener los procesos postorbitarios subdivididos. La organización del encéfalo de G. micrura corresponde al patrón anatómico de los Batoidea, sin embargo, a diferencia de los Rhinobatidae, Urotrygonidae y Dasyatidae, el cerebelo es simétrico; en contraste con los Myliobatidae los hemisferios cerebrales son reducidos; y la principal diferencia con relación a los Narcinidae es la ausencia de los lóbulos eléctricos.
By comparing the neurocranium of the "butterfly ray" Gymnura micrura with representative species of five families of Batoidea, it is recognized that it corresponds to the anatomical pattern of the order Myliobatiformes, because of the absence of the rostrum, the presence of a single fontanelle and the development of the postorbital processes. The species under study differs from the Urotrygonidae and Dasyatidae by having subdivided postorbital processes. The organization of the encephalon of G. micrura corresponds to the anatomical pattern of the Batoidea. However, unlike the Rhinobatidae, Urotrygonidae, and Dasyatidae, the cerebellum is symmetrical; in contrast with the Myliobatidae, the cerebral hemispheres are reduced; and, the main difference in relation to the Narcinidae, is the absence of electrical lobes.
Subject(s)
Animals , Anatomy, Comparative , Brain/anatomy & histology , Skates, Fish/anatomy & histology , Skull/anatomy & histology , Species SpecificityABSTRACT
Objectives: To describe the frequency of brain tissue donation for research purposes by families of individuals that committed suicide. Methods: All requests for brain tissue donation to a brain biorepository made to the families of individuals aged 18-60 years who had committed suicide between March 2014 and February 2016 were included. Cases presenting with brain damage due to acute trauma were excluded. Results: Fifty-six cases of suicide were reported. Of these, 24 fulfilled the exclusion criteria, and 11 others were excluded because no next of kin was found to provide informed consent. Of the 21 remaining cases, brain tissue donation was authorized in nine (tissue fragments in seven and the entire organ in two). Conclusions: Donation of brain tissue from suicide cases for research purposes is feasible. The acceptance rate of 42.8% in our sample is in accordance with international data on such donations, and similar to rates reported for neurodegenerative diseases.
Subject(s)
Humans , Male , Female , Adolescent , Adult , Middle Aged , Young Adult , Suicide/statistics & numerical data , Tissue Donors/statistics & numerical data , Brain/anatomy & histology , Biomedical Research/statistics & numerical data , Autopsy/statistics & numerical data , Tissue Banks/statistics & numerical data , Brazil , Neurodegenerative Diseases/pathology , Informed Consent/statistics & numerical dataABSTRACT
Cranial capacity and brain weight are important measurements in the study of racial/ethnic differences. Using linear (LeePearson's) formula, brain weight and cranial capacity were estimated in 398 normal 17 to 20-year-old males (200 native Fars and 198 Turkman) males in Northern Iran. The dimensions of the head measured with spreading caliper and auricular head spanner. The mean±S.D of brain weight and cranial capacity in native Fars males were 1343.45±102.37 cm3, and 1390.47±105.95 g, and that of Turkmans were 1163.02±115.76 cm3 and 1203.73±119.81 g, respectively. Cerebral Index was 3.40 ±0.37 % and 2.52 ±0.37 % in Native Fars and Turkmans, respectively and cerebral quotient was higher in Turkmans (8.34) than Native Fars males (7.95). This study showed, the effect of ethnic factor influences the brain weight of 17-20 year-old males in Northern Iran.
La capacidad craneal y el peso del cerebro son mediciones importantes en el estudio de las diferentes etnias. Se estimó el peso del cerebro y la capacidad craneal usando la fórmula lineal de Lee-Pearson, en 398 hombres de 17 a 20 años de edad (200 nativos Fars y 198 Turcomanos) en el norte de Irán. Las dimensiones de la cabeza se midieron con caliper deslizante y con una llave de Todd, para la medición auricular. La media ± D.S. del peso del cerebro y la capacidad craneal en hombres nativos Fars fue de 1343,45±102,37 cm3, y 1390,47±105,95 g, y la de los turcomanos fue de 1163,02±115,76 cm3 y 1203,73 ± 119,81 g, respectivamente. El índice cerebral fue de 3,40± 0,37 % y 2,52 ± 0,37 % en nativos Fars y turcomanos, respectivamente, y el cociente cerebral fue mayor en los turcomanos (8,34) que en los hombres Fars (7.95). Este estudio demostró que el efecto del factor étnico influye en el peso del cerebro en hombres de 17-20 años del norte de Irán.
Subject(s)
Humans , Male , Adolescent , Young Adult , Brain/anatomy & histology , Cephalometry , Organ Size , Anthropometry , Body Weight , Iran/ethnologyABSTRACT
A better understanding of normal or expected encephalic changes with increasing age in cats is needed as a growing number of these animals is attended in veterinary clinics, and imaging data referring to normal age-associated changes are extremely scarce in the literature. The objective of this study was to identify age-related changes in feline brain using CT imaging. Fifteen non-brachycephalic healthy cats with age between 1 to 6 years (adult group) and others over 12 years (geriatric group) were submitted to CT scan of the brain. Statistically significant differences were found between the groups for the ability to identify the left lateral ventricle and for falx cerebri calcification, both identified in a greater number of cats of the geriatric group. A significantly higher mean width of the third ventricle was also detected in geriatric animals. There were no statistically significant differences between lateral ventricular dimensions and encephalic parenchymal attenuation on pre and post-contrast CT phases. The results of the present study show an increase in the incidence of falx cerebri calcification and a third ventricular dilatation with advancing age in cats. Future researches using MRI scanners and a greater quantity of cats are needed in order to identify supplementary age-related changes.(AU)
Uma melhor compreensão das alterações encefálicas normais ou esperadas com o aumento da idade em gatos é necessária no presente momento, uma vez que tem havido um número crescente desses animais nas clínicas veterinárias, e dados de imagem referentes às alterações normais associadas à idade são extremamente escassos na literatura. O objetivo deste estudo foi a identificação de alterações relacionadas à idade no encéfalo de gatos através da tomografia computadorizada. Quinze gatos saudáveis não braquicefálicos com idade entre 1 e 6 anos (grupo adulto) e mais de 12 anos (grupo geriátrico) foram submetidos à tomografia encefálica. Diferenças estatísticas significativas foram encontradas entre os grupos para a identificação do ventrículo lateral esquerdo e calcificação da foice cerebral, ambos visualizados em um número maior de gatos do grupo geriátrico. A média de largura do terceiro ventrículo também foi significativamente maior nos animais geriátricos. Não foram encontradas diferenças estatísticas significativas entre a mensuração dos ventrículos laterais e a atenuação do parênquima encefálico nas fases tomográficas pré e pós-contraste. Os resultados do presente estudo demonstram aumento da incidência de calcificação da foice cerebral e dilatação do terceiro ventrículo de acordo com o avanço da idade em gatos. Pesquisas futuras utilizando ressonância magnética e uma maior quantidade de gatos são necessárias a fim de se identificar alterações complementares relacionadas à idade.(AU)
Subject(s)
Animals , Cats , Brain/anatomy & histology , Brain/diagnostic imaging , Aging/physiology , Tomography, X-Ray Computed/veterinary , Nervous System/anatomy & histologyABSTRACT
The aim of the current study focused on the morphological features of the brain of the African ostrich. The brain was studied macroscopically, microscopically and the measurements of all brain parts were demonstrated. The brain of ostrich was rhombus in shape with large obtuse triangular cerebrum with sagittal dorsomedial wulst. The olfactory bulb was small with undeveloped olfactory lobe. The diencephalon gave rise to the pineal gland, which was inverted tubal structure with an obtuse triangle bottom. Large optic chiasm and optic tract demonstrated that continued to the optic lobes. The cerebellum was represented by central vermis that had numerous transverse fissures and two small lateral floccules on its lateral surface. The medulla oblongata with clear pontine flexure and no obvious pons or trapezoid body appeared. The histological results revealed that the cerebral cortex formed of several ill-defined layers of neurons. The most common appearance characterized by few small neurons supported by neuroglia. The cerebellar cortex consists of three layers namely molecular layer, Purkinje cells layer and internal granular layer, the layer of Purkinje cells characterized by a very large cell body. The medulla oblongata was covered by pia mater of loose connective tissue that covered with simple squamous epithelium and vascular supply extended beneath the pia mater. The cell nuclei of the medulla oblongata were formed from few multipolar neurons, supported by few neuroglia. The fourth ventricle was lined by pseudo stratified columnar ciliated ependymal cells.
El objetivo fue describir las características morfológicas del cerebro de la avestruz africana. El cerebro se estudió macroscópica y microscópicamente, y las mediciones de todas las partes del cerebro fueron registradas. El cerebro tuvo una forma romboidal, con cerebelo grande triangular obtuso con una protuberancia dorsomedial sagital. El bulbo olfatorio era pequeño, con un lóbulo olfativo sin desarrollar. El diencéfalo dio lugar a la glándula pineal, que es una estructura en forma de tubo invertida con un triángulo obtuso en su parte inferior. Un gran quiasma y tracto óptico demostraron ser continuos con los lóbulos ópticos. El cerebelo estaba caracterizado por la vermis central que tenía numerosas fisuras transversales y dos pequeños flóculos laterales en su superficie lateral. La médula oblongada mostró en algunos casos una flexión pontina evidente, en otros ausencia de puentes o la aparición de un cuerpo trapezoide. Los resultados histológicos revelaron que la corteza cerebral está formada de varias capas de neuronas mal definidas. El aspecto más común se caracterizó por unas pequeñas neuronas soportadas por neuroglias. La corteza cerebelosa consistió en tres capas, molecular, de células de Purkinje y granular interna; las células de Purkinje se caracterizaron por un cuerpo celular grande. La medula oblongada estaba cubierta por pia madre de tejido conectivo laxo, revestida por epitelio escamoso simple y un suministro vascular extenso bajo la piamadre. Los núcleos de las células de la médula oblongada se formaron a partir pocas neuronas multipolares, soportados por algunas neuroglias. El cuarto ventrículo estaba revestido un epitelio pseudo-estratificado de células ependimarias columnares ciliadas.
Subject(s)
Animals , Male , Female , Brain/anatomy & histology , Struthioniformes/anatomy & histologyABSTRACT
Clostridium difficile is a major cause of antibiotic-associated diarrhea. We report a patient with complicated Clostridium difficile infection (CDI) who developed rapidly progressive acute respiratory distress syndrome (ARDS), for which CDI was the only identifiable source. CDI should be considered in the differential diagnosis for anyone with diarrhea who presents ARDS, especially in high-risk groups such as the elderly, hospitalized patients, or those who have had a history of CDI.
El Clostridium difficile es una de las causas más frecuentes de diarreas asociadas a antibióticos. Reportamos un paciente con infección por Clostridium difficile complicada (CDI) que desarrolló rápida y progresivamente un síndrome de distress respiratorio agudo (ARDS), del cual el CDI fue la fuente única identificable. El CDI debe considerarse en el diagnóstico diferencial de cualquier persona con diarrea que presenta ARDS, especialmente en los grupos de alto riesgo como los ancianos, pacientes hospitalizados o aquellos que han tenido historia precia de DCI.
Subject(s)
Humans , Algorithms , Artifacts , Brain/anatomy & histology , Diffusion Magnetic Resonance Imaging/methods , Image Enhancement/methods , Image Interpretation, Computer-Assisted/methods , Reproducibility of Results , Sensitivity and SpecificityABSTRACT
O objetivo deste estudo foi o de conhecer a devida correspondência entre os sintomas mentais considerados na homeopatia e as várias regiões e estruturas identificáveis no encéfalo dos animais. Os resultados obtidos mostraram que as sensações e emoções muito primitivas, como medos e fobias, interagem pontualmente com regiões evolutivamente também muito primitivas do cérebro (como amígdala e núcleos septais), enquanto sentimentos nobres como afeto e lealdade interagem holisticamente com várias estruturas cerebrais evolutivamente mais recentes, tais como as áreas neocorticais terciárias associativas (área pré-frontal e temporal). No primeiro caso, as manifestações orgânicas são mediadas pelo sistema nervoso autônomo com sinais fisiológicos de taquicardia, elevação da pressão arterial, vasoconstrição periférica, eriçamento de pelos, midríase e secreção de hormônios como adrenalina e cortisol (disfluência comportamental), enquanto na outra situação apontada, eventuais manifestações orgânicas são harmoniosas e serenas (fluência comportamental). O conteúdo de todo o texto do trabalho é indicativo do interesse prático dos dados obtidos para o clínico veterinário homeopata, ressaltando-se nesse contexto a validação do uso de repertórios homeopáticos humanos na clínica veterinária, evidentemente com as devidas precauções sempre balizadas pelo bom senso do profissional.
This study was motivated by the need to determine the relationship between mental symptoms considered in homeopathy and several regions and structures identified in animals brain. Obtained results showed that very primitive sensations (what it feels like) and emotions (what is put out in behavioral terms), such as fears and phobias, interact punctually with also very primitive brain regions (from the evolutionary point of view, such as amygdala and septal nuclei), while noble feelings, such as affection and loyalty, interact holistically with newer brain structures (also from the evolutionary point of view), such as the tertiary associative neocortical areas (prefrontal and temporal). In the first case, the symptoms are expressed in organic manifestations, mediated by the autonomic nervous system, with physiological signs of tachycardia, elevated blood pressure, peripheral vasoconstriction, bristling hair, mydriasis and secretion of hormones, such as adrenaline and cortisol (behavioral disfluency), while, in the second case, eventual organic manifestations are harmonious and serene (behavioral fluency). Overall results are highly suggestive about the influence of mental conditions over health and disease of the physical body, through the process of somatization. The overall content of this work is indicative of the practical interest in the results by homeopathic veterinary practitioners, and in this context emphasizes the validity of using human homeopathic repertories in veterinary clinics, obviously with suitable precaution and, always directed by good professional judgment.
Subject(s)
Animals , Brain/anatomy & histology , Homeopathy/veterinary , Neurosciences , Psychic Symptoms/analysis , Emotions/physiology , Sensation/physiologyABSTRACT
The rat posterodorsal medial amygdala (MePD) links emotionally charged sensory stimuli to social behavior, and is part of the supramedullary control of the cardiovascular system. We studied the effects of microinjections of neuroactive peptides markedly found in the MePD, namely oxytocin (OT, 10 ng and 25 pg; n=6/group), somatostatin (SST, 1 and 0.05 μM; n=8 and 5, respectively), and angiotensin II (Ang II, 50 pmol and 50 fmol; n=7/group), on basal cardiovascular activity and on baroreflex- and chemoreflex-mediated responses in awake adult male rats. Power spectral and symbolic analyses were applied to pulse interval and systolic arterial pressure series to identify centrally mediated sympathetic/parasympathetic components in the heart rate variability (HRV) and arterial pressure variability (APV). No microinjected substance affected basal parameters. On the other hand, compared with the control data (saline, 0.3 µL; n=7), OT (10 ng) decreased mean AP (MAP50) after baroreflex stimulation and increased both the mean AP response after chemoreflex activation and the high-frequency component of the HRV. OT (25 pg) increased overall HRV but did not affect any parameter of the symbolic analysis. SST (1 μM) decreased MAP50, and SST (0.05 μM) enhanced the sympathovagal cardiac index. Both doses of SST increased HRV and its low-frequency component. Ang II (50 pmol) increased HRV and reduced the two unlike variations pattern of the symbolic analysis (P<0.05 in all cases). These results demonstrate neuropeptidergic actions in the MePD for both the increase in the range of the cardiovascular reflex responses and the involvement of the central sympathetic and parasympathetic systems on HRV and APV.
Subject(s)
Animals , Male , Arterial Pressure/drug effects , Baroreflex/drug effects , Corticomedial Nuclear Complex/drug effects , Heart Rate/drug effects , Neuropeptides/pharmacology , Wakefulness , Analysis of Variance , Angiotensin II/administration & dosage , Brain/anatomy & histology , Cardiovascular System/innervation , Corticomedial Nuclear Complex/metabolism , Hemodynamics/drug effects , Microinjections , Neuropeptides/administration & dosage , Oxytocin/administration & dosage , Parasympathetic Nervous System/drug effects , Rats, Wistar , Statistics, Nonparametric , Somatostatin/administration & dosage , Sympathetic Nervous System/drug effects , Vascular Access DevicesABSTRACT
INTRODUCTION: Prognosis is the main limitation of interceptive treatment of Class III malocclusions. The interceptive procedures of rapid maxillary expansion (RME) and face mask therapy performed in early mixed dentition are capable of achieving immediate overcorrection and maintenance of facial and occlusal morphology for a few years. Individuals presenting minimal acceptable faces at growth completion are potential candidates for compensatory orthodontic treatment, while those with facial involvement should be submitted to orthodontic decompensation for orthognathic surgery. OBJECTIVES: To investigate cephalometric variables that might predict the outcomes of orthopedic treatment with RME and face mask therapy (FM). METHODS: Cephalometric analysis of 26 Class III patients (mean age of 8 years and 4 months) was performed at treatment onset and after a mean period of 6 years and 10 months at pubertal growth completion, including a subjective facial analysis. Patients was divided into two groups: success group (21 individuals) and failure group (5 individuals). Discriminant analysis was applied to the cephalometric values at treatment onset. Two predictor variables were found by stepwise procedure. RESULTS: Orthopedic treatment of Class III malocclusion may have unfavorable prognosis at growth completion whenever initial cephalometric analysis reveals increased lower anterior facial height (LAFH) combined with reduced angle between the condylar axis and the mandibular plane (CondAx.MP). CONCLUSION: The results of treatment with RME and face mask therapy at growth completion in Class III patients could be predicted with a probability of 88.5%. .
INTRODUÇÃO: a principal limitação do tratamento interceptivo das más oclusões de Classe III está no prognóstico. Os procedimentos interceptivos de expansão rápida da maxila e de tração reversa, adotados ao início da dentição mista, são capazes de propiciar sobrecorreção imediata e manutenção da morfologia facial e oclusal por alguns anos. Pacientes que, ao final do crescimento, apresentam, no mínimo, faces aceitáveis, são candidatos ao tratamento ortodôntico compensatório, ao passo que aqueles com comprometimento facial deveriam ser submetidos a tratamento ortodôntico descompensatório para cirurgia ortognática. OBJETIVO: investigar variáveis cefalométricas preditoras dos resultados do tratamento ortopédico com expansão rápida da maxila e tração reversa (ERM e TM). MÉTODOS: uma avaliação cefalométrica foi aplicada, ao início do tratamento, em 26 crianças com má oclusão de Classe III (média de idade de 8 anos e 4 meses). Após um período médio de 6 anos e 10 meses, ao final do crescimento pubertário. sob o crivo de uma análise facial subjetiva, foram constituídos dois grupos, sendo um grupo de sucesso (21 pacientes) e um grupo de insucesso (5 pacientes). Análise discriminante foi aplicada aos valores cefalométricos ao início do tratamento, por meio do procedimento stepwise, assim, identificamos duas variáveis preditoras. RESULTADOS: o tratamento ortopédico de uma má oclusão Classe III pode ter prognóstico desfavorável ao final do crescimento quando, nos registros cefalométricos iniciais, for observada uma altura facial anteroinferior aumentada (AFAI) associada a uma diminuição do ângulo entre o eixo condilar e o plano mandibular (CondAx.PM). CONCLUSÃO: os resultados para o final de crescimento de um tratamento com ERM e TM, para cada novo paciente com má oclusão de Classe III, poderiam ser previstos com uma probabilidade de acerto de 88,5%. .
Subject(s)
Humans , Brain/anatomy & histology , Diagnostic Imaging/methods , Image Processing, Computer-Assisted/methods , Algorithms , Databases, Factual , Head/anatomy & histology , Linear Models , Models, Anatomic , Models, Neurological , Population , Reproducibility of Results , SoftwareABSTRACT
El grupo de los Torpediniformes representa una de las líneas ancestrales de los batoideos cuya ruta evolutiva ha seguido una línea separada del resto de este grupo. No se han realizado estudios sobre la morfología del encéfalo de Diplobatis ommata, es por ello que el objetivo de este estudio fue describir la anatomía del encéfalo y pares craneales de esta especie. Los organismos fueron colectados en Zihuatanejo, Guerrero, México. El encéfalo se obtuvo por medio de la técnica de disección convencional. El encéfalo de Diplobatis ommata es similar al de los tiburones basales, sin embargo, presenta una vesícula eléctrica, característica de Torpediniformes. Las estructuras más grandes del encéfalo son los bulbos olfatorios y la médula oblongada. El telencéfalo es reducido y el cerebelo presenta simetría bilateral y es prácticamente liso. La disposición de los pares craneales es similar a la que presentan otros grupos de batoideos, sin embargo, la inervación de los pares craneales VII, IX y X se modifica, ya que además de inervar a las regiones descritas convencionalmente, inervan también a los órganos eléctricos.
The Torpediniformes group is one of the ancestral batoid lines, the evolution of which has followed a line separated from the rest of this group. No studies have been conducted on the brain morphology of Diplobatis ommata. This is why the objective of this work is describing the anatomy of the brain and the cranial nerves of this species. Organisms were collected in Zihuatanejo, Guerrero, Mexico. The brain was obtained through conventional dissection techniques. The brain of Diplobatis ommata is similar to that of basal sharks; however, it has the electric vesicle typical in Torpediniformes. The largest encephalic structures are the olfactory bulbs and medulla oblongata. The telencephalon is reduced, while the cerebellum has bilateral symmetry and is almost smooth. Disposition of cranial nerves are similar to other batoid groups; but innervation of pairs VII, IX and X is modified: they innervate regions conventionally described, but also electric organs.