A micro-CT study of different regions of the atlas / Un estudio de micro-CT de diferentes regiones del atlas

This study aimed to examine the differences in bone microarchitecture between different regions of the atlas in 28 dry atlas specimens using micro-CT, in order to explain the mechanism of the predilection sites of atlas fractures from the morphological point of view. A total of 28 dry specimens of intact adult atlas were randomly selected, scanned by micro-CT, and divided into a region from the anterior arch midpoint (AAM) to the lateral masses (LM), a LM region, and a region from the LM to the posterior arch midpoint (PAM). Trabecular thickness, separation, number, connectivity, and structure model index were measured for each of the three regions using the built-in software of the CT scanner. Trabecular thickness was all measured to be 0.11 ± 0.00 mm for AAM to LM, LM, and LM to PAM. Trabecular separation: AAM to LM > LM to PAM > LM. Trabecular number: LM > LM to PAM > AAM to LM. Connectivity: LM > LM to PAM > AAM to LM. Structure model index: LM > LM to PAM > AAM to LM. A lower trabecular number and connectivity and higher trabecular separation were seen in the anterior and posterior arches of the atlas, in which higher fracture rates were reported. By contrast, a higher trabecular number and connectivity and lower trabecular separation were seen in the lateral masses, in which lower fracture rates were reported.

Este estudio tuvo como objetivo examinar las diferencias en la microarquitectura ósea entre diferentes regiones del atlas en 28 muestras de atlas secas utilizando micro-CT, con el fin de informar el área de mayor frecuencia en las fracturas de atlas, desde el punto de vista morfológico. Se seleccionaron al azar un total de 28 muestras secas de atlas adultos intactas las que se escanearon por micro-CT y se dividieron en una región desde el punto medio del arco anterior (MAA) hasta las masas laterales (ML), una región ML y una región desde el ML hasta el punto medio del arco posterior (MAP). Se midió el grosor trabecular, la separación, el número, la conectividad y el índice del modelo de estructura para cada una de las tres regiones utilizando el software incorporado del escáner CT. El grosor trabecular se midió en 0,11 ± 0,00 mm para MAA a ML, ML y ML a MAP. Separación trabecular: MAA a ML> ML a MAP> ML. Número trabecular: ML> ML a MAP> MAA a ML. Conectividad: ML> ML a MAP> MAA a ML. Índice del modelo de estructura: ML> ML a MAP> MAA a ML. Se observó un menor número de estructuras trabeculares y conectividad y una mayor separación trabecular en los arcos anterior y posterior del atlas, en los que se informaron tasas de fracturas más altas. Por el contrario, se observó un mayor número de estructuras trabeculares y conectividad, y una menor separación trabecular en las masas laterales, en las que se observó un número menor de fracturas.

Inconsistencias de la terminologia anatomica: la vértebra cervical 1 nombrada con el epónimo atlas / Inconsistencies of the terminologia anatomica: first cervical vertebra named with the eponim atlas

La primera vértebra cervical establece una articulación sinovial con los cóndilos del occipital, sin que haya de por medio disco fibrocartilaginoso. Esta articulación es importante para la anatomía funcional del cuello porque, además de soportar el peso de la cabeza en los humanos, permite movimientos de flexión, extensión e inclinación lateral. La primera vértebra es conocida en la Terminologia Anatomica y en la Nomina Anatomica Veterinaria con el nombre de Atlas [C1]. El nombre de Atlas, asignado a la primera vértebra cervical, fue tomado de uno de los titanes de la mitología griega condenado por el dios Zeus a soportar el cielo con sus manos, cabeza y hombros, y que en términos figurativos es la que sostiene el mundo craneal. Sorprende que en el libro oficial de la Terminologia Anatomica y en el de la Nomina Anatomica Veterinaria se mantenga este epónimo por una simple tradición, constituyéndose en una vergonzosa contradicción que debe ser corregida y eliminada.

The first cervical vertebra establishes a synovial joint with the occipital condyles, without having a fibrocartilaginous disc. This joint articulation is important for the functional anatomy of the neck, because in addition to supporting the weight of the head in humans, it allows movements of flexion, extension and lateral inclination. The first cervical vertebra is known in the Terminologia Anatomica and the Nomina Anatomica Veterinaria with the name of Atlas [C1]. The name Atlas, assigned to the first cervical vertebra, was taken from one of the titans of Greek mythology condemned by the god Zeus to support the world with the hands, head, and shoulders, so in figurative terms said vertebra is the one that sustains the cranial world. It is surprising that in the official book of the Terminolgia Anatomica and in the Nomina Anatomica Veterinaria this eponymous is maintained by a simple tradition, constituting a shameful contradiction that must be corrected and eliminated.

Anatomía morfométrica de importancia clínica del atlas en relación a la estabilización del complejo atlantoaxial y occipitocervical / Morphometric anatomy of clinical importance of the atlas in relation to the stabilization of the atlantoaxial and occipitocervical complex

RESUMEN: Evaluar de manera integral los parámetros morfométricos de la vértebra atlas (C1) en la población mexicana de relevancia en la realización de procedimientos quirúrgicos de la unión craneocervical con el fin de proveer datos cuantitativos indispensables para su realización. Para este estudio se utilizaron un total de 576 vértebras C1 secas de población mexicana contemporánea. Se realizaron 11 mediciones respecto a la morfología de C1. Las mediciones se efectuaron bilateralmente utilizando un vernier digital milimétrico con una precisión de 0,01 milímetros y se aplicó un análisis estadístico. Un total de 576 vértebras atlas (C1), fueron medidas de manera bilateral, todas nuestras mediciones se reportaron en milímetros. El promedio del ancho de las masas lateral fue de 14,87 mm ± 1,38 mm. El promedio de la altura de las masas laterales fue de 4,05 mm ± 0,93 mm. El promedio del ancho del foramen transverso fue de 5,93 mm ± 0,98 mm. El promedio del largo del foramen transverso fue de 6,96 mm ± 0,98 mm. El promedio de la altura del foramen transverso fue de 5,76 mm ± 1,31 mm. El promedio del ancho del surco de la arteria vertebral fue de 18,87 mm ± 1,3 mm. El promedio de la distancia entre la línea media y el margen medial del surco de la arteria vertebral sobre la superficie anterior del arco posterior de C1 en su cara superior fue de 12,47 mm ± 3,14 mm. El promedio de la distancia entre la línea media y el margen medial del surco de la arteria vertebral sobre la superficie posterior del arco posterior de C1 en su cara superior fue de 18,75 mm ± 3,94 mm. El promedio de la distancia entre la línea media y el margen lateral del surco de la arteria vertebral sobre la superficie anterior del arco posterior de C1 en su cara superior fue de 19,7 mm ± 2,52 mm. El promedio de la distancia entre la línea media y el margen lateral del surco de la arteria vertebral sobre la superficie posterior del arco posterior de C1 en su cara superior fue de 29,52 mm ± 3,23. Nuestro estudio demuestra que las mediciones realizadas en nuestra población presentan diferencias significativas respecto a lo reportado actualmente en la literatura. Es necesario contar con un conocimiento de la morfología vertebral en nuestra población para disminuir la ventana de error al realizar procedimientos quirúrgicos que involucren este segmento.

SUMMARY: To evaluate in an integral way the morphometric parameters of the atlas (C1) vertebra in the Mexican population of relevance in performing surgical procedures of the craniocervical junction in order to provide quantitative and essential data for its realization. For this study, a total of 576 dry C1 vertebrae of contemporary Mexican population were used. Eleven measurements were carried out regarding the morphology of C1. The measurements were made bilaterally using a millimeter digital vernier with an accuracy of 0.01 millimeters and a statistical analysis was applied. A total of 576 atlas vertebrae (C1) were measured bilaterally, all our measurements were reported in millimeters. The average width of the lateral masses was 14.87 mm ± 1.38 mm. The average height of the lateral masses was 4.05 mm ± 0.93 mm. The average width of the transverse foramen was 5.93 mm ± 0.98 mm. The average length of the transverse foramen was 6.96 mm ± 0.98 mm. The average height of the transverse foramen was 5.76 mm ± 1.31 mm. The average width of the groove of the vertebral artery was 18.87 mm ± 1.3 mm. The average distance between the midline and the medial edge of the vertebral artery groove on the anterior surface of the posterior arch of C1 on its superior surface was 12.47 mm ± 3.14 mm. The average distance between the midline and the medial border of the vertebral artery groove on the posterior surface of the posterior arch of C1 on its upper face was 18.75 mm ± 3.94 mm. The average distance between the midline and the lateral border of the vertebral artery groove on the anterior surface of the posterior arch of C1 on its superior surface was 19.7 mm ± 2.52 mm. The average distance between the midline and the lateral border of the vertebral artery groove on the posterior surface of the posterior arch of C1 on its superior surface was 29.52 mm ± 3.23. Our study shows that the measurements made in our population present differences with respect to what is currently reported in the literature. It is necessary to have knowledge of vertebral morphology in our population to reduce the error window when performing surgical procedures involving this segment.

Investigation of the relationship between "sella turcica bridge" and "ponticulus posticus": a lateral cephalometric study / Investigación sobre la relación entre "puente silla turca" y "ponticulus posticus": un estudio cefalométrico lateral

The ponticulus posticus (PP) is a bridge of bone sometimes found on the atlas vertebra surrounding the vertebral artery and the first cervical nerve root. Sella turcica bridging (STB) is the fusion of anterior and posterior clinoid processes. The objective of this study was to find out the association between STB and PP. For the study, 752 digital lateral cephalograms were retrieved from the archived records of Necmettin Erbakan University, Faculty of Dentistry, Konya, Turkey. There was a significant relationship between the presence of STB and PP (p=0.000, p<0.001). This study indicates that there is a significant correlation between the presence of STB and PP.

El Ponticulus Posticus (PP) es un puente de hueso que se encuentra, a veces, en el atlas y rodea la arteria vertebral y la primera raíz del nervio cervical. El puente de la silla turca (PST) es la fusión de los procesos clinoides anteriores y posteriores. El objetivo de este estudio fue conocer la asociación entre PST y PP. Para el estudio, fueron utilizados 752 cefalogramas digitales laterales, obtenidos de los registros archivados de la Facultad de Odontología de la Universidad Necmettin Erbakan, Konya, Turquía. Hubo una relación significativa entre la presencia de PST y PP (p = 0,000, p <0,001). Este estudio indica que existe una correlación significativa entre la presencia de PST y PP.

O papel da ultrassonografia modo B na avaliação anatômica musculoesquelética do segmento cervical da coluna vertebral de cães / The role of B-mode ultrasonography in the musculoskeletal anatomical evaluation of the cervical region of the dog spine

This study characterized the normal musculoskeletal anatomy of the cervical segment of the spine of dogs by means of B-mode ultrasonography. The objective was to establish the role of B-mode ultrasonography for the anatomical evaluation of the cervical spine segment in dogs, by comparing the ultrasonographic findings with images by computed tomography and magnetic resonance imaging. The ultrasound examination, in transverse and median sagittal sections, allowed to identify a part of the epaxial cervical musculature, the bone surface of the cervical vertebrae and parts of the spinal cord through restricted areas with natural acoustic windows, such as between the atlanto-occipital joint, axis and atlas, and axis and the third cervical vertebra. The images, on transverse and sagittal planes, by low-field magnetic resonance imaging, were superior for the anatomical identification of the structures, due to higher contrast between the different tissues in this modality. Computed tomography showed superiority for bone detailing when compared with ultrasonography. As for magnetic resonance imaging, in addition to the muscles and cervical vertebrae, it is possible to identify the cerebrospinal fluid and differentiate between the nucleus pulposus and annulus fibrosus of the intervertebral discs. Although not the scope of this study, with knowledge of the ultrasonographic anatomy of this region, it is believed that some lesions can be identified, yet in a limited manner, when compared with the information obtained mainly with magnetic resonance imaging. The ultrasound examination presented lower morphology diagnostic value compared with the other modalities.

Este estudo caracterizou a anatomia musculoesquelética normal do segmento cervical da coluna vertebral de cães por meio da ultrassonografia modo B. O objetivo do trabalho foi estabelecer o papel da ultrassonografia modo B na avaliação anatômica do segmento cervical de cães, comparando os achados ultrassonográficos com imagens por tomografia computadorizada e ressonância magnética. O exame ultrassonográfico, em cortes transversais e sagitais mediano, permitiu a identificação de parte da musculatura epaxial do pescoço, superfície óssea das vértebras cervicais e medula espinhal em áreas restritas com janelas acústicas naturais, como entre a articulação atlantoccipital, áxis e atlas, e áxis e terceira vértebra cervical. As imagens, em planos transversais e sagitais, por ressonância magnética de baixo campo foram superiores na identificação anatômica das estruturas, devido ao maior contraste entre os diferentes tecidos nessa modalidade. A tomografia computadorizada se mostrou superior no detalhamento ósseo da região quando comparada ao exame ultrassonográfico. Já a ressonância magnética, além dos músculos e vértebras cervicais, permitiu a identificação do líquido cefalorraquidiano, e diferenciar núcleo pulposo e anel fibroso dos discos intervertebrais. Embora não seja objetivo direto deste estudo, com o conhecimento da anatomia ultrassonográfica dessa região, acredita-se que algumas lesões possam ser identificadas, contudo de maneira restrita, quando comparadas as informações obtidas, principalmente na imagem por ressonância magnética. O exame ultrassonográfico apresentou valor morfológico inferior.

Study of abnormal foramen over the posterior arch of atlas vertebra / Estudio de forámen anormal sobre el arco posterior de la vértebra atlas

The aim of this research was to study the anatomical aspects of abnormal foramen over the posterior arch of atlas vertebra. Posterior arch of atlas vertebrae was studied for abnormal foramen in sixty-seven adult human atlas vertebrae and findings were noted. In 2.98 percent of cases, unilateral complete abnormal foramen on the posterior arch of atlas vertebra was found. Clinicians should be aware about this variation on posterior arch of atlas, which may produce headache, vertigo, vertebrobasilar insufficiency and shoulder pains.

El objetivo fue observar los aspectos anatómicos de un foramen anormal presente sobre el arco posterior del atlas. Se estudiaron 67 vértebras atlas de humanos adultos. En el 2,98 por ciento de los casos, se encontró un foramen unilateral anormal completo sobre el arco posterior del atlas. Los clínicos deben estar conscientes de esta variación anatómicaen , la cual podría producir cefalea, vértigo, insuficiencia vertebrobasilar y dolores en los hombros.

Variações anatômicas das facetas articulares do atlas / Variations of the articular facets of the atlas vertebrae

Contexto: A evolução do diagnóstico e a precisão das técnicas cirúrgicas da coluna cervical alta suscitam um conhecimento detalhado da anatomia e biomecânica da transição craniocervical para que se obtenham osteossínteses eficientes. Objetivo: Descrever as facetas articulares superiores e inferiores do atlas, por meio de estudo anat.

Morphometric analysis of the vertebral artery groove of the first cervical vertebra [atlas]

Variations in the morphometry of the vertebral artery groove which presents on the superior surface of surgery. This necessitates preoperative information about the vertebral artery groove. The present study aimed at assessment of the quantitative and qualitative anatomy of the vertebral artery groove of the atlas on 76 dry specimens with comprehensive analysis. This included the study of different linear parameters of the vertebral artery groove such as the distance from the midline, the thickness, the depth of the lateral and medial entrances, the depth of the transverse foramen and the width of the transverse foramen. In addition, the different forms of posterior and lateral bridging over the groove and their percentages were assessed. It was found that the minimum distance from the midline to the medial most edge of the vertebral artery groove in the inner and outer cortex of the posterior arch were 5 and 15 mm respectively. These data suggested that dissection of the posterior aspect of the posterior arch should remain 5 and 15 mm on the inner and outer cortex from the midline. It was also found that 44 [57.96%] of the examined specimens presented with a bridge formation which projects over the vertebral artery groove. From these 44 atlas presented with a bridge formation, 42 [55.26%] presented with partial bridges and 2 [2.63%] presented with complete posterior bridges. These bridges may interfere with the normal function of vertebral artery. It was concluded that before any craniovertebral intervention is performed, collection of the morphometric data of the vertebral artery groove must be carried out

Anatomia quantitativa do atlas / Quantitative anatomy of the athas

Objetivo: Descrever as medidas anatômicas gerais do atlas por meio do estudo anatômico e por tomografia computadorizada helicoidal em 30 amostras do atlas isolado de cadáveres adultos brasileiros.Métodos: Todos os parâmetros observados foram analisados estatisticamente para a obtenção da média, desvio-padrão, o valor mínimo e o máximo das estruturas do atlas. Resultados: A reprodutibilidade foi considerada boa para coeficiente de correlação > 0,80 e ruim para coeficiente < 0,80. Em 12 parâmetros,a reprodutibilidade foi considerada boa. Apenas nos parâmetros da distância interligamento transverso ena dimensão do espaço odontóide, a reprodutibilidade foi considerada ruim, apresentando coeficientes de correlação interclasse < 0,06. Conclusão: Os dados obtidos fornecem um melhor entendimento de geometria, dimensões e detalhes quantitativos de morfometria atlantal. Este estudo fornece as dimensões gerais do atlas e demonstra uma proporção constante dos arcos anterior e posterior. Os autores acreditam que essas observações possam facilitar os estudos biomecânicos, radiológicos e cirúrgicos da transição craniocervical.

Objective: To describe the general anatomical measures of atlas through the anatomical observation and by helicoidal computed tomography scanning of 30 samples of isolated Brazilian adult atlas. Methods:All the observed parameters were statistically analyzed. Results: The reproducibility was consideredgood for correlation coefficient > 0.80 which were achieved in twelve parameters measured. This wasnot true for measurements obtained for the intertransverse ligament distance and for the dimension ofthe odontoidal space. Conclusion: The data obtained will provide a better knowledge of the geometrydimensions of the atlas morphometry. The authors believe that those data may be contribute to the biomechanical and radiological studies as to the surgery of the craniocervical transition.

Quantitative anatomy of the lateral masses of the atlas and axis vertebrae.

The study was carried out to determine the safe site of entry and the appropriate trajectory of the screw implantation in the lateral masses of atlas (Cl) and axis (C2) during their fixation using the plate and screw technique. Fifty dried specimens of atlas and axis vertebrae were studied. Various dimensions of the lateral masses were quantitatively measured, laying stress on their relationship with the vertebral artery foramen. As the vertebral artery foramen was present entirely in the transverse process in all specimens, screw implantation in the facet of atlas was relatively safe. Best direction of screw implantation in the facet of atlas was observed to be 15 degrees medial to sagittal plane and 15 degrees superior to axial plane. It should be implanted from the middle of the posterior surface of facet. Vertebral artery foramen formed a deep groove in the undersurface of a majority of superior facets of axis. In 15% facets, vertebral artery foramen occupied the entire undersurface of the superior facet. Safe angle for screw implantation in the facet of axis through its pedicle was seen to be 40 degrees medial to sagittal plane and 20 degrees superior to axial plane. Safe site of screw entry in the axis was superior and medial third of the posterior surface of the pedicle. Quality of cancellous bone in the lateral masses in the proposed trajectory of screw in Cl and C2 was good, providing an excellent purchase of the screw.