GUILHERME CARVALHAL RIBAS

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LIM/02 - Laboratório de Anatomia Médico-Cirúrgica, Hospital das Clínicas, Faculdade de Medicina

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  • article 3 Citação(ões) na Scopus
    Understanding Anatomy of the Petrous Pyramid-A New Compartmental Approach
    (2019) TAWFIK-HELIKA, Mamdouh; MERTENS, Patrick; RIBAS, Guilherme; CUSIMANO, Michael D.; CATALA, Martin; KIROLLOS, Ramez; JACQUESSON, Timothee
    BACKGROUND: Learning surgical anatomy of the petrous pyramid can be a challenge, especially in the beginning of the training process. Providing an easier, holistic approach can be of help to everyone with interest in learning and teaching skull base anatomy. We present the complex organization of petrous pyramid anatomy using a new compartmental approach that is simple to understand and remember. METHODS: The surfaces of the petrous pyramid of two temporal bones were examined; and the contents of the petrous pyramid of 8 temporal bones were exposed through progressive drilling of the superior surface. RESULTS: The petrous pyramid is made up of a bony container, and its contents were grouped into 4 compartments (mucosal, cutaneous, neural, and vascular). Two reference lines were identified (mucosal and external-internal auditory canal lines) intersecting at the level of the middle ear. The localization of contents relative to these reference lines was then described, and 2 methods of segmentation (the X method and the V method) were then proposed. This description was then used to describe middle ear relationships, facial nerve anatomy, and air cell distribution. CONCLUSIONS: This new compartmental approach allows a comprehensive understanding of the distribution of petrous pyramid contents. Dividing it into anatomic compartments, and then navigating this mental map along specific reference points, lines, spaces, and segments, could create a useful tool to teach or learn its complex tridimensional anatomy.
  • article 36 Citação(ões) na Scopus
    Microsurgical Anatomy of the Posterior Cerebral Artery in Three-Dimensional Images
    (2011) PARRAGA, Richard Gonzalo; RIBAS, Guilherme Carvalhal; ANDRADE, Sergio Eduardo Gomez Llata; OLIVEIRA, Evandro de
    OBJECTIVE: To describe the microsurgical anatomy, branches, and anatomic relationships of the posterior cerebral artery (PCA) represented in three-dimensional images. METHODS: Seventy hemispheres of 35 brain specimens were studied. They were previously injected with red silicone and fixed in 10% formalin for at least 40 days. Four of the studied specimens were frozen at -10 degrees to -15 degrees C for 14 days, and additional dissection was done with the Klingler's fiber dissection technique at x6 to x40 magnification. Each segment of the artery was measured and photographed to obtain three-dimensional stereoscopic images. RESULTS: The PCA origin was in the interpeduncular cistern at the pontomesencephalic junction level in 23 specimens (65.7%). The PCA was divided into four segments: P1 extends from the PCA origin to its junction with the posterior communicating artery with an average length of 7.7 mm; P2 was divided into an anterior and posterior segment. The P2A segment begins at the posterior communicating artery and ends at the most lateral aspect of the cerebral peduncle, with an average length of 23.6 mm, and the P2P segment extends from the most lateral aspect of the cerebral peduncle to the posterior edge of the lateral surface of the midbrain, with an average length of 16.4 mm; P3 extends from the posterior edge of the lateral surface of the midbrain and ends at the origin of the parieto-occipital sulcus along the calcarine fissure, with an average length of 19.8 mm; and the P4 segment corresponds to the parts of the PCA that run along or inside both the parieto-occipital sulcus and the distal part of the calcarine fissure. CONCLUSIONS: To standardize the neurosurgical practice and knowledge, surgical anatomic classifications should be used uniformly and further modified according to the neurosurgical experience gathered. The PCA classification proposed intends to correlate its anatomic segments with their required microneurosurgical approaches.
  • article 1 Citação(ões) na Scopus
    Occipital lobe RESPONSE
    (2013) ALVES, Raphael Vicente; RIBAS, Guilherme Carvalhal
  • article 30 Citação(ões) na Scopus
    The pterional craniotomy: tips and tricks
    (2012) CHADDAD-NETO, Feres; CAMPOS FILHO, Jose Maria; DORIA-NETTO, Hugo Leonardo; FARIA, Mario H.; RIBAS, Guilherme Carvalhal; OLIVEIRA, Evandro
    This review intended to describe in a didactic and practical manner the frontotemporosphenoidal craniotomy, which is usually known as pterional craniotomy and constitute the cranial approach mostly utilized in the modern neurosurgery. This is, then, basically a descriptive text, divided according to the main stages involved in this procedure, and describes with details how the authors currently perform this craniotomy.
  • article 17 Citação(ões) na Scopus
    Three-dimensional digital projection in neurosurgical education: technical note
    (2015) MARTINS, Carolina; RIBAS, Eduardo Carvalhal; RHOTON JR., Albert L.; RIBAS, Guilherme Carvalhal
    Three-dimensional images have become an important tool in teaching surgical anatomy, and its didactic power is enhanced when combined with 3D surgical images and videos. This paper describes the method used by the last author (G.C.R.) since 2002 to project 3D anatomical and surgical images using a computer source. Projecting 3D images requires the superposition of 2 similar but slightly different images of the same object. The set of images, one mimicking the view of the left eye and the other mimicking the view of the right eye, constitute the stereoscopic pair and can be processed using anaglyphic or horizontal-vertical polarization of light for individual use or presentation to larger audiences. Classically, 3D projection could be obtained by using a double set of slides, projected through 2 slide projectors, each of them equipped with complementary filters, shooting over a medium that keeps light polarized (a silver screen) and having the audience wear appropriate glasses. More recently, a digital method of 3D projection has been perfected. In this method, a personal computer is used as the source of the images, which are arranged in a Microsoft Power Point presentation. A beam splitter device is used to connect the computer source to 2 digital, portable projectors. Filters, a silver screen, and glasses are used, similar to the classic method. Among other advantages, this method brings flexibility to 3D presentations by allowing the combination of 3D anatomical and surgical still images and videos. It eliminates the need for using film and film developing, lowering the costs of the process. In using small, powerful digital projectors, this method substitutes for the previous technology, without incurring a loss of quality, and enhances portability.
  • article 42 Citação(ões) na Scopus
    Supracerebellar transtentorial approach-resection of the tentorium instead of an opening-to provide broad exposure of the mediobasal temporal lobe: anatomical aspects and surgical applications Clinical article
    (2012) OLIVEIRA, Jean G. de; PARRAGA, Richard Gonzalo; CHADDAD-NETO, Feres; RIBAS, Guilherme Carvalhal; OLIVEIRA, Evandro P. L. de
    Object. The aim of this study was to describe the surgical anatomy of the mediobasal aspect of the temporal lobe and the supracerebellar transtentorial (SCTT) approach performed not with an opening, but with the resection of the tentorium, as an alternative route for the neurosurgical management of vascular and tumoral lesions arising from this region. Methods. Cadaveric specimens were used to illustrate the surgical anatomy of the mediobasal region of the temporal lobe. Demographic aspects, characteristics of lesions, clinical presentation, surgical results, follow-up findings, and outcomes were retrospectively reviewed for patients referred to receive the SCTT approach with tentorial resection. Results. Ten patients (83%) were female and 2 (17%) were male. Their ages ranged from 6 to 59 years (mean 34.5 +/- 15.8 years). All lesions (3 posterior cerebral artery aneurysms, 3 arteriovenous malformations, 3 cavernous malformations, and 3 tumors) were completely excluded or resected. After a mean follow-up period of 143 months (range 10-240 months), the mean postoperative Glasgow Outcome Scale score was 4.9. Conclusions. Knowledge of the surgical anatomy provides improvement for microsurgical approaches. The evolution from a small opening to a resection of the tentorium absolutely changed the exposure of the mediobasal aspect of the temporal lobe. The SCTT approach with tentorial resection is an excellent alternative route to the posterior part of mediobasal aspect of the temporal lobe, and it was enough to achieve the best neurosurgical management of tumoral and vascular lesions located in this area. (http://thejns.org/doi/abs/10.3171/2011.12.JNS111256)
  • article 5 Citação(ões) na Scopus
    Alternative cost-effective method to record 3D intra-operative images: A technical note
    (2014) BARONE, Damiano Giuseppe; BAN, Vin Shen; KIROLLOS, Ramez W.; TRIVEDI, Rikin A.; BULTERS, Diederik O.; RIBAS, Guilherme Carvalhal; SANTARIUS, Thomas
    The educational value of stereoscopic imaging in neurosurgical training has increasingly been appreciated and its use increased during the last decade. We describe a technique that we developed to acquire and reproduce intra-operative stereoscopic images.
  • article 14 Citação(ões) na Scopus
    Surgical Approaches to the Temporal Horn: An Anatomic Analysis of White Matter Tract Interruption
    (2017) KADRI, Paulo A. S.; OLIVEIRA, Jean G. de; KRAYENBUHL, Niklaus; TURE, Ugur; OLIVEIRA, Evandro P. L. de; AL-MEFTY, Ossama; RIBAS, Guilherme C.
    BACKGROUND: Surgical access to the temporal horn is necessary to treat tumors and vascular lesions, but is used mainly in patients with mediobasal temporal epilepsy. The surgical approaches to this cavity fall into 3 primary categories: lateral, inferior, and transsylvian. The current neurosurgical literature has underestimated the interruption of involved fiber bundles and the correlated clinical manifestations. OBJECTIVE: To delineate the interruption of fiber bundles during the different approaches to the temporal horn. METHODS: We simulated the lateral (trans-middle temporal gyrus), inferior (transparahippocampal gyrus), and transsylvian approaches in 20 previously frozen, formalin-fixed human brains (40 hemispheres). Fiber dissection was then done along the lateral and inferior aspects under the operating microscope. Each stage of dissection and its respective fiber tract interruption were defined. RESULTS: The lateral (trans-middle temporal gyrus) approach interrupted ""U"" fibers, the superior longitudinal fasciculus (inferior arm), occipitofrontal fasciculus (ventral segment), uncinate fasciculus (dorsolateral segment), anterior commissure (posterior segment), temporopontine, inferior thalamic peduncle (posterior fibers), posterior thalamic peduncle (anterior portion), and tapetum fibers. The inferior (transparahippocampal gyrus) approach interrupted ""U"" fibers, the cingulum (inferior arm), and fimbria, and transected the hippocampal formation. The transsylvian approach interrupted ""U"" fibers (anterobasal region of the extreme capsule), the uncinate fasciculus (ventromedial segment), and anterior commissure (anterior segment), and transected the anterosuperior aspect of the amygdala. CONCLUSION: White matter dissection improves our knowledge of the complex anatomy surrounding the temporal horn. Identifying the fiber bundles at risk during each surgical approach adds important information for choosing the appropriate surgical strategy.
  • bookPart
    Acidente vascular cerebral maligno da artéria cerebral média
    (2015) RIBAS, Guilherme Carvalhal; FUNCHAL, Bruno; RIBAS, Eduardo Santamaria Carvalhal; GENTIL, André Félix
  • article 42 Citação(ões) na Scopus
    Study of fetal and postnatal morphological development of the brain sulci Laboratory investigation
    (2013) NISHIKUNI, Koshiro; RIBAS, Guilherme Carvalhal
    Object. The surface of the developing fetal brain undergoes significant morphological changes during fetal growth. The purpose of this study was to evaluate the morphological development of the brain sulci from the fetal to the early postnatal period. Methods. Two hundred fourteen brain hemispheres from 107 human brain specimens were examined to evaluate the timing of sulcal formation, from its appearance to its complete development. These brains were obtained from cadavers ranging in age from 12 weeks of gestation to 8 months of postnatal life. Results. The order of appearance of the cerebral sulci, and the number and percentages of specimens found in this study were as follows: longitudinal cerebral fissure at 12 weeks (10/10, 100%); callosal sulcus at 12 weeks (10/10, 100%); hippocampal sulcus at 15 weeks (7/10, 70%); lateral sulcus at 17 weeks (20/22, 90.9%); circular insular sulcus at 17 weeks (18/22, 81.8%); olfactory sulcus at 17 weeks (18/22, 81.8%); calcarine sulcus at 17 weeks (14/22, 63.6%); parietooccipital sulcus at 17 weeks (11/22, 50%); cingulate sulcus at 19 weeks (16/20, 80%); central sulcus at 21 weeks (22/38, 57.9%); orbital sulcus at 22 weeks (9/16, 56.2%); lunate sulcus at 24 +/- 2 weeks (12/16, 75%); collateral sulcus at 24 +/- 2 weeks (8/16, 50%); superior frontal sulcus at 25 +/- 2 weeks (5/6, 83.3%); rhinal sulcus at 25 +/- 2 weeks (3/6, 50%); precentral sulcus at 26 +/- 3 weeks (2/4, 50%); postcentral sulcus at 26 +/- 3 weeks (2/4, 50%); superior temporal sulcus at 26 +/- 3 weeks (2/4, 50%); central insular sulcus at 29 +/- 2 weeks (4/4, 100%); intraparietal sulcus at 29 +/- 2 weeks (2/4, 50%); paraolfactory sulcus at 29 +/- 2 weeks (2/4, 50%); inferior frontal sulcus at 30 +/- 3 weeks (2/4, 50%); transverse occipital sulcus at 30 +/- 3 weeks (2/4, 50%); occipitotemporal sulcus at 30 +/- 3 weeks (2/4, 50%); marginal branch of the cingulate sulcus at 30 +/- 3 weeks (2/4, 50%); paracentral sulcus at 30 +/- 3 weeks (2/4, 50%); subparietal sulcus at 30 +/- 3 weeks (2/4, 50%); inferior temporal sulcus at 31 +/- 3 weeks (3/6, 50%); transverse temporal sulcus at 33 +/- 3 weeks (6/8, 75%); and secondary sulcus at 38 +/- 3 weeks (2/4, 50%). Conclusions. The brain is subjected to considerable morphological changes throughout gestation. During fetal brain development the cortex begins to fold in, thereby increasing the cortical surface. All primary sulci are formed during fetal life. The appearance of each sulcus follows a characteristic timing pattern, which may be used as one of the reliable guides pertinent to gestational age and normal fetal development. (http://thejns.org/doi/abs/10.3171/2012.9.PEDS12122)