ABSTRACT
PURPOSE: The complex relations of the paraclinoid area make the surgical management of the pathology of this region a challenge. The anterior clinoid process (ACP) is an anatomical landmark that hinders the visualization and manipulation of the surrounding neurovascular structures, hence in certain surgical interventions might be necessary to remove it. We reviewed the anatomical relationships that involve the paraclinoid area and detailed the step-by-step techniques of intra and extradural clinoidectomy in cadaveric specimens. MATERIALS AND METHODS: A literature review was done describing the most relevant anatomic relationships regarding the anterior clinoid process. Extradural and intradural clinoidectomy techniques were performed in six dry bone heads and in ten previously injected cadaverous specimens with colored latex (Sanan et al. in Neurosurgery 45:1267-1274, 1999) and each step of the procedure was recorded using photographic material. Finally, an analysis of the anatomical exposure achieved in each of the techniques used was performed. RESULTS: The main advantage of the intradural clinoidectomy technique is the direct visualization of the neurovascular structures adjacent to the ACP when drilling, at the same time, opening the Sylvian fissure will allow the direct visualization of the ACP variants. The main advantage offered by the extradural technique is that the dura protects adjacent eloquent structures while drilling. Among the disadvantages, it is noted that the same dura that would protect the underlying structures also prevents the direct visualization of these neurovascular structures adjacent to the ACP. CONCLUSION: We reviewed the anatomy of the paraclinoid area and made a step-by-step description of the technique of the anterior clinoidectomy in its intra- and extradural variants in cadaveric preparations for a better understanding.
Subject(s)
Anatomic Landmarks , Dura Mater/surgery , Neurosurgical Procedures/methods , Sphenoid Bone/surgery , Cadaver , Dura Mater/anatomy & histology , Humans , Sphenoid Bone/blood supply , Sphenoid Bone/innervationABSTRACT
INTRODUCTION: The pterygopalatine fossa (PPF) is a narrow space located between the posterior wall of the antrum and the pterygoid plates. Surgical access to the PPF is difficult because of its protected position and its complex neurovascular anatomy. Endonasal approaches using rod lens endoscopes, however, provide better visualization of this area and are associated with less morbidity than external approaches. Our aim was to develop a simple anatomical model using cadaveric specimens injected with intravascular colored silicone to demonstrate the endoscopic anatomy of the PPF. This model could be used for surgical instruction of the transpterygoid approach. METHODS: We dissected six PPF in three cadaveric specimens prepared with intravascular injection of colored material using two different injection techniques. An endoscopic endonasal approach, including a wide nasoantral window and removal of the posterior antrum wall, provided access to the PPF. RESULTS: We produced our best anatomical model injecting colored silicone via the common carotid artery. We found that, using an endoscopic approach, a retrograde dissection of the sphenopalatine artery helped to identify the internal maxillary artery (IMA) and its branches. Neural structures were identified deeper to the vascular elements. Notable anatomical landmarks for the endoscopic surgeon are the vidian nerve and its canal that leads to the petrous portion of the internal carotid artery (ICA), and the foramen rotundum, and V2 that leads to Meckel's cave in the middle cranial fossa. These two nerves, vidian and V2, are separated by a pyramidal shaped bone and its apex marks the ICA. CONCLUSION: Our anatomical model provides the means to learn the endoscopic anatomy of the PPF and may be used for the simulation of surgical techniques. An endoscopic endonasal approach provides adequate exposure to all anatomical structures within the PPF. These structures may be used as landmarks to identify and control deeper neurovascular structures. The significance is that an anatomical model facilitates learning the surgical anatomy and the acquisition of surgical skills. A dissection superficial to the vascular structures preserves the neural elements. These nerves and their bony foramina, such as the vidian nerve and V2, are critical anatomical landmarks to identify and control the ICA at the skull base.
Subject(s)
Endoscopy/education , Maxillary Sinus/anatomy & histology , Otorhinolaryngologic Surgical Procedures/education , Palate/anatomy & histology , Sphenoid Bone/anatomy & histology , Teaching Materials , Cadaver , Carotid Artery, Internal/anatomy & histology , Coloring Agents , Dissection , Humans , Mandibular Nerve/anatomy & histology , Maxillary Artery/anatomy & histology , Maxillary Nerve/anatomy & histology , Maxillary Sinus/blood supply , Maxillary Sinus/innervation , Models, Anatomic , Nose/blood supply , Orbit/innervation , Palate/blood supply , Palate/innervation , Petrous Bone/blood supply , Petrous Bone/innervation , Skull Base/anatomy & histology , Sphenoid Bone/blood supply , Sphenoid Bone/innervationABSTRACT
OBJECTIVE: To describe the anatomy of the sphenopalatine foramen (SPF) region and possible anatomical variations. STUDY DESIGN: Prospective study accomplished from September, 2006, to January, 2007. METHODS: The sphenopalatine foramen (SPF) of 61 cadavers were carefully dissected. Presence of the ethmoidal crest, location of sphenopalatine and accessory foramens, and the number of arterial branches emerging through foramens were observed. Data were analyzed in relation to gender, racial group, and symmetry of the cadaver. Prediction of the presence of accessory foramen was evaluated. RESULTS: Mixed race cadavers prevailed in 122 nasal fossae dissected (75% males). Ethmoidal crest was present in 100% of the cadavers, being anterior to the SPF in 98.4% of the cases. The most frequent SPF location was the transition of the middle and superior meatus (86.9%). Mean distance from the SPF and accessory foramen to anterior nasal spine was 6.6 cm and 6.7 cm, respectively. Accessory foramen was present in 9.83% of the cases. A single arterial stem emerged through the SPF in 67.2% of the cases, and 100% through accessory foramens. The prevalence analyses showed no differences that were statistically significant (P > 0.05) between gender and racial group. The symmetry analyses showed a strong conformity (P < 0.01) between nasal fossae in relation to the SPF location. There was no statistically significant conformity between nasal fossae and accessory foramen (P = 0.53). None of the variables of interest presents any statistically significant (P > 0.05) association with the presence of the accessory foramen. CONCLUSIONS: There are anatomical variations in the lateral nose wall that should be considered for successful endoscopic surgical treatment of severe epistaxis.
Subject(s)
Endoscopy/methods , Epistaxis/surgery , Palate/pathology , Sphenoid Bone/pathology , Arteries/pathology , Cadaver , Dissection , Ethmoid Bone/pathology , Female , Humans , Male , Nasal Bone/pathology , Palate/blood supply , Palate/surgery , Prospective Studies , Racial Groups , Sex Factors , Sphenoid Bone/blood supply , Sphenoid Bone/surgeryABSTRACT
La rinoseptoplastía es un procedimiento quirúrgico realizado comúnmente en la práctica otorrinolaringológica, pero lleva el riesgo de epistaxis masiva por el procedimiento que alcanza hasta un 2-3 por ciento de pacientes. Por otro lado, aproximadamente un 7 por ciento de los aneurismas verdaderos son originados en las ramas vasculares de la arteria carótida externa, son potencialmente capaces de causar un sangrado nasal severo y de difícial control aún sin necesidad de trauma. Se presenta el caso de la ruptura de un aneurisma verdadero de la porción terminal de la arteria esfeno palatina, durante una rinoseptoplastía en un paciente femenino de 21 años de edad. Se analiza el riesgo de existencia de aneurisma de la arteria esfeno palatina en sujetos candidatos a cirugía nasal