Danielle de Lara

Combined transoral robotic surgery and endoscopic endonasal approach for the resection of extensive malignancies of the skull base.

Oncologic resection of the clivus, nasopharynx, craniovertebral junction, and infratemporal fossa is a challenging endeavor because of their complex and protected anatomy. Our goals were to design a cadaveric model and identify advantages and limitations of combining the transoral robotic surgery (TORS) and endoscopic endonasal approach (EEA) techniques.

Endonasal Endoscopic Approaches to the Paramedian Skull Base

OBJECTIVE To describe the technical and anatomic nuances related to endoscopic endonasal approaches (EEAs) to the paramedian skull base. METHODS Surgical indications, limitations, and technical aspects pertaining to EEAs designed to access areas oriented in the coronal plane are systematically reviewed with special attention to caveats, pitfalls, and common complications and how to avoid them. Case examples are presented. RESULTS The paramedian skull base may be divided into anterior (corresponding to the orbit and its contents), middle (corresponding to the middle cranial, pterygopalatine, and infratemporal fossae), and posterior (includes the craniovertebral junction lateral to the occipital condyles and the jugular foramen) segments. EEAs to the anterior segment offer access to the intraconal orbital space and the optic canal. A transpterygoid corridor typically precedes EEAs to the middle and posterior paramedian approaches. EEAs to the middle segment provide wide exposure of the petrous apex, middle cranial fossa (including cavernous sinus and Meckel cave), and infratemporal and pterygopalatine fossae. Finally, EEAs to the posterior segment access the hypoglossal canal, occipital condyle, and jugular foramen. CONCLUSIONS Approaches to the paramedian skull base are the most challenging and complex of all endoscopic endonasal techniques. Because of their technical complexity, it is recommended that surgeons master endoscopic endonasal anatomic approaches oriented to median structures (sagittal plane) before approaching paramedian (coronal plane) pathologies.

Applications of transoral, transcervical, transnasal, and transpalatal corridors for Robotic surgery of the skull base

INTRODUCTION Endoscopic endonasal approaches (EEAs) provide an alternative surgical corridor to treat benign and malignant lesions of the sinonasal tract and skull base. According to the extent of the lesion and the surgical team experience, an endoscopic endonasal skull base approach can provide exposure of vital neurovascular structures and enable the surgeon to resect the lesion safely and completely. Similarly, robotic-assisted surgery facilitates the performance of highly complex surgeries in areas of the upper aerodigestive tract that are relatively difficult to access or to manipulate instruments, such as the oral cavity, nasopharynx, oropharynx or hypopharynx, supraglottis, glottis, parapharyngeal space and infratemporal fossa (ITF). Operative time and time of hospitalization are superior to those associated with open approaches and are associated with less morbidity. Various feasibility studies have suggested that robotic-assisted surgery may be applied to skull base surgery with similar results. In general, skull base surgery is difficult and complex due to its anatomical intricacies, deep-seated nature, and the presence of adjacent vital structures. In addition, the relative rarity of indications increases the difficulty for a surgeon to become familiar with the detailed anatomy and the various pathologies affecting the region. This study was undertaken to better define and understand the potential use and limitations of current robotic approaches to the skull base.

Extracapsular dissection technique with the Cotton Swab for pituitary adenomas through an endoscopic endonasal approach – How I do it

BackgroundPituitary adenomas are often encased in a histological pseudocapsule that separates the tumor from the normal gland. Transsphenoidal adenoma resection may be performed either in an intra- or an extracapsular technique. The extracapsular fashion offers anatomical orientation, removal of a security margin, reduced risk of opening the arachnoid layer with subsequent CSF flow and identification of invasion.MethodThe sella turcica is approached through the classic endoscopic endonasal route. After opening the dura of the sellar floor, the interface between the compressed tissue and the normal gland is used as a surgical plane for dissection. Performing slight counter-traction with the suction tube, the cleavage plane is identified and stepwise unsealed in an atraumatic fashion with the cotton swab. Once the cleavage plane is partially loosened, repeated twisting movements are performed with the cotton swab to enucleate the pseudocapsule and adenoma.ConclusionBoth micro- and macroadenomas presenting a pseudocapsule may be resected in the extracapsular dissection technique with the cotton swab. Operating in an endoscopic three- to four hands technique enables to visualize the anatomic planes and perform twisting movements with the cotton swab separating pseudocapsule and tumor in order to enucleate the adenoma.

Surgical management of craniopharyngioma with third ventricle involvement

Craniopharyngiomas are notorious for their ability to invade the hypothalamus and third ventricle. Although several transcranial approaches have been proposed for their treatment, the endonasal route provides direct access to the tumor with no need for cerebral retraction or manipulation of the optic apparatus. After the lesion is debulked, the unique angle of approach achieved with this technique enables the surgeon to perform an extra-capsular dissection and visualize the walls of the third ventricle, the foramina of Monro, and the anterior comissure. Moreover, the enhanced magnification and lighting afforded by the endoscope facilitate safe tumor removal, particularly in areas where there is loss of clear lesion delimitation and greater infiltration of the surrounding structures. Herein we present the case of a 68-year-old female patient with a 3-month history of visual deterioration accompanied by worsening headaches. Investigation with magnetic resonance imaging revealed a heterogeneous mass in the suprasellar region, extending into the third ventricle and displacing the pituitary gland and stalk inferiorly. Hormonal profile was within expected range for her age. An endonasal, fully endoscopic, transplanum transtuberculum approach was performed. Gross-total removal was achieved and pathology confirmed the diagnosis of craniopharyngioma. Postoperative recovery was marked by transient diabetes insipidus. Closure was achieved with a pedicled nasoseptal flap; despite exploration of the third ventricle, there was no cerebrospinal fluid leakage. Pituitary function was preserved. Visual function has fully recovered and the patient has been uneventfully followed since surgery. The video can be found here: http://youtu.be/it5mpofZl0Q. (http://thejns.org/doi/abs/10.3171/2013.V1.FOCUS12330)

Volumetric analysis of endoscopic and traditional surgical approaches to the infratemporal fossa

In an effort to decrease morbidity, skull base surgeons have explored less invasive approaches to the infratemporal fossa, including endonasal‐endoscopy, minicraniotomies, and transantral endoscopic and microscopic corridors. This project presents quantitative data that assesses the practicality, and volumetric exposure afforded by endonasal and open approaches to the infratemporal fossa.

Endoscopic Approaches to the Skull Base: The Coronal Plane

Background: Endoscopic endonasal skull base surgery has become an important part of the arsenal of contemporary skull base surgery. The coronal or paramedian plane is defined as the