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Advances and Technical Standards in... 2024Paragangliomas are the most common tumors at jugular foramen and pose a great surgical challenge. Careful clinical history and physical examination must be performed to...
Paragangliomas are the most common tumors at jugular foramen and pose a great surgical challenge. Careful clinical history and physical examination must be performed to adequately evaluate neurological deficits and its chronologic evolution, also to delineate an overview of the patient performance status. Complete imaging evaluation including MRI and CT scans should be performed, and angiography is a must to depict tumor blood supply and sigmoid sinus/internal jugular vein patency. Screening for multifocal paragangliomas is advisable, with a whole-body imaging. Laboratory investigation of endocrine function of the tumor is necessary, and adrenergic tumors may be associated with synchronous lesions. Preoperative prepare with alpha-blockage is advisable in norepinephrine/epinephrine-secreting tumors; however, it is not advisable in exclusively dopamine-secreting neoplasms. Best surgical candidates are young otherwise healthy patients with smaller lesions; however, treatment should be individualized each case. Variations of infratemporal fossa approach are employed depending on extensions of the mass. Regarding facial nerve management, we avoid to expose or reroute it if there is preoperative function preservation and prefer to work around facial canal in way of a fallopian bridge technique. If there is preoperative facial nerve compromise, the mastoid segment of the nerve is exposed, and it may be grafted if invaded or just decompressed. A key point is to preserve the anteromedial wall of internal jugular vein if there is preoperative preservation of lower cranial nerves. Careful multilayer closure is essential to avoid at most cerebrospinal fluid leakage. Residual tumors may be reoperated if growing and presenting mass effect or be candidate for adjuvant stereotactic radiosurgery.
Topics: Humans; Jugular Foramina; Neurosurgical Procedures; Paraganglioma; Skull Base Neoplasms
PubMed: 38700686
DOI: 10.1007/978-3-031-42398-7_10 -
Otolaryngologic Clinics of North America Apr 2015This article discusses the epidemiology, presentation, and diagnostic work-up of nonparaganglioma jugular foramen tumors, and the management options and predicted... (Review)
Review
This article discusses the epidemiology, presentation, and diagnostic work-up of nonparaganglioma jugular foramen tumors, and the management options and predicted outcomes. Paragangliomas are the most common jugular foramen tumors, but other nonparagangliomas are important to consider in a differential for jugular foramen tumors. This article specifically focuses on jugular foramen schwannomas, meningiomas, metastatic disease, and regional pathologies that may extend to the jugular foramen, such as endolymphatic sac tumors, chordomas, and chondrosarcomas. Operative approaches to these tumors are also reviewed.
Topics: Chondrosarcoma; Chordoma; Combined Modality Therapy; Diagnosis, Differential; Glomus Jugulare Tumor; Humans; Meningioma; Neurilemmoma; Prognosis; Skull Base Neoplasms; Temporal Bone; Treatment Outcome
PubMed: 25659512
DOI: 10.1016/j.otc.2014.12.008 -
Brain Sciences Feb 2024(1) Background: Jugular foramen tumors are complex lesions due to their relationship with critical neurovascular structures within the skull base. It is necessary to... (Review)
Review
(1) Background: Jugular foramen tumors are complex lesions due to their relationship with critical neurovascular structures within the skull base. It is necessary to have a deep knowledge of the anatomy of the jugular foramen and its surroundings to understand each type of tumor growth pattern and how it is related to the surrounding neurovascular structures. This scope aims to provide a guide with the primary surgical approaches to the jugular foramen and familiarize the neurosurgeons with the anatomy of the region. (2) Methods and (3) Results: A comprehensive description of the surgical approaches to jugular foramen tumors is summarized and representative cases for each tumor type is showcased. (4) Conclusions: Each case should be carefully assessed to find the most suitable approach for the patient, allowing the surgeon to remove the tumor with minimal neurovascular damage. The combined transmastoid retro- and infralabyrinthine transjugular transcondylar transtubercular high cervical approach can be performed in a stepwise fashion for the resection of complex jugular foramen tumors.
PubMed: 38391756
DOI: 10.3390/brainsci14020182 -
World Neurosurgery Apr 2020At present, no consensus has been reached on the compartmental subdivision of the jugular foramen (JF), which can complicate surgical planning in this area and hinder... (Review)
Review
BACKGROUND
At present, no consensus has been reached on the compartmental subdivision of the jugular foramen (JF), which can complicate surgical planning in this area and hinder understanding of foraminal tumor growth patterns. The extradural neural axis compartment (EDNAC) might aid in producing a standardized model in the future. In the present review, we have summarized the models of JF compartmentalization and analyzed how sound they are anatomically.
METHODS
The present narrative review identified the key studies and supporting reports that had discussed, referenced, or first presented models of JF compartmentalization.
RESULTS
Three intraforaminal components serve as the basis for JF compartmentalization: the fibro-osseous bridge, neurovascular contents, and EDNAC. A total of 4 models have been proposed to date. These include the 2-part (bipartite) models by Hovelacque (1934) and Shapiro (1972) and the 3-part (tripartite) subdivisions by Katsuta (1997) and Bernard (2018).
CONCLUSIONS
The bipartite model has been criticized as being oversimplified and lacking surgical validity. However, support for this compartmentation has persisted despite the increasing popularity of the tripartite model. The 3-part subdivision of Bernard can be considered the most anatomically faithful model to date owing to the consideration of the dura and EDNAC. It is important that future studies consider the entire anatomy of the JF, which may generate an anatomically accurate and surgically applicable compartmental model.
Topics: Accessory Nerve; Cranial Sinuses; Dura Mater; Glossopharyngeal Nerve; Humans; Jugular Foramina; Jugular Veins; Models, Anatomic; Occipital Bone; Petrous Bone; Vagus Nerve
PubMed: 31926358
DOI: 10.1016/j.wneu.2019.12.178 -
BioMedicine 2023Differentiating jugular foramen from hypoglossal canal in computed tomography (CT) scan is vital for correct diagnosis of posterior fossa pathologies; however, it has...
BACKGROUND
Differentiating jugular foramen from hypoglossal canal in computed tomography (CT) scan is vital for correct diagnosis of posterior fossa pathologies; however, it has been shown that the ability for differentiating these skull base elements is limited. The purpose of this study was to produce a simple algorithm for differentiating the jugular foramen from the hypoglossal canal in axial CT scan on two levels (top level where bony carotid canal is evident and lower level where bony carotid canal is not evident).
METHODS
Data derived from axial CT scan of 250 patients (500 sides) were used for producing algorithm. At top level petro-occipital fissure utilized for recognizing occipital condyle in which hypoglossal canal is located; and, at lower level the distance between the posterior border of the anatomic element (jugular foramen or hypoglossal canal) and the tangent to the anterior bony part is used for producing algorithm.
RESULTS
The mean age of patients was 38.1 ± 19 years. The petro-occipital fissure can be used in all patients for differentiating hypoglossal canal. At lower level the distance between the anterior tangent and the posterior border of the element was significantly lower for hypoglossal canal (P value < 0.001). The distance more than 3.5 mm with sensitivity 83.8% and specificity 97.1% differentiate jugular foramen from hypoglossal canal.
CONCLUSION
Simple algorithms based on quantitative morphologic features of the jugular foramen and hypoglossal canal can be used with high sensitivity and specificity to distinguish these elements.
PubMed: 37168727
DOI: 10.37796/2211-8039.1393 -
Otology & Neurotology : Official... Mar 2018
PubMed: 29342045
DOI: 10.1097/MAO.0000000000001709 -
Brazilian Journal of Otorhinolaryngology 2020The anatomical complexity of the jugular foramen makes surgical procedures in this region delicate and difficult. Due to the advances in surgical techniques, approaches...
INTRODUCTION
The anatomical complexity of the jugular foramen makes surgical procedures in this region delicate and difficult. Due to the advances in surgical techniques, approaches to the jugular foramen became more frequent, requiring improvement of the knowledge of this region anatomy.
OBJECTIVE
To study the anatomy of the jugular foramen, internal jugular vein and glossopharyngeal, vagus and accessory nerves, and to identify the anatomical relationships among these structures in the jugular foramen region and lateral-pharyngeal space.
METHODS
A total of 60 sides of 30 non-embalmed cadavers were examined few hours after death. The diameters of the jugular foramen and its anatomical relationships were analyzed.
RESULTS
The diameters of the jugular foramen and internal jugular vein were greater on the right side in most studied specimens. The inferior petrosal sinus ended in the internal jugular vein up to 40mm below the jugular foramen; in 5% of cases. The glossopharyngeal nerve exhibited an intimate anatomical relationship with the styloglossus muscle after exiting the skull, and the vagal nerve had a similar relationship with the hypoglossal nerve. The accessory nerve passed around the internal jugular vein via its anterior wall in 71.7% of cadavers.
CONCLUSION
Anatomical variations were found in the dimensions of the jugular foramen and the internal jugular vein, which were larger in size on the right side of most studied bodies; variations also occurred in the trajectory and anatomical relationships of the nerves. The petrosal sinus can join the internal jugular vein below the foramen.
Topics: Accessory Nerve; Adult; Aged; Aged, 80 and over; Anatomic Variation; Dissection; Female; Glossopharyngeal Nerve; Humans; Jugular Foramina; Jugular Veins; Male; Middle Aged; Neck; Vagus Nerve
PubMed: 30348503
DOI: 10.1016/j.bjorl.2018.09.004 -
Frontiers in Surgery 2020The jugular foramen remains one of the most complex regions of the human body. Approaching lesions in this area requires extensive anatomical knowledge and experience,... (Review)
Review
The jugular foramen remains one of the most complex regions of the human body. Approaching lesions in this area requires extensive anatomical knowledge and experience, due to the many critical neurovascular structures passing through or around the jugular foramen. Here, we present a concise review of the microsurgical anatomy of the jugular foramen in relation to the craniocervical approach.
PubMed: 32500078
DOI: 10.3389/fsurg.2020.00027 -
Neuroimaging Clinics of North America Aug 2009Jugular foramen, albeit complex, is essentially a bony conduit transmitting nerves and vessels from the posterior cranial fossa to the nasopharyngeal carotid space. In... (Review)
Review
Jugular foramen, albeit complex, is essentially a bony conduit transmitting nerves and vessels from the posterior cranial fossa to the nasopharyngeal carotid space. In addition to its intrinsic pathologic conditions, a variety of lesions can arise from the contiguous surrounding structures and invade the foramen. A thorough understanding of the anatomy of this region is fundamental for diagnostic evaluation and assessment of its disease extent. Vascular variants and imaging artifacts are potential pitfalls, which should be recognized and avoided.
Topics: Bone Diseases, Infectious; Humans; Magnetic Resonance Imaging; Osteitis; Skull Base; Skull Neoplasms; Tomography, X-Ray Computed
PubMed: 19733318
DOI: 10.1016/j.nic.2009.06.007