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Sphenoid sinus

The sphenoid sinus is a paired, air-filled located within the body of the , situated deep within the behind the upper and near the center of the head. These sinuses are the most posteriorly positioned among the four pairs of (frontal, ethmoidal, sphenoidal, and maxillary), communicating with the via openings in the sphenoethmoidal recess superior and posterior to the superior . Anatomically, each sphenoid sinus consists of two hemisinuses separated by a thin, often asymmetric bony that may deviate from the midline, with the overall size and shape varying by , , and . Pneumatization, or air-filling, begins around 2–3 years and progresses slowly, reaching full development by , resulting in types such as conchal (minimal pneumatization), presellar, or sellar (extending under the pituitary ). The sinus walls exhibit ridges and depressions molded by adjacent structures, including the superiorly, optic nerves laterally, and internal carotid arteries posterolaterally. Blood supply arises primarily from pharyngeal branches of the maxillary arteries, while innervation comes from the posterior ethmoidal nerve (a branch of the ) and branches. The primary functions of the sphenoid sinuses include producing mucus to trap pathogens and debris, humidifying inhaled air, and contributing to voice resonance through sound wave modification. They also help reduce the weight of the skull and may absorb minor impacts to protect cranial contents, with mucus draining into the nasopharynx via the sphenoethmoidal recess. Lymphatic drainage occurs to retropharyngeal nodes. Due to their proximity to critical neurovascular structures, the sphenoid sinuses hold significant clinical importance, particularly in endoscopic transsphenoidal surgery for accessing the to treat adenomas or other lesions, where anatomical variants like dehiscences in the or must be carefully evaluated to avoid complications.

Anatomy

Location and gross structure

The sphenoid sinuses are a pair of paranasal air-filled cavities that occupy the central portion of the sphenoid bone's body. They are positioned posteriorly to the upper and inferior to the , forming part of the posterior cranial base. This central location places the sinuses deep within the , separated by a midline intersinus that is often asymmetrically positioned. Each sphenoid sinus is an irregular, pneumatized space with walls consisting of thin bony plates that surround vital neurovascular structures along the midline. In adults, the typical volume of each sinus ranges from 2 to 10 mL, varying based on the extent of pneumatization, which can extend anteriorly toward the ethmoid sinuses or posteriorly toward the clivus. The anterior wall of the sinus contributes to the posterior aspect of the , while the roof abuts the floor of the . The of each sphenoid sinus is located on the medial wall, near the superior aspect of the anterior face of the , and measures approximately 2 to 4 mm in diameter. This opening drains posteriorly into the sphenoethmoidal recess, a narrow passage above the superior that communicates with the superior meatus of the . The precise positioning of the , typically 1.5 cm superior to the posterior choanae, facilitates drainage but renders the sinus susceptible to obstruction due to its dependent orientation.

Anatomical relations

The sphenoid sinus is bordered by several vital neurovascular, endocrine, and osseous structures, underscoring the potential risks associated with its involvement in pathological processes or invasive procedures due to the proximity of these elements. The superior wall, or roof, of the sphenoid sinus forms the floor of the and lies directly adjacent to the , separated by a thin layer of that can vary in thickness. The lateral walls are closely related to the cavernous sinuses, which house the internal carotid arteries and III, IV, V, and VI; the optic nerves are often closely related to the superolateral aspect of the sinus, with protrusion reported in 13-50% of cases depending on the study and population, and bony dehiscence in approximately 1.5-6.5% of cases. The internal carotid arteries often bulge into the lateral walls, with protrusion reported in 20-40% of cases, and dehiscence (absence of overlying bone) in 0.4-8% of cases. The anterior wall abuts the posterior ethmoid air cells and features the sphenoid ostium, a key drainage pathway opening into the sphenoethmoidal recess. The posterior wall adjoins the basilar part of the and is in close proximity to the , with minimal intervening bone in some variants. Bony dehiscences or extreme thinning of the sinus walls, which expose adjacent neurovascular structures, occur with varying prevalence across populations and specific sites—ranging from 4-8% for the and to 10-30% for broader lateral wall exposures—heightening the risk of complications such as vascular injury or neural compression in inflammatory or expansive conditions.

Innervation and vascular supply

The mucosa of the sphenoid sinus receives sensory innervation primarily from the posterior ethmoidal nerve, a branch of the within the ophthalmic division (V1) of the , which supplies the posterior aspect of the sinus. Additionally, sensory fibers from the pharyngeal branch of the (V2 division of the ) innervate the anterolateral and inferior regions of the sphenoid sinus mucosa. Autonomic innervation to the sphenoid sinus involves both sympathetic and parasympathetic components. Sympathetic fibers arise from the and travel via the carotid plexus along arterial branches to regulate in the sinus vasculature and mucosa. Parasympathetic innervation originates from the , providing secretomotor fibers that stimulate glandular secretion and in the sinus lining. Arterial supply to the sphenoid sinus is derived from the posterior ethmoidal artery, a branch of the , which enters through the posterior ethmoidal foramina to vascularize the superior and posterior walls. The , arising from the , contributes additional supply via its posterior lateral nasal branches to the anterior and lateral aspects of the sinus. Venous drainage from the sphenoid sinus occurs through the ethmoidal veins, which communicate with the , ultimately emptying into the or the pterygoid venous plexus. This direct venous connection to the increases the risk of septic propagation from sphenoid sinus infections, potentially leading to . Lymphatic drainage of the sphenoid sinus follows afferent vessels that converge into the retropharyngeal lymph nodes, facilitating immune surveillance and fluid clearance from the sinus mucosa.

Anatomical variations

The sphenoid sinus exhibits considerable anatomical variation in its degree of pneumatization, which is classified into several types based on the extent of aeration relative to the sella turcica. The conchal type, characterized by minimal or no pneumatization anterior to the sella, is the least common, occurring in less than 10% of cases. The presellar type involves pneumatization that extends up to but not below the sella turcica, with a prevalence of approximately 25%. The most frequent configuration is the sellar type, seen in 60-70% of individuals, where pneumatization fully extends below the floor of the sella turcica, often creating a prominent sellar bulge visible on imaging. Asymmetry in sphenoid sinus pneumatization between the left and right sides is observed in 20-30% of cases, typically with one sinus demonstrating greater aeration than the other, which can complicate endoscopic access during surgical procedures. This bilateral discrepancy often correlates with deviations in the and may influence the proximity of adjacent neurovascular structures. A notable variant is the Onodi cell, also known as the sphenoethmoidal air cell, which represents a lateral extension of the posterior ethmoid air cells into the sphenoid sinus region, with a prevalence ranging from 10-25%. This variation is clinically significant due to its close association with the optic nerve and internal carotid artery, increasing the risk of injury during transsphenoidal surgery or sinus procedures. The intersinus septum of the sphenoid sinus frequently shows deviations, rendering it asymmetric and often inserting preferentially on one side of the sphenoid rather than remaining midline. Such deviations contribute to unequal sinus volumes and are present in the majority of cases, with complete midline septa being rare. These variations can alter the anatomical relations to surrounding structures, such as shifting the position of the protuberance. Prevalence of pneumatization types also differs by , with Asian populations showing a higher incidence of the presellar type compared to Caucasians, potentially due to genetic influences on sinus development. For instance, studies in cohorts report presellar pneumatization in up to 30-40% of cases, versus lower rates in groups.

Development and physiology

Embryonic and postnatal development

The sphenoid sinus originates embryonically through an evagination of the nasopharyngeal , forming a small pouch that invaginates into the posterior aspect of the cartilaginous nasal capsule and the of the around the 10th week of . This initial development occurs during the third month of fetal life, establishing the foundational epithelial lining derived from the upper ectoderm. By the third to fourth month of , pneumatization begins as a limited evagination, creating a microscopic cavity within the presphenoid that remains rudimentary and non-aerated throughout the remainder of fetal development. Postnatally, pneumatization of the sphenoid sinus initiates around 2–3 years of age, coinciding with the resorption of surrounding and of the . Rapid expansion occurs between ages 3 and 7, driven by the overall growth of the cranial base and expansion of the sphenoid body. This phase is followed by continued maturation, with full pneumatization typically achieved by ages 12 to 18, although some extension into adjacent structures may persist into early adulthood. During , and contribute to accelerated pneumatization, enhancing the final volumetric and structural development of the sinus. Postnatal pneumatization results in varying patterns, including conchal (minimal aeration), presellar (anterior to ), and sellar (extending under the pituitary fossa). Arrested development of the sphenoid sinus, resulting in , affects approximately 5% of adults. These variations in can lead to incomplete in adulthood, though most cases remain asymptomatic unless associated with other anatomical anomalies.

Functions and mucociliary clearance

The sphenoid sinus contributes to the primary functions of the , including the humidification and warming of inhaled air as it passes through the and sinuses, which helps prevent of the respiratory mucosa. Additionally, the air-filled cavities of the , including the sphenoid, help lighten the overall weight of the , facilitating cranial balance without compromising structural integrity. These functions support efficient respiration by conditioning air and reducing mechanical load on the head. In its immunological role, the sphenoid sinus mucosa produces a protective layer that traps inhaled pathogens, allergens, and particulates, preventing their deeper penetration into the . This defense is enhanced by the secretion of secretory (sIgA) from cells in the sinus , which binds to microbial antigens on the mucosal surface, neutralizing them and promoting their expulsion without triggering excessive . Goblet cells and submucosal glands in the sphenoid sinus contribute to production, generating approximately 1 L of daily across the to maintain this barrier. Mucociliary clearance in the sphenoid sinus relies on the pseudostratified ciliated lining its walls, where cilia beat in coordinated waves at a frequency of 10-20 Hz to propel the blanket toward the sinus . This movement transports trapped debris at a rate of 10-20 mm per minute within the sinus cavity, ensuring continuous renewal of the mucosal surface. The process is oriented toward the natural , facilitating into the sphenoethmoidal recess and ultimately the posterior nasopharynx. External factors such as sneezing provide bursts of airflow to augment clearance, while mucolytics can reduce to enhance ciliary when needed. Optimal ciliary function in the sphenoid sinus is maintained by a slightly alkaline environment of approximately 8.0 in the sinus secretions, which supports beat frequency and prevents ciliary . Sympathetic and parasympathetic innervation modulates glandular and vascular tone, indirectly aiding production and clearance.

Clinical significance

Infections and inflammatory conditions

The sphenoid sinus is susceptible to acute sinusitis, which often presents in isolation due to its posterior location and limited drainage pathways. This condition is uncommon compared to involvement of other , accounting for a small proportion of acute cases, and is typically caused by bacterial pathogens such as , , and , following an initial viral upper respiratory infection that impairs . Symptoms are often subtle and nonspecific, including retro-orbital or vertex , fever, and facial , which can mimic other neurological conditions and lead to delayed diagnosis. Chronic affecting the sphenoid sinus involves persistent inflammation lasting more than 12 weeks, frequently linked to ongoing obstruction of the sinus , formation, or allergic triggers, with bacterial overgrowth playing a role in many cases. It is relatively rare as an isolated entity but contributes to the broader prevalence of chronic , which affects approximately 4-10% of adults in developed countries, though sphenoid-specific involvement is less common and often underrecognized. Common manifestations include chronic headache (reported in over 80% of cases), , and occasional visual disturbances like , with nasal symptoms sometimes absent due to the sinus's inaccessibility. Fungal infections of the sphenoid sinus are particularly concerning in immunocompromised individuals, such as those with , AIDS, or undergoing , where they can progress rapidly. , caused by species, is a frequent culprit in chronic invasive forms, presenting with prolonged , , and potential orbital symptoms like proptosis or . , involving or species, is an acute, angioinvasive infection often seen in uncontrolled diabetics, characterized by necrotic tissue, facial pain, and swift invasion of adjacent structures such as the or , with high mortality if untreated. These infections represent about 15-20% of fungal cases overall, but sphenoid involvement heightens the risk of intracranial spread due to anatomical proximity. Diagnosis of sphenoid sinus infections and inflammatory conditions relies on a combination of clinical evaluation, , and limited endoscopic assessment. is the gold standard, revealing mucosal thickening, complete opacification, or air-fluid levels in the sphenoid sinus, with findings like bony suggesting complications; mucosal thickening greater than 4 mm is indicative of . is preferred for evaluating extension, such as orbital or intracranial involvement, providing superior contrast for inflammatory changes or abscesses. Nasal has limited utility for the sphenoid due to its deep position but can identify from the sphenoethmoidal recess or polyps obstructing drainage. Early suspicion is crucial, as isolated sphenoid disease often presents with in 64-98% of inflammatory cases. Treatment for sphenoid sinus infections varies by type and severity. Acute bacterial is managed with supportive care (, analgesics, nasal saline ) and, if symptoms persist beyond 10 days or worsen, oral antibiotics such as amoxicillin-clavulanate for 5-7 days. Chronic rhinosinusitis typically involves intranasal corticosteroids, saline irrigations, and antihistamines for allergic components; long-term or oral steroids may be used, with endoscopic considered for refractory obstruction or complications. Fungal infections require urgent surgical to remove necrotic tissue, combined with systemic antifungals— for and plus for —often with reversal of underlying . Complications from sphenoid sinus infections arise from their proximity to critical structures, including the and , facilitating spread via venous drainage or direct erosion. , a septic complication, manifests with severe , periorbital , ophthalmoplegia, and cranial deficits (most commonly involving the sixth ), with modern mortality rates reduced to 8-13% through prompt antibiotics and anticoagulation, though historical rates exceeded 80%. is another severe , presenting with fever, nuchal rigidity, and altered mental status, often secondary to bacterial or fungal extension, and carries significant morbidity if not addressed rapidly. Other risks include and intracranial abscesses, emphasizing the need for vigilant monitoring in confirmed cases.

Surgical approaches and procedures

The transsphenoidal approach to the sphenoid sinus has evolved significantly since its inception in the early 20th century. In 1907, Hermann Schloffer performed the first transsphenoidal surgery via a sublabial route for a pituitary adenoma, marking the beginning of direct access through the nasal cavity and sphenoid sinus. This microscopic technique, refined by Oskar Hirsch in 1910 through a transseptal endonasal method, became the standard until the 1990s, when fully endoscopic approaches were introduced, offering improved visualization and reduced morbidity. Pioneered by Jankowski and colleagues in 1992, endoscopic transsphenoidal surgery utilized rigid endoscopes for bimanual dissection, transitioning from microscope-assisted to purely endoscopic techniques by the mid-1990s. The endoscopic transsphenoidal approach provides minimally invasive to the sphenoid sinus and primarily through the , avoiding external incisions. It is the preferred method for resecting pituitary adenomas and other sphenoid sinus pathologies, achieving gross total resection in approximately 70-80% of cases and endocrinologic remission in 70-92% of hormone-secreting tumors. The procedure typically involves three stages: nasal, sphenoid, and sellar. In the nasal stage, the endoscope is inserted through one or both nostrils, often with a partial posterior septectomy to widen if a bilateral approach is needed. The sphenoid stage entails a sphenoidotomy by incising the posterior sphenoid wall, followed by exposure of the sellar floor in the sellar stage, where the dura is opened for tumor resection using microinstruments. Image-guided navigation systems enhance precision during endoscopic transsphenoidal , particularly in cases of anatomical variations such as Onodi cells or asymmetric pneumatization that may alter surgical landmarks. These systems fuse preoperative and MRI images to provide 3D tracking of instruments relative to the patient's , reducing the risk of complications by up to 50% in complex variants. Common complications of transsphenoidal surgery include (CSF) leak, occurring in 2-5% of cases, often managed with lumbar drainage or nasal packing. injury is rare, with an incidence of less than 1%, but can lead to severe hemorrhage or if not promptly controlled intraoperatively. Vision loss from injury is infrequent (<1%), attributed to the close proximity of the and nerves to the surgical field. In pediatric patients, transsphenoidal surgery is generally delayed until age 7 or later due to incomplete sphenoid sinus pneumatization before this time, which complicates access and increases risks. By age 6-7, the sphenoid sinus reaches 90% pneumatization, allowing safer endoscopic approaches similar to adults, though with adaptations for smaller nasal .

Neoplasms and other pathologies

Benign neoplasms of the are uncommon but can include mucoceles, which arise from obstruction of the leading to accumulation of and subsequent expansion of the cavity. These lesions are encapsulated, epithelium-lined masses that cause bony erosion and may mimic more aggressive pathologies due to their locally destructive nature. Mucoceles account for approximately 1-2% of all paranasal mucoceles, with sphenoid involvement being particularly rare and often presenting with headaches, visual disturbances, or cranial nerve deficits. Meningiomas may also invade the sphenoid , typically originating from adjacent structures such as the sphenoid wing or , and are histologically benign despite potential bone invasion and hyperostosis. Primary ectopic meningiomas within the sphenoid are exceptionally rare, arising from arachnoid cell rests, and can extend into the or , complicating diagnosis and management. Treatment for benign neoplasms like mucoceles and meningiomas generally involves endoscopic surgical or resection to relieve symptoms and prevent complications, with observation for cases. Malignant neoplasms in the sphenoid sinus are even rarer, representing a small fraction of paranasal sinus cancers, which overall constitute less than 1% of head and neck malignancies. is the most common histologic type among paranasal sinus tumors but infrequently originates in the sphenoid sinus, often presenting with nonspecific symptoms like or due to its deep location. , a neuroectodermal tumor typically arising from the , can rarely involve the sphenoid sinus as an atypical or advanced presentation, exhibiting aggressive local invasion. The 5-year relative survival rate for paranasal sinus cancers, including those affecting the sphenoid, varies by stage but is approximately 40-60% overall, with localized disease faring better at around 85% and distant reducing it to about 43%. Management of malignant neoplasms requires multidisciplinary approaches, including endoscopic or open surgical resection, adjuvant , and (e.g., cisplatin-based regimens), tailored to and stage per NCCN guidelines. Congenital anomalies impacting the sphenoid sinus include encephaloceles, where brain tissue herniates through dehiscences in the sinus floor or walls, often as part of basal encephaloceles associated with neural tube closure defects. These are rare, comprising a subset of congenital encephaloceles that may lead to cerebrospinal fluid (CSF) leaks, endocrine dysfunction, or visual impairment if involving the pituitary or optic pathways. Choanal atresia, a congenital obstruction of the posterior nasal choanae involving bony or membranous tissue near the sphenoid, can indirectly affect sphenoid sinus development but does not typically originate within the sinus itself. Treatment for congenital anomalies like encephaloceles involves surgical repair, often endoscopic, to close defects and prevent CSF leaks, while choanal atresia is corrected via transnasal endoscopic dilation or resection in neonates. Traumatic pathologies of the sphenoid sinus often result from midfacial or skull base fractures due to high-impact injuries, leading to complications such as in 2-20% of skull base fracture cases. These fractures may disrupt the thin bony walls, allowing dural tears and leakage of CSF into the sinus and , with risks of if untreated. Repair typically involves endoscopic approaches with vascularized flaps to seal the defect and prevent recurrent leaks. Diagnosis of sphenoid sinus neoplasms and pathologies relies on advanced , with () preferred for delineating involvement, tumor extent, and relation to critical structures like the optic nerves or . () with 18F-FDG is valuable for assessing malignancy, metabolic activity, and staging, offering high sensitivity for detecting metastases. Definitive requires , often performed endoscopically, to confirm and guide , as imaging alone cannot reliably distinguish benign from malignant lesions.

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