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Pterygoid fossa

The pterygoid fossa is a V-shaped depression located between the diverging medial and lateral plates of the pterygoid process, which projects downward from the body of the sphenoid bone in the base of the skull.^[1] This fossa forms part of the infratemporal fossa and serves primarily as an origin site for key muscles involved in mastication and palatal function.^[2] The pterygoid process itself arises from the junction of the greater wings and body of the sphenoid, with its two thin plates separated posteriorly to create the fossa.^[2] The medial plate of the process, which bounds the fossa medially, provides attachment for the tensor veli palatini muscle along its lateral surface, as well as origin for the inferior head of the lateral pterygoid muscle on its lateral aspect.^[1]^[2] The lateral plate, bounding the fossa laterally, offers origin points for the medial pterygoid muscle (also known as pterygoideus internus) along its medial surface and within the fossa.^[2] These muscular attachments enable movements such as mandibular protrusion, lateral excursion, and elevation during chewing.^[2] In anatomical context, the pterygoid fossa lies posterior to the maxilla and inferior to the infratemporal surface of the greater wing of the sphenoid, contributing to the complex neurovascular pathways of the deep face.^[2] Its proximity to structures like the mandibular nerve (CN V3) and maxillary artery underscores its role in the infratemporal region's connectivity, though direct clinical access is limited without surgical intervention.^[2]

Anatomy

Location

The pterygoid fossa is situated in the posterior aspect of the sphenoid bone, specifically within the pterygoid process, which projects inferiorly from the junction between the body and the greater wings of the sphenoid.^[3] This bilateral structure forms a deep depression between the medial and lateral pterygoid plates of the process, contributing to the overall architecture of the skull base.^[4] As a key component of the infratemporal fossa, the pterygoid fossa lies inferior to the temporal fossa and lateral to the nasal cavity, facilitating the passage of neurovascular elements in the deep face.^[5] Its orientation is characterized by a V-shaped configuration, with the depression facing posteriorly and inferiorly, and the apex directed anteriorly toward the skull base. Developmentally, the pterygoid fossa emerges during the ossification of the sphenoid bone, beginning around the 8th to 10th week of gestation in the third fetal month, as cartilaginous primordia undergo endochondral ossification.^[6] This process continues postnatally, with the structure maturing alongside the pterygoid plates and surrounding cranial elements into adolescence.^[7]

Structure and boundaries

The pterygoid fossa is a V-shaped cleft formed by the divergence of the medial and lateral pterygoid plates extending from the pterygoid process of the sphenoid bone. This space arises posteriorly where the plates separate, creating a wedge-shaped depression that accommodates key structures within the infratemporal region. The medial plate is narrower and longer than the lateral plate, contributing to the fossa's asymmetric architecture.^[7]^[8] The boundaries of the pterygoid fossa are defined by the adjacent surfaces of the pterygoid plates. Medially, it is delimited by the lateral surface of the medial pterygoid plate, while laterally it is bounded by the medial surface of the lateral pterygoid plate. Anteriorly, the fossa is closed by the point of junction between the plates and the body of the sphenoid bone, forming the base of the pterygoid process. Posteriorly, the fossa remains open, communicating directly with the infratemporal space. Superiorly, it is limited by the line of attachment where the pterygoid process meets the greater wing of the sphenoid.^[8]^[9] In adults, the pterygoid fossa measures approximately 1-2 cm in depth, reflecting the anteroposterior dimensions of the pterygoid plates, which typically range from 13 to 18 mm along their superior, middle, and inferior segments. The medial and lateral plates diverge at an angle of about 45-60 degrees, with studies reporting a mean divergence of 58 degrees. The inferior border of the medial pterygoid plate terminates in the hook-like pterygoid hamulus, a small bony projection that aids in ligamentous attachments. Superior to this on the medial plate lies the scaphoid fossa, a shallow oval depression serving as an additional origin point for nearby soft tissues.^[10]^[8]

The pterygoid fossa primarily serves as the origin site for the medial pterygoid muscle, a key muscle of mastication. This muscle arises from the entire lateral surface of the medial pterygoid plate and the medial surface of the superior portion of the lateral pterygoid plate, filling much of the fossa's space with its fleshy fibers.^[4]^[11] An additional muscular attachment within the fossa is provided by the tensor veli palatini muscle, which originates partially from the inferior aspect of the pterygoid process, including the adjacent scaphoid fossa at the base of the medial plate. This slender muscle emerges from the confines between the two pterygoid plates, contributing to the soft tissue occupancy in the lower region of the fossa.^[12] The remaining space in the pterygoid fossa is occupied by loose areolar connective tissue and adipose tissue, which provide cushioning and structural support around the muscular origins. Small vascular branches, derived from the maxillary artery—such as twigs supplying the pterygoid muscles—traverse or lie adjacent to this connective matrix without forming major conduits within the fossa itself.^[13]^[11] No major nerves are housed directly within the pterygoid fossa; however, branches of the mandibular nerve (cranial nerve V3), including the nerve to the medial pterygoid, approach closely from the adjacent infratemporal fossa to innervate the muscles originating there.^[14]^[15]

Function

Muscular attachments and actions

The medial pterygoid muscle originates from the medial surface of the lateral pterygoid plate within the pterygoid fossa, as well as the pyramidal process of the palatine bone and the tuberosity of the maxilla.^[16] This muscle functions primarily to elevate and protrude the mandible, while also facilitating lateral grinding movements essential for mastication.^[16] It is innervated by the medial pterygoid nerve, a branch of the mandibular division of the trigeminal nerve (CN V3).^[16] The tensor veli palatini muscle arises from the scaphoid fossa at the base of the medial pterygoid plate, the spine of the sphenoid bone, and the cartilage of the Eustachian tube.^[17] It tenses the soft palate to prevent food and liquid from entering the nasopharynx during swallowing and contributes to opening the auditory (Eustachian) tube for middle ear ventilation.^[17] Innervation is provided by the nerve to the medial pterygoid, also a branch of CN V3.^[17] Together, these muscles play integrated roles in the temporomandibular joint (TMJ) complex, where the medial pterygoid aids in balanced jaw closure by counteracting the actions of the temporalis and masseter muscles, ensuring coordinated elevation and stabilization during chewing.^[18] The medial pterygoid extends into the infratemporal fossa, enhancing its biomechanical leverage in mandibular movements.^[19] Both the medial pterygoid and tensor veli palatini muscles derive embryologically from the mesoderm of the first pharyngeal arch, differentiating around the seventh week of development under the influence of CN V3 innervation.^[20]

Relations to adjacent spaces

The pterygoid fossa, situated between the medial and lateral pterygoid plates of the sphenoid bone's pterygoid process, opens posteriorly into the infratemporal fossa, facilitating the extension of the medial and lateral pterygoid muscles into this larger space and allowing branches of the maxillary artery to supply the masticatory apparatus.^[15]^[2] This direct communication underscores the fossa's role in regional muscular and vascular dynamics without forming a distinct barrier.^[3] Superiorly, the pterygoid fossa relates to the middle cranial fossa through the proximity of the pterygoid process to the greater wing of the sphenoid, where the foramen ovale transmits the mandibular division of the trigeminal nerve (CN V3) and the foramen spinosum conveys the middle meningeal artery, establishing indirect neural and vascular linkages to intracranial structures.^[7]^[2] Medially, the thin medial pterygoid plate forms a boundary with the nasal cavity, contributing to the posterior nasal aperture, and adjoins the pterygopalatine fossa, separating these spaces while permitting limited influence on nasopharyngeal airflow and neurovascular distribution.^[3]^[7] Inferiorly, the pterygoid fossa extends toward the pterygomandibular space, where the originating medial pterygoid muscle integrates with mandibular structures, a relation pertinent to the diffusion of local anesthetics during dental interventions.^[2] Nearby, the maxillary artery and mandibular nerve (CN V3) traverse the adjacent infratemporal fossa to innervate and vascularize the masticatory muscles, maintaining proximity to the pterygoid fossa without penetrating its confines.^[15]^[2]

Clinical significance

Surgical considerations

Surgical access to the pterygoid fossa frequently utilizes the infratemporal fossa as the primary entry point for procedures involving the sphenoid bone, with endoscopic transnasal approaches providing minimally invasive access to lesions extending into the fossa while preserving critical neurovascular structures such as cranial nerves V and VII.^[13] In temporomandibular joint (TMJ) surgery, such as orthognathic procedures involving Le Fort I osteotomy, the pterygoid fossa's proximity to the lateral pterygoid muscle attachments demands precise dissection techniques to prevent iatrogenic injury, including controlled osteotome placement at the pterygomaxillary junction to avoid high-level fractures that could propagate to the skull base.^[21] Careful management of the pterygoid plates—through fracture, removal, or grinding—ensures skeletal stability and minimizes postoperative TMJ dysfunction during condylar neck repairs.^[21] Anesthetic considerations for procedures near the pterygoid fossa emphasize safe inferior alveolar nerve block administration, where needle insertion is positioned along an imaginary line from the pterygomandibular raphe to the coronoid notch, at a depth of 19-25 mm, to target the mandibular foramen while avoiding posterior over-insertion that could penetrate the fossa or parotid region.^[22] Preoperative imaging with high-resolution computed tomography (CT) and magnetic resonance imaging (MRI) is crucial for delineating the pterygoid fossa boundaries and assessing lesion extent in minimally invasive skull base surgeries, enabling precise planning of endoscopic transpterygoid corridors and reducing operative risks.^[23]

Pathological involvement

The pterygoid fossa serves as a critical pathway for the spread of odontogenic infections originating from the oral cavity, particularly those involving the posterior teeth, which can extend into the infratemporal fossa via the pterygomaxillary fissure or pterygoid venous plexus.^[24] These infections may further propagate superiorly to the cranial fossae or laterally to the cavernous sinus through valveless venous communications, potentially resulting in life-threatening cavernous sinus thrombosis characterized by severe headache, ophthalmoplegia, and proptosis.^[25] Early recognition is essential, as delayed intervention can lead to intracranial complications with high morbidity.^[26] Trauma to the pterygoid fossa commonly occurs in midfacial fractures, such as Le Fort II and III patterns, where the fracture lines traverse the pterygoid plates of the sphenoid bone, disrupting the structural integrity of the fossa.^[27] In Le Fort II fractures, the pyramidal detachment involves the nasal bridge and infraorbital rims extending to the pterygoid plates, often causing posterior displacement of the maxilla and resultant malocclusion due to altered occlusal relationships.^[28] Le Fort III fractures, involving craniofacial disjunction, separate the entire midface from the skull base along the pterygoid processes, leading to massive facial edema, ecchymosis, and hematoma formation within the fossa that may compromise airway patency.^[28] These injuries frequently require multidisciplinary management to restore alignment and prevent long-term functional deficits.^[27] Neoplastic involvement of the pterygoid fossa is uncommon as a primary site but occurs through direct invasion from adjacent structures, such as the pterygopalatine or infratemporal fossae.^[29] Nasopharyngeal carcinoma, for instance, can erode the scaphoid or pterygoid plates, extending into the fossa and masticator space, which portends a poorer prognosis due to advanced T-stage classification and reduced locoregional control.^[30] Other malignancies, including squamous cell carcinomas of the oropharynx, may infiltrate the lateral pterygoid muscle attachments within the fossa, contributing to diagnostic challenges on imaging.^[31] Such invasions often manifest with progressive symptoms, influencing treatment planning toward combined modality approaches.^[30] Congenital anomalies affecting the pterygoid fossa are rare but include variations in the pterygoid plates, such as hyperplastic or asymmetrically developed processes observed in conditions like congenital infiltrating lipomatosis of the face.^[32] These structural deviations can alter the insertion sites of the medial and lateral pterygoid muscles, potentially predisposing to dysfunction, including limited mandibular excursion or compensatory temporomandibular joint (TMJ) strain.^[32] A key diagnostic indicator of pathological involvement in the pterygoid fossa is trismus, defined as restricted mouth opening to less than 35 mm, often signaling inflammation or mass effect on the pterygoid muscles from abscesses or tumors.^[33] In odontogenic abscesses extending to the infratemporal fossa, trismus arises from spasm or edema of the medial pterygoid muscle, accompanied by ipsilateral facial swelling and pain.^[34] Similarly, neoplastic infiltration of the pterygoid plates or muscles in advanced head and neck cancers produces persistent trismus, serving as a prognostic marker for deep tissue involvement and guiding imaging modalities like MRI for confirmation.^[33] This sign underscores the need for prompt multidisciplinary assessment to differentiate infectious from malignant etiologies.^[34]

References

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Pterygoid fossa - e-Anatomy - IMAIOS
The two plates of pterygoid process diverge behind and enclose between them a V-shaped fossa, the pterygoid fossa, which contains the Pterygoideus internus ...
[2]
Anatomy, Sphenoid Bone - StatPearls - NCBI Bookshelf
... pterygoid fossa. The medial division of the pterygoid process, called the medial plate, serves as a site of attachment to the superior pharyngeal ...
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The pterygoid process descends inferiorly from the point of junction between the sphenoid body and the greater wing. It consists of two parts: Medial pterygoid ...
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Pterygoid Fossa (Left) | Complete Anatomy - Elsevier
Explore the anatomy of pterygoid fossae, key features of the sphenoid bone ... On its corresponding side, each pterygoid fossa: —is formed by the ...
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Infratemporal fossa: structure, contents and boundaries | Kenhub
Jun 25, 2014 · The medial pterygoid and lateral pterygoid muscles are located fully within the fossa itself and occupy most of the space in the infratemporal ...
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Aug 20, 2025 · By 8–10 weeks of gestation, the cartilaginous primordia of the SB begin to undergo endochondral ossification. The GWs and lateral pterygoid ...
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The pterygoid processes are extensions of the basal surface of the sphenoid body. Each process consists of a medial pterygoid plate and a lateral pterygoid ...
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Sphenoid Bone - Hithera
The two plates diverge behind, and the wedge-shaped pterygoid fossa between them contains the medial pterygoid and tensor palati (tensor veli palatini) muscles.
[9]
Pterygoid processes | Radiology Reference Article - Radiopaedia.org
Sep 28, 2016 · The spaces separated the medial and lateral plate are pterygoid fissure inferiorly and pterygoid fossa posterosuperiorly. The lateral aspect ...
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Dec 18, 2024 · Divergence between the lateral and medial pterygoid plates was 58.64 ± 12.62° on the right and 57.99 ± 12.23° on the left. The distance from the ...
[11]
Medial pterygoid muscle - Kenhub
Medial pterygoid muscle is located in the infratemporal fossa lying deep to masseter and temporalis muscles and medial to lateral pterygoid muscle. The outer ...
[12]
Tensor veli palatini muscle - Kenhub
Tensor veli palatini is a slender, triangular muscle situated in the pterygoid fossa of skull. It belongs in the group of the soft palate and pharyngeal ...
[13]
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In 1969, Terez et al used a craniofacial approach for tumors invading the pterygoid fossa but residual tumor could not be avoided. In 1976, House and ...
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The tensor veli palatini receives supply from the ascending palatine and accessory meningeal arteries. The tensor tympani muscle receives its arterial supply ...Missing: contents | Show results with:contents
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The infratemporal fossa acts as a pathway for neurovascular structures passing to and from the cranial cavity, pterygopalatine fossa and temporal fossa. It also ...
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Anatomy, Head and Neck, Medial Pterygoid Muscle - NCBI - NIH
The medial pterygoid muscle, a major elevator of the jaw is a square-shaped masticatory muscle, located on the medial aspect of the lower jaw bilaterally.
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Anatomy, Head and Neck, Tensor Veli Palatini Muscle - NCBI - NIH
Jan 2, 2023 · The tensor veli palatini originates from the inferior surface of the cartilage of the Eustachian tube, the scaphoid fossa, and the sphenoid bone's spine.
[18]
Anatomy, Head and Neck, Temporomandibular Joint - NCBI - NIH
Four muscles make direct contact with the TMJ. These muscles include the masseter, temporalis, and the medial and lateral pterygoids. The masseter, including ...
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The infratemporal fossa is an irregularly shaped cavity in the face that is touted as being one of the most anatomically complex regions in the head and neck.
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Anatomy, Head and Neck, Mastication Muscles - StatPearls - NCBI
The medial pterygoid muscle receives innervation from the medial pterygoid nerve, a division of the mandibular nerve. ... The origin, insertion, and action of the ...
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Pterygoid fossa neoplasms in children are rare. Management of these ... Surgical approach depends upon tumor extension and ability to obtain adequate exposure for
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Oct 10, 2025 · All three methods of pterygoid plate management—fracture, removal, and grinding—are all effective methods that provide skeletal stability and ...Missing: TMJ | Show results with:TMJ
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The insertion point is on an imaginary line drawn from the deepest part of the pterygomandibular raphe to the coronoid notch.[1] The location of the insertion ...
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May 25, 2022 · ... pterygoid fossa: an osseous depression between the two pterygoid ... Bolger W.E. Endoscopic transpterygoid approach to the lateral sphenoid recess ...<|control11|><|separator|>
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IFA has potentially fatal complications. The infection might spread through the pterygoid plexus to the cavernous sinus or through the valveless ophthalmic ...
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Dec 11, 2024 · Le Fort fractures are classified patterns of midfacial fractures involving the pterygoid plates of the sphenoid bone.
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Le Fort III fractures involve the nasal bones, medial, inferior, and lateral orbital walls, pterygoid processes, and zygomatic arches, which results in complete ...
[30]
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The disease processes can be developmental, due to remodeling related to malocclusion, trauma or other secondary developmental abnormalities[3]. Bifid condyle.
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May 27, 2022 · Abscesses of the ITF often occur due to odontogenic spread and present with trismus and facial pain.