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Canine fossa

The canine fossa is a prominent bony depression located on the anterior surface of the , the upper jawbone, situated lateral to the canine eminence—a vertical ridge corresponding to the root of the maxillary —and inferior to the . This feature is larger and deeper than the nearby incisive fossa and forms a key part of the facial surface of the . Anatomically, the canine fossa extends vertically from the infraorbital margin superiorly to the inferiorly, and horizontally from the zygomaticomaxillary suture laterally to the anterior nasal aperture medially. Its dimensions vary among individuals, with the average vertical height measuring approximately 39.2 mm, though this can decrease due to following . The fossa's smooth, concave surface lies adjacent to the posteriorly, contributing to the overall contour of the midface. Functionally, the canine fossa serves as the primary origin point for the levator anguli oris muscle (also known as the caninus muscle), a facial expression muscle that elevates the corner of the mouth during smiling or grimacing. This attachment underscores its role in mimetic musculature, with the muscle fibers inserting into the modiolus at the angle of the mouth. In clinical contexts, the canine fossa holds surgical significance, particularly as an access point for procedures involving the , such as the Caldwell-Luc antrotomy, where an incision here allows entry into the sinus cavity for drainage or debridement. Variations in its depth and boundaries must be considered to avoid complications like injury to the , which passes through the nearby .

Anatomy

Location and Description

The canine fossa is a bony depression on the anterior surface of the body of the , positioned lateral to the incisive fossa and closely associated with the canine eminence, a vertical overlying the root of the . This structure is situated inferior to the , extending superiorly to the infraorbital margin and inferiorly toward the , lateral to the pyriform aperture and medial to the of the . It forms part of the midfacial , contributing to the overall contour of the upper jaw. Morphologically, the canine fossa appears as a shallow concavity or hollow of variable extent on the facial surface of the , larger and deeper than the neighboring incisive fossa, which provides a subtle for accommodation and serves as a anatomical in the midface region. Its form typically reflects the underlying bony architecture influenced by the expansion posteriorly. In adult humans, the canine fossa measures approximately 0.8-0.9 in average diameter, most commonly presenting as rounded, though oval shapes occur in about 30% of cases. Depth varies regionally, averaging 3-5 mm in the area. Sexual dimorphism is evident in transverse dimensions at this level, where males show wider measurements (mean 43.42 ± 2.58 mm) than females (mean 40.36 ± 2.32 mm). Population-specific variations, such as shape and size differences, have been documented in groups like modern , highlighting minor ethnic influences on midfacial morphology.

Boundaries and Relations

The canine fossa is a triangular depression on the anterior surface of the , bounded superiorly by the infraorbital margin and , which marks the inferior aspect of the orbital rim. Inferiorly, it is delimited by the of the and the canine eminence, which overlies the root of the . Medially, the fossa is limited by the incisive fossa and the lateral margin of the nasal notch (pyriform aperture), from which it is separated by a vertical . Laterally, it extends to the of the . In terms of spatial relations, the canine fossa lies immediately anterior to the anterior wall of the maxillary sinus, forming part of the thin bony covering over this structure. Medially, it is in close proximity to the nasal cavity via the pyriform aperture, contributing to the lateral nasal wall. Superiorly, it relates to the orbital rim through the infraorbital foramen, which transmits neurovascular structures from the orbit. On imaging, the canine fossa appears as a distinct depression on the anterior maxilla, readily visible on coronal computed tomography (CT) scans and lateral radiographs, aiding in identification relative to the infraorbital foramen and canine eminence.

Function

Muscle Attachments

The canine fossa, a depression on the anterior surface of the maxilla inferior to the infraorbital foramen, primarily serves as the origin for the levator anguli oris muscle. This muscle arises from the central floor of the fossa, with its fibers extending inferiorly in a short, nearly vertical course before inserting into the modiolus at the angle of the mouth. The attachment point in the fossa provides a broad, stable bony base that facilitates the muscle's role in elevating the corner of the mouth, contributing to expressions such as smiling. While the is the dominant muscle associated with the canine fossa, nearby structures exhibit secondary relations that influence its function. For instance, the fossa lies adjacent to the origins of the levator labii superioris and levator labii superioris alaeque nasi muscles, which arise from the orbital margin and frontal process of the , respectively, creating a compartmentalized arrangement in the midface. These relations define the canine space, a potential bounded inferiorly by the levator anguli oris and superiorly by the levator labii superioris, though no direct minor attachments from these adjacent muscles to the fossa itself have been consistently described.

Structural Role

The canine fossa, a prominent concavity on the anterior surface of the , plays a key role in midface buttressing by lightening the overall weight of the bone while preserving its mechanical strength. This depression, integrated into the canine pillar structure—which encompasses the canine eminence, frontal of the , and related arches—facilitates the dissipation of masticatory forces during biting, particularly at the . Finite element analysis reveals that the fossa experiences high von Mises (up to 11.4 MPa) under load but primarily in (e.g., -0.234 MPa maximum principal ), allowing efficient stress distribution to adjacent denser regions like the frontal without compromising the 's . Its lower cortical thickness (approximately 1.7 mm) and density (1.69 g/cm³) further reduce mass while adapting to a low-strain environment, protecting nearby sutures such as the maxillozygomatic junction. In terms of facial , the canine fossa contributes to the subtle contouring of the by forming a natural hollow lateral to the canine eminence, which influences the prominence of the upper lip and the transition to the . This anatomical feature helps define the midface's smooth, curved profile, with variations in its depth affecting perceived youthfulness and facial harmony; for instance, deepening with age can accentuate cheek hollows and alter draping. The canine fossa integrates seamlessly with the broader maxillary body, forming a critical component of the anterior facial wall between the incisive fossa medially and the laterally. This positioning enhances the maxilla's role in the midfacial system, where it bridges alveolar and orbital regions to withstand vertical occlusal loads transmitted to the skull base.

Clinical Significance

Surgical Applications

The canine fossa puncture, also known as canine fossa trephination, is a surgical procedure used to access the maxillary sinus for irrigation, sampling, or debridement in cases of severe disease. Indications primarily include chronic maxillary sinusitis unresponsive to standard endoscopic approaches, unilateral lesions such as antrochoanal polyps or odontogenic sinusitis, and conditions requiring direct antral access like allergic fungal sinusitis. The procedure begins with identification of landmarks, including the mid-pupillary line and the lower edge of the nasal ala, to guide trocar insertion through the canine fossa, typically under local or general anesthesia via a sublabial incision. A trocar is advanced with gentle twisting or tapping motions to penetrate the thin anterior maxillary wall, followed by irrigation or insertion of instruments such as a 4 mm microdebrider blade for tissue removal, often visualized endoscopically through the middle meatal antrostomy. Tools commonly employed include a sharp trocar for puncture and endoscopic instruments for guided intervention, with the process minimizing trauma to surrounding structures. Outcomes demonstrate high efficacy in clearing diseased material, with low complication rates such as transient cheek swelling or pain, and disease-free status in follow-up periods up to 6 months in select cases. In endoscopic sinus surgery, the canine fossa approach serves as an adjunct for managing anterior diseases, particularly when standard middle meatal antrostomy provides inadequate access. It is compared to the prelacrimal recess approach, which involves endoscopic through the prelacrimal recess to preserve the and inferior turbinate, offering a wider surgical field with a 0° and shorter operative times around 27 minutes. The canine fossa approach, involving sublabial penetration, takes approximately 38 minutes and is indicated for recurrent benign lesions like fungal balls, cysts, or polyps in the anterior or inferior sinus regions. Outcomes include improved visualization and of hard-to-reach areas, with no significant difference in recurrence rates between the two methods, though the prelacrimal approach shows lower rates of postoperative facial (40% vs. 75%), numbness (20% vs. 50%), and swelling (20% vs. 75%) at one week. Both techniques enhance accessibility for diverse maxillary pathologies, with canine fossa providing robust and tissue extraction capabilities. During dental implant planning in the anterior , the topography of the canine fossa must be evaluated using cone-beam computed tomography (CBCT) to prevent buccal bone or , especially near the and first . The fossa's average depth is approximately 1.62 mm, with a distance of about 4.52 mm from its deepest point to the , posing risks during immediate placement due to the proximity of the thin labial cortical plate to the . Preoperative CBCT assessment allows for precise angulation and length selection, typically favoring bone-driven positioning to minimize labial wall compromise and avoid exposure. No significant variations occur with age or gender, but careful topographic mapping ensures safe placement without increasing incidence. The canine fossa approach in originated in the late but saw significant evolution with the advent of endoscopic techniques in the 1980s, integrating it into for minimally invasive maxillary access. Initially described by Caldwell in 1893 as a sublabial entry to the , it was refined by Luc in 1897, but modern endoscopic applications emerged alongside advancements in sinonasal , enabling combined transoral and endonasal methods for recalcitrant cases. By the 1990s, it became a standard adjunct in revision surgeries, used in about 5% of procedures for severe maxillary disease, reflecting its role in transitioning from open Caldwell-Luc operations to targeted endoscopic interventions.

Pathological and Evolutionary Aspects

The canine fossa is implicated in odontogenic infections originating from the maxillary , where periapical abscesses can perforate the buccal cortical plate and extend into the canine space, leading to localized swelling over the canine eminence, intraoral vestibular edema, and due to involvement of adjacent masticatory muscles. These infections may further spread to contiguous spaces such as the buccal space or , exacerbating symptoms and potentially requiring drainage to prevent complications like or . Additionally, , particularly odontogenic forms, can cause tenderness and pain upon of the canine fossa due to its proximity to the sinus. In clinical practice, fractures involving the canine fossa are rare but occur in midfacial trauma, such as Le Fort I fractures, where the fracture line transverses the low through the pyriform aperture, canine fossa, and lateral antral wall, often resulting in , epistaxis, and ecchymosis; () imaging is essential for precise and of such injuries. Tumors affecting the fossa are uncommon, typically manifesting as extensions from carcinomas, presenting with progressive swelling and ulceration in the canine region, confirmed via contrast-enhanced or (MRI) to delineate bony involvement and soft tissue extension. Evolutionarily, the canine fossa emerged prominently in Homo sapiens and late hominins as part of midfacial retraction and orthognathism, reflecting reduced and a more vertical profile compared to earlier primates like , where the fossa was shallower or absent due to greater projection. This adaptation is linked to dietary shifts and encephalization, with the providing for a compact in modern humans, contrasting with the more robust, less defined fossae in hominins. In across mammals, the canine fossa varies significantly; for instance, it is deeper and more pronounced in carnivores such as to enhance leverage for levator labii muscles during prey manipulation, whereas it is shallower in herbivores like equids.

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