The Frontal Sinus Drainage Pathway and Related Structures

The superior compartment of the FSDP. Shown are oblique (A) and straight (B) views of the superior and inferior surfaces of the frontal and ethmoid bones of two different specimens. The paired air spaces situated beneath the frontal sinuses and the frontal ostia at the anteroinferior aspect of the frontal bone drain (red arrows) into the paired labyrinthine air spaces at the anterosuperior aspect of the ethmoid bone. In the intact skull of a single specimen, these spaces would join smoothly to form the paired superior compartments of the FSDPs. Common anatomic variations affecting the superior compartment of the FSDP include osseous septations (Fig 6) and marginating air cells (Fig 7). These anatomic variations cause substantial variation in the size and shape of the superior compartments. Nonetheless, the superior compartments ultimately drain into the middle meatus, either directly or via the ethmoid infundibulum (Fig 5).

Sequential, more lateral dissections of the skull and the FSDP (A–F and E′) matched to sagittal CT sections of the skull (A′–C′ and F′).

A, A′. Sagittal structures. The nasal septum is a composite structure, formed by the perpendicular plate of the ethmoid bone anterosuperiorly and by the vomer posteroinferiorly. The inferior margin of the vomer rests upon the nasal crest of the maxillary and palatine bones. The superior margin of the vomer supports the perpendicular plate of the ethmoid bone.

B, B′. Paramedian structures. Removal of the nasal septum reveals the inferior, middle, and superior turbinates. The superior turbinate attaches to the skull base. The middle turbinate shown in B is superimposed (green) onto the sagittal CT (B′) to illustrate how the vertical portion of the basal lamella extends to the skull base at the cribriform plate. Its superior border has variable shape.

C, C′. Image C displays a simplified posteromedial oblique view of the middle turbinate and its basal lamella. The basal lamella has three portions. The vertical portion of the basal lamella attaches to the cribriform plate, the middle and posterior portions attach to the lamella papyracea, and the posterior margin of the basal lamella attaches to the perpendicular plate of the palatine bone. Typically, the vertical, middle, and posterior portions of the basal lamella are oriented in near-sagittal, coronal, and horizontal planes, respectively. Usually, the middle and posterior portions appear irregular in shape because of encroachment by adjacent ethmoid air cells. In C, the inferior edge of the middle turbinate and the medial edge of the middle and posterior portions of the basal lamella together have an angular configuration in the sagittal CT (C′) that highlights the middle and posterior portions of the basal lamella (green). The basal lamella in C′ can be conceptualized by removing the most medial portion of the middle turbinate and the vertical portion of the basal lamella from B′.

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D, Removing the middle turbinate and the vertical portion of the basal lamella exposes, from anterior to posterior, the agger nasi extending to the frontal process of the maxillary bone, the lacrimal bone, the uncinate process of the ethmoid bone extending upward toward the skull base, the hiatus semilunaris (dashed red line), the ethmoid bulla, and the middle and posterior portions of the basal lamella extending laterally toward the lamina papyracea. The hiatus semilunaris is the narrow, slitlike passage between the uncinate process and the ethmoid bulla, through which the ethmoid infundibulum communicates with the middle meatus (6). The ethmoid infundibulum is the space bounded by the uncinate process anteromedially, the ethmoid bulla posterolaterally, and the lamina papyracea anterolaterally (6). Simultaneous removal of the wall of the frontal sinus shows the relationship of the frontal ostium to the superior compartment of the FSDP and how the sinus cavity tapers inferiorly toward the frontal ostium.

E, E′. Removal of the anterior portion of the uncinate process exposes the ethmoid infundibulum. In this specimen, the superior compartment of the FSDP drains directly into the ethmoid infundibulum, which then drains through the hiatus semilunaris to the middle meatus. E′ displays a three-dimensional view of the frontal sinus and the superior and inferior compartments of the FSDP (blue).

F, F′. The frontal ostium extends posteriorly from the anterior frontal bone ridge to the posterior wall of the frontal sinus and is oriented nearly perpendicular to the posterior wall of the sinus. The superior compartment of the FSDP lies inferior to the frontal ostium. In this specimen, the inferior compartment of the FSDP is the ethmoid infundibulum. In F′, the ethmoid infundibulum is bounded anteriorly by the agger nasi cell and the uncinate process and posteriorly by the ethmoid bulla. The middle and posterior portions of the basal lamella of the middle turbinate (green) separate the anterior and posterior ethmoid air cells (see also Fig 4E, the coronal CT of the same specimen).

Anatomic relationships in the coronal plane.

A, Frontal oblique view of the same skull specimen illustrated in Fig 3. Resection of the anteroinferior portion of the middle turbinate (green) exposes the curved uncinate process (red) just superior to the inferior turbinate. In this specimen, the anterior portion of the uncinate process extends to the skull base.

B and C, Sagittal CT sections color coded to display the uncinate process (red) and the middle turbinate including the basal lamella (green). Note that the different portions of the basal lamella are oriented more nearly vertical, or horizontal, facilitating their identification on sagittal and coronal CT sections.

D–H, Sequential coronal CT sections, displayed from anterior to posterior to illustrate the changing relationships and attachments of the color-coded structures.

D, The superior compartment of the FSDP lies superior to the ethmoid infundibulum. The frontal ostium is more easily identified in the sagittal plane (B) than in the anterior coronal plane (D), where the border between frontal sinus and FSDP is difficult to define.

E, The anterior portion of the uncinate process (red) extends upward to the skull base in the right side of this specimen, so the FSDP includes the ethmoid infundibulum. The frontal ostium remains poorly localized.

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F, The posterior portion of the uncinate process (red) lies just inferior to the ethmoid bulla. The inferior margin of the uncinate process lies just superior to the point of attachment of the inferior turbinate. The vertical portion of the basal lamella (green) of the middle turbinate extends to the skull base at the cribriform plate.

G, The midportion of the basal lamella of the middle turbinate (green) extends laterally to join the lamina papyracea. It is continuous with the vertical portion that joins the cribriform plate.

H, The posterior portion of the basal lamella (green) of the middle turbinate lies inferior to the superior turbinate and also extends laterally to join the perpendicular plate of the palatine bone in this CT section.

Anatomic variations in the anterior uncinate process.

A and B, Coronal CT sections modified from the skull illustrated in Figs 3 and 4. Coronal CT sections display the three major variations in the superior attachment of the uncinate process (7): extension laterally to join the lamina papyracea (A, left), extension superiorly to join the skull base (A and B, right), and extension medially to join the lateral surface of the middle turbinate (B, left). Because of these variations in the uncinate process, the frontal sinus drainage on the left side of panel A passes through the superior compartment directly into the middle meatus, not the ethmoid infundibulum. In contrast, the frontal sinus drainage on the right side of panel A and both sides of panel B passes through the superior compartment into the ethmoid infundibulum before entering the middle meatus. The ethmoid infundibulum forms the inferior compartment of the FSDP in these cases. In A, the attachment of the left uncinate process with the lamina papyracea forms a terminal recess of the ethmoid infundibulum.

Anatomic variations in the frontal osseous septations. A, Inferior surface of the frontal bone. B, Coronal CT section. C, Sagittal CT section. Variations in the union of the osseous septations of the frontal bone with the subjacent air cells lead to great diversity in the arrangements of air spaces bordering the FSDP. A well-corticated osseous rim (arrows) marginates the uppermost portion of the superior compartment of the FSDP at the anteroinferior aspect of the frontal bone. The left side shows multiple openings of the frontal sinuses into the FSDP.

Variations in the shape of the superior compartment of the FSDP due to variations in the marginating air cells. A, No marginating air cells. B and C, Marginating air cells anteriorly and posteriorly encroach upon the lower portion of the superior compartment and its junction with the inferior compartment. In B, the uncinate process obscures the ethmoid infundibulum. Removing the uncinate process (C) exposes the course and configuration of the ethmoid infundibulum.

Prominent anterior air cell encroaches on the frontal sinus and the FSDP.

A, Coronal CT.

B, Reformatted sagittal CT.