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Drainage system of paranasal sinus a review
Dr T Balasubramanian
Study of drainage system of paranasal sinuses is important in the present day context of Functinal endoscopic surgery and Baloon dilatation techniques in managing sinus infections and ostial obstruction. These minimally invasilve tools have thrown further light into the drainage pattern of various paranasal sinuses.
The following are the documented various racial variations:
Studies have revealed extensive intercommunication between various paranasal sinuses. It can be safely construed that all paranasal sinuses in addition to their major drainage channel also contains openings connecting one with the other.
Development of nose and paranasal sinuses:
Study of embryology of nose and paranasal sinuses will go a long way in enhancing our understanding of the drainage patterns of various paranasal sinuses. The whole nasal cavity and adjoining paranasal sinuses develop from a cartilagenous anlage called the nasal capsule. This nasal capsule appears between the 7th and 8th weeks of embryonal life. The first area where this cartilage begins to develop is in the nasal septal area. The lateral nasal wall develops much later. The following are the chronology of development of lateral nasal wall:
The nasal capsule has tight connections to its surroundings, especially to the cartilagenous anlage of body and minor ala of sphenoid bone. This factor helps in the normal development of sphenoid bone thus ensuring normal develpment of sphenoid sinus.
Expansion of mucous membrane forms the paranasal sinuses. The first air filled sacs in the ethmoid bone begins from the bulla ethmoidalis area. Bulla ethmoidalis gives rise to anterior and middle ethmoid air cells. Ventral to anterior ethmoidal cells the developing primordial ethmoidal infundibulum extends infero laterally towards the inferiorly placed precursor of maxillary bone. This forms the primordial maxillary sinus. At birth only the ethmoid and rudimental maxillary sinus are present. The frontal and sphenoid sinus develops after birth due to gradual pneumatization of frontal and sphenoid bones respectively.
During the process of pneumatization mucous membranes encounter each other. When this happens the underlying mesenchymal layer may disappear causing intersinus communications to form. Eventhough these channels of communication plays very little role in ventilation and drainage of sinuses infections can spread to other sinuses via these channels.
Drainage pathways of paranasal sinuses:
Frontal sinus: May show three types of drainage patterns.
Multiple drainage patterns are commonly seen in frontal sinus. Direct drainage is seen only in a fraction of patients. If the frontal sinus drains directly via frontal recess presence of anterior ethmoidal cells can cause obstruction to drainage of frontal sinus leading on to frontal sinus infection.
These cells drain directly via upper / middle meatus.
These cells may share common drainage channel with maxillary sinus
These cells may drain via maxillary sinus
Drains directly into the nasal cavity.
Coronal view showing various drainage patterns
4a. Ethmoideo-nasal route
4b. Ethmoideo-maxillary route
Saggital view showing the drainage patterns of paranasal sinuses
Fs – Frontal sinus
Ms- maxillary sinus
Ss- Sphenoid sinus
The following points should be borne in mind before performing Balloon sinuplasty / FESS procedures for chronic sinus infections:
It makes real sense if these drainage patterns could somehow be ascertained prior to surgical procedure instead of performing blind dilatation.