|
|||||||||||||||||||||||||||||||||||||||
A Cross Sectional Study of Normal Variations of Sphenoid Sinus Through CT-Scan in North Karnataka, India |
|||||||||||||||||||||||||||||||||||||||
Manisha S. Chougule, Preetam B. Patil 1. Assistant Professor, Department of Anatomy, SDM College of Medical Sciences and Hospital, Dharwad, Karnataka, India. 2. Associate Professor, Department of Radiology, SDM College of Medical Sciences and Hospital, Dharwad, Karnataka, India. |
|||||||||||||||||||||||||||||||||||||||
Correspondence Address : Dr. Manisha S. Chougule, 282, Agarkar Road, Tilakwadi, Belgaum, Karnataka-590006, India. E-mail: drmanishasc23@gmail.com |
|||||||||||||||||||||||||||||||||||||||
ABSTRACT | |||||||||||||||||||||||||||||||||||||||
: In the humans, paranasal air sinuses play various roles like- make the skull light weight, add the resonance to the voice etc. We have frontal, ethmoid, maxillary and sphenoid sinuses. Out of these, sphenoid sinuses (SS) have got the importance because of trans-sphenoid approach for the pituitary surgeries and skull base surgeries. Therefore, the knowledge of anatomical variation of SS has a significant role in surgical access of pituitary fossa and also, can anticipate the difficulties in surgery. Aim: This is the study to find out the variations of SS and their relations to adjacent neurovascular structures with surgical point of view. Materials and Methods: Computed Tomography (CT) scans of 150 living subjects (53 females and 97 males) were taken in coronal, sagittal and axial planes. Contiguous slice CT technique was used with 1 mm section thickness. The p-value was calculated to find out the association between extent of pneumatization of sphenoid sinus and protrusion or dehiscence of maxillary nerve (MN), vidian nerve (VN), optic nerve (ON) or internal carotid artery (ICA) in the sinus. Chi square test was used for the calculation of p-value. Results: It was observed that there were 2 cases with conchal pneumatization, 29 cases with pre-sellar pneumatization, 47 cases with sellar pneumatization, 72 cases with post-sellar pneumatization. It was observed that pneumatization of greater wing of sphenoid sinus (GWS) in 40 cases, pterygoid process (PP) in 39 cases and anterior clinoid process (ACP) in 34 cases. Onodi cell were noticed in 17 sinuses. Protrusion of ICA was found in 27 sinuses. The p-value was highly significant for the association between pneumatization of sphenoid sinus and protrusion or dehiscence of nerves or ICA in the sinus. Chi square test was used for the calculation of p-value. Posterior attachment of Inter Sinus Septa (ISS) was noticed in the midline in 36 individuals (24%) and deviated from midline in 113 individuals (75%). Accessory septae were noticed in 76 sinuses (51%). Conclusion: Due to widespread pneumatization of SS, it lies in close relation with MN, ON, VN & ICA. Newer techniques were helpful for the safety of the patient during intra-operative and post-operative period. | |||||||||||||||||||||||||||||||||||||||
Keywords : Internal carotid artery, Maxillary nerve, Optic nerve, Pneumatization, Vidian nerve | |||||||||||||||||||||||||||||||||||||||
|
|||||||||||||||||||||||||||||||||||||||
INTRODUCTION | |||||||||||||||||||||||||||||||||||||||
Paranasal air sinuses are meant to make the skull light weight, give the resonance to the voice and help to make inspired air moist and warm. To clinicians they are important because of the sinusitis and complications related to it. In humans we have frontal, ethmoid, maxillary and sphenoid sinuses. Out of these, sphenoid sinus (SS) has got clinical significance in this new era of minimal invasive surgery. Especially for neurosurgeons, when they discovered the trans-sphenoid approach for the pituitary surgeries and also for ENT surgeons for Functional Endoscopic Sinus Surgery (FESS); because of this the normal anatomical variations of the SS are important in surgeon’s point of view (1). Pneumatization varies in each and every individual. Because of variation in pneumatization, we get a lot of variations in SS and its relation with the neighboring neuro-vascular structures. These relations are important for the surgeons to anticipate difficulties and complications during surgeries. | |||||||||||||||||||||||||||||||||||||||
MATERIAL AND METHODS | |||||||||||||||||||||||||||||||||||||||
This cross sectional study was conducted in the Department of Radiology, SDM Hospital, Dharwad during the period of April 2015 - July 2015. Total 150 CT scans were selected randomly from patients who fulfill our inclusion and exclusion criteria. Ethical clearance was taken from our institute’s ethical committee. We took written informed consent from the patient on the condition of concealing their identity. Computed Tomography (CT) scans of 150 living subjects (53 females and 97 males) were taken in coronal, sagittal and axial planes. Contiguous slice CT technique was used with 1 mm section thickness. We studied the type of pneumatization, protrusion or dehiscence of neurovascular structures, presence of accessory septa and its attachment, termination of inter-sinus septa, etc. All subjects were between 18 to 70 years. We excluded subjects with acute or chronic sinusitis, FESS, trans-sphenoid surgery, head injury or intra-cranial infection. CT sections were analyzed pertaining to variations in pneumatization of the sinus, presence of accessory septa with its attachment, position and posterior attachment of inter-sinus septa (ISS). Association of protrusion or dehiscence of the internal carotid artery (ICA), optic nerve (ON), maxillary nerve (MN) & vidian nerve (VN) with extent of pneumatization of SS was also studied. The p-value was calculated to find out the association between protrusion of ON and the pneumatization of anterior clinoid process (ACP), protrusion of MN and pneumatization of greater wing of sphenoid (GWS) and protrusion of vidian nerve (VN) and pneumatization of PP. Chi square test was used to calculate the p-value. | |||||||||||||||||||||||||||||||||||||||
RESULTS | |||||||||||||||||||||||||||||||||||||||
We studied 150 CT scans of Sphenoid sinuses (53-females, 97-Males). 1. Type of Sphenoid Sinus (SS) SS are classified according to the extent of pneumatization in relation to the sella turcica, as pre-sellar, sellar and postsellar variety (2). Total absence of pneumatization is called as conchal variety (Table/Fig 1). Conchal pneumatization was well appreciated in coronal section of CT-scan & other types were well appreciated in sagittal sections of CT-scan. We noticed 2 conchal, 29 pre-sellar, 47 sellar, 72 post-sellar variety of SS. 2. Extent of Pneumatization It was observed that pneumatization of greater wing of sphenoid sinus (GWS) in 40 sinuses, pterygoid process (PP) in 39 sinuses (Table/Fig 2) and anterior clinoid process (ACP) in 34 sinuses (Table/Fig 3) & (Table/Fig 4). 3. Onodi Cell Onodi cell is posterior most ethmoid air cell which is incorporated in sphenoid sinus. It was observed it in 17 sinuses (Table/Fig 5). 4. Protrusion of Neurovascular Structures Usually protrusion of ON is associated with pneumatization of ACP (Table/Fig 3) & (Table/Fig 4) (B), protrusion of MN is associated with pneumatization of GWS (Table/Fig 2), protrusion of vidian nerve (VN) is associated with pneumatization of PP. (Table/Fig 6) (a). But, protrusion of these nerves can occur without pneumatization of ACP, GWS & PP also. In 3 cases protrusion of MN was observed without pneumatization of ACP, GWS and PP. Also, there was a case of protrusion of foramen ovale due to pneumatization of GWS (Table/Fig 7). Protrusion of ICA was observed in 27 sinuses. Out of this, in 23 cases, protrusion of ICA was associated with pneumatization of ACP. This association was significant as p-value is significant (p < 0.05). Total 20 sinuses were associated with both pneumatization of ACP & GWS. Our findings were enumerated in the (Table/Fig 8),(Table/Fig 9),(Table/Fig 10). The p-value was highly significant for all 3 findings. The p-value was calculated using Chi-square test. 5. Dehiscence of Neurovascular structures Dehiscence of ON was noticed in 10 cases. In 3 cases dehiscent ON traverses through sinus (Table/Fig 5), while there was a case of dehiscent MN traversing through sinus (Table/Fig 11). There was absence of dehiscent ICA. 6. Inter-Sinus Septum (ISS) ISS was noticed in the midline in 36 individuals and deviated from midline in 113 individuals. There was a lot of variation in the posterior attachment of ISS. It was over the bony wall covering ICA in 23 individuals (Table/Fig 4) (a), over the bony wall covering ON in 19 individuals (Table/Fig 4) (b) & (Table/Fig 4) (c). While in a case, posterior attachment was over accessory septa (Table/Fig 4) (b), in the other it was over both ICA & ON and in another case it was diverged & attached to bony wall covering both ON (Table/Fig 4) (c). 7. Accessory septa Accessory septa were noticed in 76 sinuses. These septa were either complete or partial. It shows attachment on bony wall covering ICA (27 sinuses) (Table/Fig 6) (b) or ON (6 sinuses) or MN (2 sinuses) or VN (2 sinuses) (Table/Fig 6) (a) & (Table/Fig 12). In other sinuses it terminates over ISS or any wall of the sinuses. | |||||||||||||||||||||||||||||||||||||||
DISCUSSION | |||||||||||||||||||||||||||||||||||||||
Normal SS has two symmetrical cavities separated by ISS placed in the midline. ISS does not usually encroach upon surrounding neuro-vascular structures. Absence of accessory septa, absence of protrusion and dehiscence of neuro-vascular structures within the sinus are noticed (3). During normal development, a process takes place in which red bone marrow gets replaced by yellow marrow slowly. According to several studies, this conversion of red to yellow marrow is an important step in the pneumatization of paranasal air sinuses and mastoid air cells (4),(5). Failure of this step will lead to non development of air sinuses and SS is most commonly affected. In SS, this process starts in the anterior portion and moves posteriorly towards clivus [6-9]. To explain the relation between aeration and bone marrow conversion, many studies were done and each one forms their own hypothesis behind it (10). Some authors proposed that changes in vasculature and temperature were promoting factors for marrow conversion (6),(11) while others proposed that ratio of trabecular to cortical bone is the driving factor (12). Pneumatization process starts with the invasion of the respiratory mucosa into the sphenoid fatty marrow conversion areas. Failure of this process by any means will lead to arrested pneumatization in adulthood (14). Type of Sphenoid Sinus It was observed that there were 19% pre-sellar, 31% sellar, 48% post-sellar types of pneumatization. Two cases were of Conchal variety. S Elwany et al., (14) observed 30% presellar, 71% post-sellar type of pneumatisation. D Sethi et al., (15) observed pre-sellar in 27 % and post-sellar in 73% of sinuses. In another study done in Libiya by Ossama Hamid et al., (16), observed 2% conchal, 21% pre-sellar, 54.7% sellar and 22.3% post-sellar type of pneumatisation. In most of the studies, it was observed that post-sellar variety is common except in Libiya. Post-sellar type offers maximum optimum conditions for trans-sphenoid approach to intra-cranial surgeries like spacious sinuses, thin walls of the sinuses. In the conchal type, surgeons require special instruments for the successful procedure. Extent of Pneumatization Pneumatization of GWS was observed in 27%, PP in 26% and ACP in 23% cases.The p-value was significant for the association between pneumatization of GWS with the protrusion of MN, PP with the VN and ACP with the ON. Hewaidi GH et al., (3) observed pneumatization of ACP in 15%, of GWS in 20 % and that of PP in 29% of the patients. Bolger et al., (14) identified pneumatization of ACP in 13% and of PP in 43% patients. John Earwaker (8) found pneumatization of GWS in 20% of patients. ACP pneumatization was observed in 4% and in 24% of patients by De Lano et al., (5) and Birsen et al., (11) respectively. Relations of Neuro-Vascular Structures We observed protrusion of ICA in 18%, ON in 24%, MN in 32.5% and VN in 32% cases. Onodi cell was observed in 6% cases. ON dehiscence was noticed in 8.5% cases. CT scan study done by Hewaidi GH et al., (3) protrusion of ICA was observed in 41% of patients and dehiscence of the artery in 30%. Protrusion and dehiscence of the ON was observed in 35.6% and 30.6% of patients respectively. Protrusion and dehiscence of the MN was observed in 24.3% and 13% of patients respectively. VN protrusion was found in 27% of patients. Fuji et al., (12) observed 8% dehiscent ICA, 4% dehiscent ON. Kennedy et al., (17) found dehiscence of ICA in 25% of patients. Birsen et al., (11) found protrusion and dehiscence of ICA in 30.3% and 3.5% of patients. They noticed protrusion of MN in 24.3%. Sirikci et al., (18) observed protrusion ICA in 26.1% of patients and dehiscence of the artery in 23%. Significant difference in our findings as compared to other studies was mostly due to regional or racial difference. | |||||||||||||||||||||||||||||||||||||||
CONCLUSION | |||||||||||||||||||||||||||||||||||||||
SS is surrounded by important neurovascular structure. Various types of pneumatization can be seen and if pneumatization spreads beyond body of the sphenoid bone it forms recesses. Due to this, SS is in close relation with MN, ON, VN & ICA. Newer techniques were helpful for the safety of the patient during intra-operative and post-operative period. Now, intra-operative fluoroscopic imaging or intraoperative navigational devices are used to confirm surgical landmarks making these techniques very safe. | |||||||||||||||||||||||||||||||||||||||
|
|||||||||||||||||||||||||||||||||||||||
TABLES AND FIGURES | |||||||||||||||||||||||||||||||||||||||
Welcome : Guest
Users Online :