The sphenoid sinus during childhood: establishment of normal developmental standards by MRI

The Party Wall: Redefining the Indications of Transcranial Approaches for Giant Pituitary Adenomas in Endoscopic Era

The evolution of endoscopic trans-sphenoidal surgery raises the question of the role of transcranial surgery for pituitary tumors, particularly with the effectiveness of adjunct irradiation. This narrative review aims to redefine the current indications for the transcranial approaches for giant pituitary adenomas in the endoscopic era. A critical appraisal of the personal series of the senior author (O.A.-M.) was performed to characterize the patient factors and the tumor's pathological anatomy features that endorse a cranial approach. Traditional indications for transcranial approaches include the absent pneumatization of the sphenoid sinus; kissing/ectatic internal carotid arteries; reduced dimensions of the sella; lateral invasion of the cavernous sinus lateral to the carotid artery; dumbbell-shaped tumors caused by severe diaphragm constriction; fibrous/calcified tumor consistency; wide supra-, para-, and retrosellar extension; arterial encasement; brain invasion; coexisting cerebral aneurysms; and separate coexisting pathologies of the sphenoid sinus, especially infections. Residual/recurrent tumors and postoperative pituitary apoplexy after trans-sphenoidal surgery require individualized considerations. Transcranial approaches still have a critical role in giant and complex pituitary adenomas with wide intracranial extension, brain parenchymal involvement, and the encasement of neurovascular structures.

Anatomic Parameters and Growth of the Pediatric Skull Base: Endonasal Access Implications

Objectives: Endoscopic endonasal anterior skull base surgery has expanding use in the pediatric population, but the anatomy of pediatric patients can lead to limitations. This study aims to characterize the important anatomical implications of the pediatric skull base using computed tomography (CT) scans. Design: Retrospective analysis Setting: Tertiary academic medical center Participants: 506 patients aged 0-18 who had undergone maxillofacial and or head CTs between 2009-2016. Methods: Measurements included piriform aperture width, nare to sella distance (NSD), sphenoid pneumatization, olfactory fossa depth, lateral lamella cribriform plate angles, and intercarotid distances (ICD) at the superior clivus and cavernous sinus. These patients were then subdivided into 3 age groups adjusting for sex. ANCOVA models were fit comparing between all age groups and by sex. Results: Piriform aperture width, NSD, sphenoid sinus pneumatization as measured using lateral aeration and anterior sellar wall thickness, olfactory fossa depth, and ICD at the cavernous sinus was significantly different among all age groups (P<0.0001). Our results show that mean piriform aperture width increased with each age group. The mean olfactory fossa depth also had consistent age dependent growth. In addition, ICD at the cavernous sinus showed age dependent changes. When comparing by sexes, females consistently showed smaller measurements. Conclusion: The process of skull base development is age and sex dependent. During preoperative evaluation of pediatric patients for skull base surgery piriform aperture width, sphenoid pneumatization in both the anterior posterior and lateral directions, and ICD at the cavernous sinus should be carefully reviewed.  

Pediatric Paranasal Sinuses- Development, Growth, Pathology & Functional Endoscopic Sinus Surgery

The paranasal sinuses (maxillary, frontal, ethmoid, and sphenoid sinuses) are complex anatomical structures. The development and growth of these have been investigated utilizing a number of different methods ranging from cadaveric analysis to modern cross sectional imaging with 3D modeling. An understanding of normal pediatric paranasal sinus embryology and development enables us to better determine when pathology may be affecting the normal developmental process. Cystic fibrosis, chronic sinusitis, deviated nasal septum and cleft lip and palate are some of the conditions which have been shown to effect paranasal sinus development to varying degrees. Functional endoscopic sinus surgery (FESS) is becoming increasingly common and an understanding of sinus anatomy together with when periods of rapid growth occur during childhood is important clinically. Although concerns have been raised regarding the impact of FESS on facial growth, there is limited evidence of this in regards to either changes in anthropomorphic measurements or clinical assessments of symmetry post operatively.

Paranasal sinus development and implications for imaging

Because the paranasal sinuses continue to develop throughout childhood, radiologists encounter significant anatomical variation when confronted with pediatric imaging studies. Knowledge of the stages of sinus growth is vital to differentiate normal development from abnormally large, hypoplastic or malformed sinuses. Understanding how the paranasal sinuses develop and their expected appearance at different patient ages is important for accurate interpretation of diagnostic imaging. To that end, we provide a brief review of paranasal sinus anatomy and discuss the mechanisms by which each paranasal sinus develops, as well as the implications for imaging. We also provide a practical guide for assessing normal paranasal sinuses in children based on the relationship of the sinuses to anatomical landmarks at various stages of development in order to help pediatric radiologists provide accurate interpretation of diagnostic imaging.

Preoperative Computed Tomography Imaging of the Sphenoid Sinus: Striving Towards Safe Transsphenoidal Surgery

Introduction  Preoperative high-resolution computed tomography (HRCT) is essential in patients undergoing transsphenoidal surgery to identify potential high-risk anatomic variations. There is no consensus in the literature, as to which grading system to use to describe these variants, leading to inconsistent terminology between studies. In addition, substantial variability exists in the reported incidence of anatomic variants. In this study, we performed an institutional imaging analysis and literature review with the objective of consolidating and clearly defining these sphenoid sinus anatomical variations. In addition, we highlighted their surgical implications and propose a checklist for a systematic assessment of the sphenoid sinus on preoperative CT. Methods  Review of the literature and retrospective analysis assessing several imaging parameters in 81 patients who underwent preoperative HRCT imaging for endoscopic transsphenoidal tumor resection from January 2008 through July 2015 at Rush University Medical Center. Results  The most common sphenoid pneumatization patterns were sellar (45%) and postsellar (49%) types. Anterior clinoid process (ACP) pneumatization was seen in 17% of patients with high concordance of ipsilateral optic nerve (ON) protrusion. ON protrusion and dehiscence was present in 17 and 6% of patients, respectively. Internal carotid artery (ICA) protrusion and dehiscence was present in 30 and 5% of patients, respectively. Dehiscence rates from local bone invasion overlying the ICA and ON occurred in 17 and 4% of cases, respectively. Conclusions  Our study highlights and reviews the key variants that have potential to impact surgical complications and outcomes in a heterogeneous patient population. The proposed preoperative CT checklist for patients, undergoing transsphenoidal surgery, consistently identifies these higher risk anatomical variants.

Lack of Sphenoid Pneumatization Does Not Affect Endoscopic Endonasal Pediatric Skull Base Surgery Outcomes

OBJECTIVES/HYPOTHESIS

Currently, due to the rarity of pathology, there are limited data surrounding outcomes of pediatric skull base surgery. Traditionally, surgeons have proceeded with caution when electing endonasal endoscopic transsellar/transplanum approaches to the skull base in pediatric patients due to poor sphenoid pneumatization. In this study, we review outcomes of endoscopic pediatric skull base surgery based on sphenoid pneumatization patterns.

STUDY DESIGN

Retrospective chart review.

METHODS

A review of all cases of pediatric (age < 18 years) craniopharyngioma managed via an endoscopic endonasal approach at a tertiary academic medical center.

RESULTS

A total of 27 patients were included in the analysis. The median age was 8 years. Nineteen (70%) patients were male. Presellar, sellar/postsellar, and conchal sphenoid pneumatizations were found in 6, 11, and 10 patients, respectively. There was no significant association between sphenoid pneumatization pattern and extent of resection (gross vs. subtotal, P = .414), postoperative cerebrospinal fluid (CSF) leak (P = .450), intraoperative estimated blood loss (P = .098), total operative time (P = .540), and length of stay (P = .336). On multivariate analysis, after accounting for age, sex, preoperative cranial nerve involvement, and cavernous sinus invasion, there remained no significant association between sphenoid pneumatization pattern and extent of resection (P = .999) and postoperative CSF leak (P = .959).

CONCLUSIONS

Sphenoid pneumatization pattern does not appear to affect outcomes in endoscopic skull base surgery in the pediatric population. Importantly, lack of sphenoid pneumatization does not impede gross total resection or increase complications. Thorough knowledge of the anatomy during the endoscopic approach is critical to optimize outcomes.

LEVEL OF EVIDENCE

4 Laryngoscope, 129:832-836, 2019.

Radiological features for the approach in trans-sphenoidal pituitary surgery

INTRODUCTION

In order to perform trans-sphenoidal endoscopic pituitary surgery safely and efficiently it is important to identify anatomical and pituitary disease features on the pre-operative CT and MRI scans; thereby minimising the risk to surrounding structures and optimising outcomes. We aim to create a checklist to streamline pre-operative planning.

METHODS

We retrospectively reviewed pre-operative CT and MRI scans of 100 adults undergoing trans-sphenoidal endoscopic pituitary surgery.

RESULTS

Radiological findings and their incidence included deviated nasal septum (62%), concha bullosa (32%), bony dehiscence of the carotid arteries (18%), sphenoid septation overlying the internal carotid artery (24% at the sella) and low lying CSF (32%). The mean distance of the sphenoid ostium to the skull base was 10 mm (range 2.7-17.6 mm). We also describe the 'teddy bear' sign which when present on an axial CT indicates the carotid arteries will be identifiable intra-operatively.

CONCLUSIONS

There are significant variations in the anatomical and pituitary disease features between patients. We describe a number of features on pre-operative scans and have devised a checklist including a new 'teddy bear' sign to aid the surgeon in the anatomical assessment of patients undergoing trans-sphenoidal pituitary surgery.

The expanded endonasal approach for the treatment of intracranial skull base disease in the pediatric population

PURPOSE OF REVIEW

To review the current literature on the expanded endonasal approach for pediatric skull base lesions.

RECENT FINDINGS

This review examines the currently published outcomes of pediatric endoscopic skull base surgery. It specifically reviews the anatomic considerations of pediatric patients, growth considerations in pediatric patients, reconstructive options and limitations, and the use of image guidance. In addition, this review provides some suggestions for approaching skull base lesions in pediatric patients, based on both experience and the current body of literature.

SUMMARY

The expanded endonasal approach for pediatric skull base lesions is a well tolerated and reliable method for the treatment of children with midline nasal masses. With improvements in technology and technique, this approach has become increasingly common in high-volume skull base centers as a well tolerated alternative to traditional open approaches.

Transnasal Transsphenoidal Surgical Method in Pediatric Pituitary Adenomas

AIM

To evaluate the clinical outcome in a 13-year consecutive series of children operated for pituitary adenomas with transnasal transsphenoidal surgery.

METHODS

All patients <18 years who were operated on at our center by transsphenoidal surgery for pediatric pituitary adenomas were included in the study. Clinical features, hormonal profile, radiology, surgical approach, results and complications were analyzed.

RESULTS

Eighteen patients (90%) had functional pituitary adenomas and 2 (10%) patients had nonfunctional pituitary adenoma. The most common type was prolactin-secreting adenoma (n = 12), followed by corticotropinoma (n = 4), growth hormone-secreting adenoma (n = 2), and nonfunctioning adenoma (n = 2). Prolactin-secreting adenomas in children occurred more commonly with suprasellar expansion than did other adenomas.

CONCLUSION

Transsphenoidal surgery was effective for decompression of suprasellar extension and relieved the chiasmal compression immediately. Prolactin-secreting tumors required postoperative medical therapy for persistently elevated prolactin levels.

Impact of skull base development on endonasal endoscopic surgical corridors

OBJECT

Scarce morphometric data exist on the developing skull base as a corridor for endonasal endoscopic approaches (EEAs). Furthermore, the impact of skull base lesions on its development has not been assessed. The authors describe a novel set of anatomical parameters characterizing the developmental process as well as the utility of these parameters in preoperative planning and a feasibility assessment of EEAs for neurosurgical treatment of skull base lesions in children.

METHODS

Based on specific MRI sequences in 107 pediatric patients (2-16 years of age) without skull base lesions (referred to here as the normal population), 3 sets of anatomical parameters were analyzed according to age group and sex: drilling distance, restriction sites, and working distance parameters. A separate set of patients undergoing EEAs was analyzed in similar fashion to address the impact of skull base lesions on the developmental process.

RESULTS

The volume of the sphenoid sinus significantly increases with age, reaching 6866.4 mm(3) in the 14-16 years age group, and directly correlates with the pneumatization type (r = 0.533, p = 0.0001). The pneumatization process progresses slowly in a temporal-posterior direction, as demonstrated by the growth trend of the sellar width (r = 0.428, p = 0.0001). Nasal restriction sites do not change significantly with age, with little impact on EEAs. The intercarotid distance is significantly different only in the extreme age groups (3.9 mm, p = 0.038), and has an important impact on the transsphenoidal angle and the intracranial dissection limits (r = 0.443, p < 0.0001). The 14.9° transsphenoidal angle at 2-4 years has a 37.6% significant increase in the 11-13 years age group (p = 0.001) and is highly dependent on pneumatization type. Age-dependent differences between working parameters are mostly noted for the extreme age groups, such as the 8.6-mm increase in nare-vomer distance (p = 0.025). The nare-sellar distance is the only parameter with significant differences based on sex. Skull base lesions induce a high degree of variance in skull base measurements, delaying development and decreasing parameter values. Skull base parameters are interdependent. Nare-sellar distance can be used to assess global skull base development because it highly correlates with the intercarotid distance in both the normal population and in patients harboring skull base lesions.

CONCLUSIONS

Skull base development is a slow, gradual, age-dependent, sex-independent process significantly altering endonasal endoscopic corridors. Preoperative MRI measurements of the pediatric skull base are thus a useful adjunct in choosing the appropriate corridor and in assessing working angles and limits during dissection or reparative surgery. Skull base lesions can significantly impact normal skull base development and age-dependent growth patterns.

High-resolution computed tomography analysis of variations of the sphenoid sinus

Purpose The sphenoid sinus is a complex structure with key variations that are important for endoscopic parasellar approaches. In this study, high-resolution computed tomography (HRCT) scans were analyzed for the frequency of these variations. Methods A retrospective radiographic analysis was conducted on patients undergoing HRCT between July 2008 and September 2010. Results Sphenoid sinus pneumatization was defined as conchal, presellar, sellar, and postsellar based on pneumatization relative to the anterior and posterior face of the sella. The distribution ranged from 1.8%, 7.3%, 47.6%, and 43.3%, respectively. We found a greater preponderance of sellar and postsellar variation than previously reported. No differences were found in regard to age, gender, and ethnicity (African American, Caucasian, Asian, and Hispanic) (p > 0.05). The prevalence of optic nerve, maxillary nerve, and internal carotid artery protrusion was 26.1%, 25.9%, and 28.2%, respectively, and dehiscence was 2.1%, 7.4%, and 2.9%, respectively. Accessory septae were present in 43.5% of cases. A lateral recess was identified in 72.4% and clinoid pneumatization in 20% of patients. Conclusion This study demonstrates a greater prevalence of sphenoid sinus pneumatization and variations than previously reported. This has important implications in terms of preparation and anticipation of possible variations to avoid complications.

Anatomic Variations of the Sphenoid Sinus and Their Impact on Trans-sphenoid Pituitary Surgery

INTRODUCTION

The trans-sphenoid access to the pituitary gland is becoming the most common approach for pituitary adenomas. Preoperative evaluation of the anatomy of the sphenoid sinus by computed tomography (CT) scan and magnetic resonance imaging (MRI) is a routine procedure and can direct the surgical decision.

PURPOSE

This work determines the incidence of the different anatomical variations of the sphenoid sinus as detected by MRI and CT scan and their impact on the approach.

METHODS

The CT scan and MRI of 296 patients operated for pituitary adenomas via a trans-sphenoid approach were retrospectively reviewed regarding the different anatomical variations of the sphenoid sinus: degree of pneumatization, sellar configuration, septation pattern, and the intercarotid distance.

RESULTS

There were 6 cases with conchal pneumatization, 62 patients with presellar, 162 patients with sellar, and 66 patients with postsellar pneumatization. There was sellar bulge in 232 patients, whereas this bulge was absent in 64 patients. There was no intersphenoid sinus septum in 32 patients, a single intersphenoid septum in 212 patients, and an accessory septum in 32 patients. Intraoperatively, the sellar bulge was marked in 189 cases and was mild in 43 cases.

DISCUSSION

The pattern of pneumatization of the sphenoid sinus significantly affects the safe access to the sella. A highly pneumatized sphenoid sinus may distort the anatomic configuration, so in these cases it is extremely important to be aware of the midline when opening the sella to avoid accidental injury to the carotid and optic nerves. The sellar bulge is considered one of the most important surgical landmarks, facilitating the access to the sella. The surgical position of the patient is also a crucial point to avoid superior or posterior misdirection with resultant complications. It is wise to use extreme caution while removing the terminal septum.

CONCLUSION

Different anatomical configurations of the sphenoid sinus can seriously affect the access to the sella via the nose. The surgeon should be aware of these findings preoperatively to reach the sella safely and effectively.

Quality of postoperative course in children: endoscopic endonasal surgery versus sublabial microsurgery

BACKGROUND

The practice of endoscopic endonasal surgery is still limited in children because of the relative rarity of sellar lesions in the paediatric population. However, such an approach is increasingly reported in the literature as an alternative option to standard sublabial microsurgery, and its surgical results are being analysed. No information on the trend of the postoperative course is currently available. The goal of this paper is to assess the impact of these two different transsphenoidal approaches on the postoperative course.

METHODS

Thirty-one consecutive paediatric patients were treated for sellar region lesions by transsphenoidal surgery. Fourteen children (group A) underwent surgery with a microsurgical sublabial transsphenoidal approach between 2000 and 2005; the remaining 17 children (group B) underwent surgery with an endoscopic endonasal transsphenoidal approach between 2005 and 2009. The two groups were compared as to rate of admission to the PICU, relief from preoperative symptoms, early surgical complications, postoperative pain (Wong-Baker FACES Pain Scale) and length of postoperative hospital stay.

RESULTS

Children in group B showed decreased rates of admission to the PICU (35% versus 100%) and peroperative blood transfusions (23% versus 71%), and a shorter mean postoperative hospital stay (4 days versus 5.7 days). The pain perception was significantly lower in group B than in group A, as demonstrated by the scores registered during both the early (2.05 ± 0.74 versus 2.92 ± 0.91) and late postoperative period (0.82 ± 0.95 versus 1.64 ± 0.84). No remarkable differences in terms of operative time, symptom improvement and early complications were detected.

CONCLUSIONS

Endoscopic endonasal surgery can improve the quality of the postoperative course in children regardless of the type of lesions treated and the surgical complications.

Endoscopic endonasal transsphenoidal surgery for sellar tumors in children

OBJECTIVE

Endoscopic endonasal transsphenoidal surgery (EETS) is still rarely used in pediatric subjects compared with adults. Reports on EETS in children appeared only recently in the literature, usually regarding small series. The aim of the study is to assess the actual role and the limits of EETS in children with sellar tumors by reporting a two-centers experience.

METHODS

Twenty-seven children (mean age: 12.2 years) were operated on during the last decade. Seventeen patients harbored a sellar mass, 7 a suprasellar tumor, and 3 a clival mass. Laboratory investigations revealed hypopituitarism in 6 children and hormone hypersecretion in 9. All the operations were carried out by a team including both ENT surgeon and neurosurgeon using a dedicated 18-cm long rigid endoscope (2.7 mm and 4 mm diameter) through the direct paraseptal or the transethmoidal or the transpterygoid route.

RESULTS

Overall, 29 operations were performed. Gross total tumor resection was obtained in 22 children (81.5%) while a subtotal and a partial removal in 2 (7.5%) and 3 cases (11%), respectively. Pituitary adenoma was the most common histotype (12 cases), followed by craniopharyngioma (5) and Rathke's cleft cyst (4). No surgical mortality or neurological morbidity or late nasal complications were observed. Postoperative CSF fistula occurred in 3 patients. All children are alive at current follow-up (average: 8.6 years). Preoperative hypopituitarism disappeared or improved in 4 cases and was stable in the remaining 2 (no new hormone deficits appeared).

CONCLUSION

EETS is a safe and effective surgical option also in children. As for adults, it allows to manage most of the tumor lesions of the sellar region with stable long-term results.

Anatomical considerations for endoscopic endonasal skull base surgery in pediatric patients

OBJECTIVES/HYPOTHESIS

Pediatric skull base surgery is limited by several boney sinonasal landmarks that must be overcome prior to tumor dissection. When approaching a sellar or parasellar tumor, the piriform aperture, sphenoid sinus pneumatization, and intercarotid distances are areas of potential limitation. Quantitative pediatric anatomical measurements relevant to skull base approaches are lacking. Our goal was to use radio-anatomic analysis of computed tomography scans to determine anatomical limitations for trans-sphenoidal approaches in pediatric skull base surgery.

STUDY DESIGN

A radio-anatomic cross-sectional survey.

METHODS

Measurements included the diameter of the piriform aperture, posterior extent of sphenoid sinus pneumatization, and intercarotid distances on fine-cut, age-stratified maxillofacial scans. Fifty pediatric (<18 years of age) and 10 adult patients were equally subdivided into seven age groups and compared to determine age-related differences in sphenoid sinus pneumatization, skull base thicknesses, and intercarotid distances.

RESULTS

Piriform aperture width was significantly greater in adults than in patients under age 7 years (P <or= .002). Three fourths of the planum and sellar face and one half of the sellar floor were pneumatized by ages 6 to 7 years. Superior clival pneumatization was not evident until 12 years of age. Clival intercarotid distances were not different among groups. Drilling distances for trans-planar, trans-sellar, and trans-clival approaches are described.

CONCLUSIONS

Several potential anatomic limits must be considered in pediatric skull base surgery, and these vary according to age. Piriform aperture is likely a limit only in the youngest patients (under 2 years). Sphenoid pneumatization to the planum and sella start at 3 years and complete by age 10 years. Clival intercarotid distances do not change significantly and are not prohibitively narrow in any age group.

Pneumosinus Dilatans Syndrome of the Sphenoid Sinus. A CT Evaluation

This study discusses the CT findings of pneumosinus dilatans of the sphenoid sinus, highlighting the clinically important CT characteristics. The CT findings of 26 patients with overpneumatization of the sphenoid sinus are presented in correlation with the clinical findings. Twenty-two patients had overpneumatization beyond the boundaries of the body of the sphenoid bone with or without bone remodelling but only two patients reported headaches. Thinning of the bone structures was also present in three patients but only one patient reported headaches. Overpneumatization of the sphenoid sinus with thinning of bunywalls reduced the width of the superior orbital fissure in one patient resulting in a gradual decrease of visual acuity. CT is an accurate method for the evaluation of overpneumatization of the sphenoid sinus due to its high sensitivity in depicting evidence of bone erosion using a bone window as imaging settings.

Radiological imaging of inflammatory lesions in the nasal cavity and paranasal sinuses

Paranasal sinus development and pneumatisation variants are described, and rhinosinusitis and different patterns of inflammatory sinonasal diseases are reviewed. Other inflammatory sinonasal diseases, e.g., fungal sinusitis, mucocele, pyocele and sinonasal manifestations in systemic diseases, are briefly described. Computed tomography (CT) is the primary modality in diagnosing and mapping suspected inflammatory sinonasal disease. Magnetic resonance (MR) imaging is complementary to CT if fungal sinusitis, pyocele or malignancy are suspected.

The development of sphenoid sinus in Asian children

OBJECTIVES

(1) To study the developmental changes of sphenoid sinus in Asian children and (2) to test the hypothesis that the sphenoid sinus may be developing slower in Asian, by comparing the growth patterns between Asian and Caucasian children.

MATERIALS AND METHODS

Review of MR imaging of the skull of 220 Asian children less than 15 years of age in a tertiary hospital. The results were compared to a representative Caucasian study by Szolar et al. [Surg. Radiol. Anat., 16 (1994) 193].

RESULTS

Grade 1 sphenoid was present in all children less than 6 months old. Conversion from marrow to fat of the sphenoid sinus (Grade 2) began at 7 months and was present in patients up to 6 years old. Signs of pneumatization (Grade 3) of the sphenoid sinus were first noted in patients at 10 months old. Almost 100% pneumatization was seen in all the children after 6 years old except for one child with Grade 1 sphenoid at 11 years old. Compared to Caucasian children, there was a significantly higher proportion of Grade 3 cases in Asian children from 0 to 4 years of age (P = 0.05). No difference in the distribution of cases was noted from 4 to 8 years (P = 0.466) and 8-15 years (P = 1.00).

CONCLUSION

The developmental changes of the sphenoid sinus in Asian children were determined and found to be similar when compared to Caucasian children. The findings did not support the hypothesis that the Asian sphenoid sinus is developing slower compared to that of the Caucasians.

Pneumatization of turbinates

OBJECTIVES

To present unusual computed tomography (CT) findings concerning huge pneumatization of turbinates and paranasal sinuses in one patient. In current world literature the authors only found nine reports of pneumatization of inferior turbinates, which, therefore, must be considered an extremely rare anatomical finding.

STUDY DESIGN

Case report and literature review.

METHODS

Computed tomography findings in a 35-year-old white woman with nasal obstruction are presented; and the authors describe this additional case of pneumatization of an inferior turbinate, as well as other variants. The literature and nomenclature are reviewed.

RESULTS

Besides the rare anatomical finding of a pneumatized inferior turbinate, in addition, both patient middle and superior turbinates were pneumatized bilaterally. Frontal and sphenoid sinuses were huge, with pneumatization of the crista galli and the posterior parts of the septum. The floor of the orbit presented with an orbitoethmoid (Haller) cell on one side. Thus, five of the six turbinates present were pneumatized. To the authors' knowledge, no other case of such extreme pneumatization has been published in world literature to date.

CONCLUSIONS

Whereas pneumatization of the ethmoturbinals is a frequent finding on sinus computed tomography scans, pneumatization of the maxilloturbinal remains an extremely rare anatomical variant. Pneumatization of ethmoid cells and secondary sinuses is considered an active achievement of nasal and sinus mucosa during fetal development and adolescence. The underlying mechanisms of this process are not yet understood. The inferior turbinate is the least likely to present with pneumatization. In clinical practice, the pneumatization status should well be studied on the scans before any sinus and turbinate surgery is undertaken.

Paranasal sinus development: a radiographic study

OBJECTIVE

To demonstrate the development of the paranasal sinuses in a pediatric population by computed tomography scans.

STUDY DESIGN

Radiology records at a tertiary care institution were reviewed for the computed tomography scans of the face, orbit, or paranasal sinuses in patients aged 0 to 12 years.

METHODS

Computed tomography scans were reviewed by a head and neck radiologist and otolaryngologist for the development of the frontal, maxillary, ethmoid, and sphenoid sinuses. The size of the pneumatized paranasal sinuses was measured in two planes and graded on a scale of 0 to 3. Ossification of the maxillary crest and vomer, obliteration of the foramen cecum, and development of agger nasi cells, Haller cells, and the superior turbinate were studied. Patients with syndromes, nasal stenosis, choanal atresia, or cystic fibrosis were excluded from the study.

RESULTS

In all, 91 computed tomography scans in 66 patients were studied. Serial development could be followed in 16 patients who underwent repeat scans. Patients were divided into six age cohorts based on their age at the time of the scan: 0 to 3 months (10%), 3 to 12 months (13%), 1 to 3 years (13%), 3 to 5 years (20%), 5 to 8 years (29%), and 8 to 12 years (16%). Ethmoid sinuses were the first to fully develop, followed sequentially by maxillary, sphenoid, and frontal sinuses. Each sinus has a rapid rate of development during specified age cohorts.

CONCLUSION

The results will aid the physician when correlating the clinical and radiographic findings of pediatric patients aged 0 to 12 years who are being evaluated for sinus disease and potential surgical intervention.