Abstracts

CLINICAL SCIENCES

Pharyngeal dimensions in healthy men and women

Dimensões da faringe em homens e mulheres saudáveis

Mauro Miguel Daniel^I; Maria Cecília Lorenzi^II; Claudia da Costa Leite^I; Geraldo Lorenzi-Filho^III

^IDepartment of Radiology, Neuroradiology Division, São Paulo University Medical School – São Paulo/SP, Brazil

^IIDepartment of Otorhinolaryngology, Pulmonary Division, São Paulo University Medical School – São Paulo/SP, Brazil

^IIIDepartment of Cardio-Pneumology, Pulmonary Division, São Paulo University Medical School – São Paulo/SP, Brazil. Email: loredaniel@uol.com.br

ABSTRACT

INTRODUCTION: Epidemiological studies reveal a high male prevalence of obstructive sleep apnea syndrome. A possible explanation for this male predominance is the existence of anatomical differences in the upper airway between men and women.

METHODS: The upper airways of 10 male and 10 female healthy volunteers were prospectively evaluated by magnetic resonance imaging. Anatomical pharyngeal and column cross-sectional linear measurements were made in sagittal T1 and axial T1 and T2 weighted fast spin-echo images.

RESULTS: Men had significantly greater mean sagittal pharyngeal structural dimensions compared to women for all structures with the exception of the craniocaudal length of the soft palate and the thickness of the submentonian fat. In contrast, cross-sectional linear dimensions were similar in men and women with the exception of the laterolateral tongue length, which was greater in men. All mean linear measurements of the pharyngeal air column were similar in men and women at all studied levels.

CONCLUSIONS: Men and women present pharyngeal air columns with similar dimensions, but in women this column is surrounded by smaller structures, which might imply a smaller effort to keep its patency. Our data suggest the existence of an anatomical protective factor in women against the upper airway collapse.

Keywords: Obstructive sleep apnea syndrome. Sleep apnea. MRI. Pharynx.

RESUMO

INTRODUÇÃO: Estudos epidemiológicos demonstram alta prevalência da síndrome da apnéia obstrutiva do sono no sexo masculino. Uma explicação plausível para esta predominância masculina é a existência de diferenças anatômicas nas vias aéreas superiores entre homens e mulheres.

MÉTODOS: As vias aéreas superiores de 10 homens e 10 mulheres, voluntários saudáveis, foram avaliados prospectivamente através do exame de ressonância magnética. Foram realizadas medidas lineares das vias aéreas superiores e das estruturas da faringe através de imagens sagitais pesadas em T1 e imagens axiais pesadas em T1 e T2 com a técnica de fast spin-echo.

RESULTADOS: Os homens mostraram dimensões significativamente maiores das estruturas da faringe em relação às mulheres em todas as medidas realizadas nas imagens sagitais, com exceção do diâmetro crânio-caudal do palato mole e da espessura da gordura submentoniana. Em contraste, as imagens axiais mostraram medidas similares entre os sexos, exceto o diâmetro látero-lateral da língua que foi maior nos homens. Todas as medidas da coluna aérea das vias aéreas superiores foram semelhantes nos dois sexos.

CONCLUSÕES: Embora homens e mulheres apresentem vias aéreas superiores com dimensões similares, nas mulheres as estruturas anatômicas ao seu redor são menores, sugerindo um menor esforço para manter as vias aéreas superiores patentes no sexo feminino. Nossos resultados sugerem a existência de um fator de proteção anatômico contra o colapso das vias aéreas superiores nas mulheres.

Unitermos: Síndrome da apnéia obstrutiva do sono. Apnéia do sono. Ressonância magnética. Faringe.

INTRODUCTION

Obstructive sleep apnea syndrome is characterized by repetitive episodes of obstruction of the upper airway during sleep and is found more frequently in obese individuals, possibly due to fat deposition in some neck structures. Epidemiological studies reveal a high prevalence of the syndrome in men and obese people.

Besides the existence of functional gender-related differences regarding the pharyngeal dilator muscle activity and, therefore, the collapsibility of the pharynx,^1,2 another possible explanation for the predominance of male obstructive sleep apnea syndrome patients is the existence of anatomical differences in the upper airway . Previous studies using the acoustic reflection technique to assess the pharyngeal cross-sectional area showed that this area is significantly larger in healthy men than in healthy women in the sitting position, whereas no difference was found in recumbent positions. Pharyngeal compliance was also found to be greater in men than in women.³ However, the mechanisms responsible for the increased susceptibility of men to obstructive sleep apnea syndrome are not yet completely understood.

Imaging evaluation of pharyngeal structures has proven to be an important tool in the study of this obstructive syndrome , bringing insights into its pathophysiology and possible therapeutic approaches.^4–6 Regarding magnetic resonance imaging (MRI) of the necks of normal subjects, a larger overall soft tissue volume was found in men.⁷

In the present study, we sought to investigate upper airway anatomy of awake healthy men and women. We hypothesized that significant gender-related differences may at least in part explain the greater susceptibility of men to obstructive sleep apnea syndrome.

MATERIALS AND METHODS

Ten healthy men and 10 healthy women were prospectively evaluated by MRI after they signed informed consent forms. The protocol was reviewed and approved by the Institutional Ethics Committee.

All subjects underwent a clinical evaluation and verbally confirmed the absence of acute or chronic diseases, as well as the use of any medications. The absence of obstructive sleep apnea syndrome was assumed after observing the following criteria: a) absence of snoring; b) absence of daytime sleepiness (Epworth sleepiness scale < 10); c) absence of obstructive sleep apnea syndrome -associated conditions (hypertension, diabetes, or other cardiac diseases); and d) absence of obesity (body mass index - BMI < 30 kg/m²). Polysomnographic studies were not performed.

Men and women enrolled in the study were similar regarding their mean age (32.9 ± 7.8 years and 36.2 ± 10.5 years, respectively; P = 0.430) and BMI (24.7 ± 1.3 kg/m² and 23.7 ± 3.5 kg/m², respectively; P = 0.350).

The MRI studies were performed using the same equipment (General Electric Medical - Milwaukee, WI—1.5 Tesla). All patients were positioned in supine decubitus, with no head support, and were instructed to remain still and not to swallow, as well as to keep their mouths closed and to use soft nose breathing during the acquisition of the images. All study subjects remained awake during the exam.

Twelve to 15 sagittal images (T1 weighted; 3.0 mm thickness; 1.0 mm gap) and 20 axial images (T1 and T2 weighted; 4.0 mm thickness; 2.5 mm gap) were obtained with a fast spin-echo (FSE) pulse sequence. The most cranial axial image was programmed cranial to the hard palate; the most caudal axial image was programmed at the glottic level (Figure 1).

Repetition time (TR) and echo time (TE) for T1 weighted images were 600 msec and 20 msec respectively. The TR and TE for T2 weighted images were 3,000 msec and 90 msec respectively (number of excitations = 2; field of view = 24 cm). A cervical neurovascular coil was used. The total examination time did not exceed 10 minutes in each case.

For measuring purposes, the pharynx was schematically divided into 4 different regions: rhinopharynx, retropalatal oropharynx, retrolingual oropharynx, and hypopharynx.^8–10 The inferior limit of the rhinopharynx consisted of an imaginary horizontal line crossing the hard palate. The oropharynx was defined as the air space between the inferior limit of the rhinopharynx and an imaginary horizontal line tangential to the epiglottic tip. The hypopharynx extended from the inferior limit of the oropharynx to the esophageal transition.

A median sagittal image in which the lingual septum and the odontoid process of the second cervical vertebra were distinguished was employed for sagittal measurements.

The following sagittal measurements were obtained:

The following measurements were obtained from the axial images:

The morphology of the pharyngeal air column was also observed. Linear laterolateral (LL) and anteroposterior (AP) axial measurements were obtained at the following levels (Figure 4):

Statistical analysis included descriptive statistics and the Student t test, after checking the assumptions for the use of parametric tests, using STATA^® (Statistical Data Analysis) software, version 7.0. A P < 0.05 in 2-tailed tests was considered significant.

RESULTS

Sagittal pharyngeal measurements

The mean anteroposterior length of the tongue was significantly greater in men (7.50 ± 0.48 cm) than in women (7.00 ± 0.39 cm) (P = 0.020). The anteroposterior soft palate dimension was also greater in men (0.99 ± 0.07 cm) compared to women (0.88 ± 0.09 cm) (P = 0.009). Men also showed significantly larger distances between the hyoid bone and the posterior nasal spine (6.50 ± 0.76 cm) and between the hyoid bone and the posterior pharyngeal wall (2.89 ± 0.34 cm) compared to women (5.67 ± 0.48 cm, P = 0.009, and 2.23 ± 0.31 cm, P = 0.0003, respectively).

In summary, MR images of normal men showed a significantly greater mean sagittal pharyngeal structural dimensions compared to those obtained from MR images of normal women, with the exception of the craniocaudal length of the soft palate and the thickness of the submentonian fat (Table 1).

Axial pharyngeal measurements

Regarding the cross-sectional linear dimensions, men and women had similar mean measurements, with the exception of the laterolateral tongue length, which was greater in men (4.55 ± 0.40 cm) than in women (4.21 ± 0.30 cm) (P = 0.05) (Table 2).

Pharyngeal column cross-sectional linear measurements

All mean linear measurements of the pharyngeal air column were similar in men and women at the 4 levels considered (Table 3).

DISCUSSION

Since obstructive sleep apnea syndrome is more predominant in men overall, analyzing data from both men and women without obstructive apnea is an important starting point for better understanding of the mechanisms of the disease. It is also an stablished fact that obstructive sleep apnea syndrome is more predominant in obese subjects. Moreover, we emphasise that our study population comprised nonobese men and women. Regarding the use of linear cross-sectional pharyngeal measurements instead of area determinations, obtaining linear measurements of the pharynx has the advantage of being totally reproducible on the MRI console, on a PC, or even using conventional film. After deciding to prioritize the development of standard evaluation procedures that could be easily performed, we chose these simpler linear measurements. The disadvantages of area and volume measurements have been mentioned previously,¹¹ including the following: the need for time-consuming 3-dimensional reconstructions, high cost, and the necessity of specialized personnel for interpretation and manipulation of the data at workstations.

Most of the pharyngeal measurements were found to be significantly greater in men compared to women. These anatomical differences can, at least in part, be explained by the more massive physical structures observed in the necks of men.

The evaluation of the position of the hyoid bone is traditionally obtained via the cephalometric measurement of the distance between the most anterior and superior borders of this structure and an imaginary line that horizontally crosses the inferior border of the mandible. The so-called MP-H measurement is obtained routinely in the cephalometric evaluation of patients with obstructive sleep apnea syndrome . Neither CT scan nor MRI studies allow a direct determination of this distance. The visualization of the necessary anatomical repairs is not possible with these imaging techniques unless 3-dimensional reconstruction or a CT survey is employed. As we aimed to bring to MRI the possibility of determining the hyoid positioning in a simple and readily available manner, we have described a variation on this classical cephalometric measurement: the distance between the hyoid bone and the posterior nasal spine (H-PNS). This measurement can be easily obtained by direct sagittal MRI images and, like the MP-H value, is proportional to the size of the tongue. The greater mean distance between the hyoid bone and the posterior nasal spine observed in men possibly represents a compensatory hyoid positioning (lower and more anterior) to accommodate a larger tongue.

Despite the fact that most anatomical structures were systematically larger in awake men, pharyngeal linear air column dimensions were similar in both awake genders. No difference was found in linear cross-sectional air column measurements at any level. These data may suggest the existence in women of an anatomical protective factor against possible upper airway collapse. Therefore, although awake men and women present pharyngeal air columns with similar dimensions, in women this column is subject to compression by smaller surrounding structures, which might require less effort to keep its patency.

A previous MRI study found a greater mean cross-sectional area of the soft palate in healthy men compared to women.⁷ In our study, which is part of a general research project on obstructive apnea in out Institution¹², we measured not the palatal area, but its craniocaudal length and anteroposterior dimension. The former was similar in both sexes; however, the anteroposterior dimension of the soft palate (the palatal "thickness") was found to be greater in men. Moreover, we found no gender-related differences regarding pharyngeal air column measurements, whereas in the aforementioned study, the mean infrapalatal cross-sectional area was found to be greater in men.

We studied awake men and women, and we know the possibility of collapse of the upper airway when individuals with obstructive sleep apnea syndrome are sleeping. We did not study obese subjects without obstructive apnea, regardless of the fact that the syndrome affects predominantly those individuals. These factors could possibly have biased our study.

Received for publication on April 06, 2006.

Accepted for publication on October 16, 2006.

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