During normal sleep the tone of the pharyngeal airway dilator muscles is decreased resulting in upper airway narrowing and increased resistance to airflow. Nasal obstruction may result from a variety of anatomical abnormalities such as septal deviation, nasal polyps, adenoid hypertrophy and rhinitis such as allergic rhinitis, acute viral rhinitis, vasomotor rhinitis and non-allergic rhinitis with nasal eosinophilia syndrome. Disordered breathing during sleep can both result from and be worsened by nasal obstruction. In children, nasal obstruction due to enlarged tonsils and adenoids results in a switch to oral breathing which may lead to the adenoid faces because of changes in the craniofacial structures during growth that predispose to disordered breathing during sleep.
Lipoma of the parapharyngeal space is very rare, only three cases having been reported in the literature. A parapharyngeal space lipoma causing obstructive sleep apnoea has not been reported before. A 60-year-old man presented at the ear, nose and throat (ENT) clinic with a history of loud snoring associated with sleep apnoea secondary to a right parapharyngeal space lipoma. The causes of sleep apnoea and the radiological features of a parapharyngeal space lipoma are discussed.
Study site: ENT clinic, University Malaya Medical Centre (UMMC), Kuala Lumpur, Malaysia
An interesting case is described here in which partial airway obstruction resulted in sleep apnoea and which was relieved by adeno-tonsillectomy. Enlarged tonsils and adenoids causing upper airway obstruction represent one facet of a continuum of hypoventilation - sleep disorders and clinical examination with x-rays will help in determining patients at risk of developing these syndromes.
Congenital bony nasal stenosis (CBNS) is a very rare but life-threatening cause of airway obstruction in neonates and infants. This review aims to assess the presentation and early airway management of 4 new cases of craniosynostosis with bilateral nasal cavity stenosis. Patients were treated with endoscopic endonasal widening of the nasal cavity and stenting. All patients were extubated well post-operatively with resolution of symptoms. They remained asymptomatic with stents in situ for at least 6 months with no complications reported. Minimally invasive endoscopic endonasal widening of the nasal cavity with stenting is an effective and safe way of addressing nasal cavity stenosis.