L.H. Fisher

Efficacy of the topical nasal steroid budesonide on improving sleep and daytime somnolence in patients with perennial allergic rhinitis

Background:  Improving quality of life is considered to be a major endpoint and motivation for clinical intervention in patients with perennial allergic rhinitis (PAR). In addition to classical symptoms of congestion, pruritus, and rhinorrhea, patients will often complain of not being able to sleep well at night and of feeling fatigued during the day. Like sleep apnea, PAR has also been shown to cause sleep disturbance and consequently worsen daytime fatigue and somnolence.

Effects of poor sleep in allergic rhinitis.

Purpose of reviewAllergic rhinitis affects a large portion of the population. These patients often suffer from daytime fatigue, both as a result of the mechanics of the nasal airway in patients with allergic rhinitis as well as through central effects on sleep by immune mediators. By understanding these mechanisms and by becoming familiar with effective treatments for allergic rhinitis that are beneficial in alleviating rather than worsening daytime somnolence, physicians may improve patient quality of life. Recent findingsChildren with rhinitis and snoring have poorer school performance compared with controls. The role of rhinitis in chronic fatigue remains controversial despite an increase in literature on this subject. The role of immune mediators on rhinitis and sleep is evolving as well. Nasal steroids effectively treat rhinitis and improve daytime fatigue. Second-generation antihistamines are preferred to first-generation antihistamines based on efficacy and safety studies. SummaryUnderstanding the relationship between rhinitis in sleep abnormalities and subsequent daytime fatigue is still developing. Nasal steroids are the mainstay of treatment, but the role of future agents is promising although undefined. Abbreviation REM: rapid eye movement.

Asthma and the diver

Self-contained underwater breathing apparatus (scuba) diving has grown in popularity, with nearly 9 million sport divers in the United States alone. Approximately 7% of the population has been diagnosed with asthma, which is similar to the percentage of divers admitting they have asthma. Numerous concerns exist regarding subjects with asthma who choose to participate in recreational diving. Among these concerns are pulmonary barotrauma, pneumomediastinum, pneumothorax, arterial gas embolism, ear barotrauma, sinus barotrauma, and dental barotrauma. Despite these concerns, a paucity of information exists linking asthma to increased risk of diving complications. However, it has long been the norm to discourage individuals with asthma from participating in recreational scuba diving. This article examines the currently available literature to allow for a more informed decision regarding the possible risks associated with diving and asthma. It examines the underlying physiological principles associated with diving, including Henry’s law and Boyle’s law, to provide a more intimate understanding on physiological changes occurring in the respiratory system under compressive stress. Finally, this article offers a framework for guiding the patient with asthma who is interested in scuba diving. Under the right circumstances, the patient with asthma can safely participate in recreational diving without apparent increased risk of an asthma-related event.

Nasal obstruction, the airway, and the athlete.

Rhinitis is a common condition that affects a significant proportion of the general population, as well as a high proportion of athletes. Nasal congestion is a predominate symptom of the late-phase reaction in allergic rhinitis and can have far-reaching effects that extend through the airway and beyond the nose. Rhinitis is often found in conjunction with asthma and is a risk factor for asthma. Nasal obstruction, which does not permit conditioning of inspired air by the nasal turbinates, may contribute to asthma symptoms and the development of asthma. These adverse conditions may be especially troublesome for the high-performance athlete who has increased nasal airflow turbulence and who competes under extreme conditions that may worsen rhinitis and asthma. Under the theory of the unified airway, an immune response induced in the nose may extend into the lungs via cytokines and other inflammatory mediators. Nasal congestion can significantly contribute to sleep dysfunction, leading to daytime fatigue and decreased performance. Treatment of allergic rhinitis can improve sleep and foster productivity. Control of rhinitis and nasal congestion, which is obtained by various therapies, may reverse lower airway tendency to bronchoconstriction.