WHAT'S KNOWN ON THIS SUBJECT: Sleep disturbance affects 47% to 60% of children with atopic dermatitis and is a leading cause of impaired quality of life for the patients and their family. WHAT THIS STUDY ADDS:Sleep disturbance in children with atopic dermatitis can be predicted by a Scoring Atopic Dermatitis index of $48.7, and lower nocturnal melatonin secretion might play a role in the pathophysiology. abstract BACKGROUND AND OBJECTIVES: Sleep disturbance is common in patients with atopic dermatitis (AD). However, studies have largely been questionnaire-based, and the pathophysiology remains unclear. The aims of this study were to determine objective characteristics of sleep disturbance in children with AD and explore contributing factors and clinical predictors.METHODS: Sleep parameters were measured by actigraphy and polysomnography in 72 patients with AD and 32 controls ages 1 to 18 years. Urinary 6-sulfatoxymelatonin levels, serum cytokines, and total and allergen-specific immunoglobulin E (IgE) levels were also measured. RESULTS:The patients with AD had significantly reduced sleep efficiency, longer sleep onset latency, more sleep fragmentation, and less nonrapid eye movement sleep. Results from actigraphy correlated well with those from polysomnography. The AD disease severity was associated with sleep disturbance (r = 0.5520.7), and a Scoring Atopic Dermatitis index of $48.7 predicted poor sleep efficiency with a sensitivity of 83.3% and a specificity of 75% (area under the curve = 0.81, P = .001). Lower nocturnal melatonin secretion was significantly associated with sleep disturbance in the patients with AD. Other correlates of sleep disturbance included pruritus, scratching movements, higher total serum IgE levels, and allergic sensitization to dust mite and staphylococcal enterotoxins. CONCLUSIONS:Poor sleep efficiency is common in children with AD and can be predicted by the Scoring Atopic Dermatitis index. Melatonin and IgE might play a role in the sleep disturbance. Further studies are required to explore the mechanisms and clinical implications, and actigraphy could serve as a useful evaluating tool. Atopic dermatitis (AD) is a common chronically relapsing pruritic inflammatory skin disease. 1 Disturbed sleep is frequently reported by the patients and their family and is a major factor leading to an impaired quality of life. [2][3][4] Sleep disturbance can have many negative consequences, including impaired neurocognitive function, higher rates of behavioral problems, and changes in mood. 5,6 Therefore, the recognition and proper management of sleep disturbance should be an important issue in AD.The sleep disturbance in AD might be due to the pruritus and scratching movements during sleep, 7-10 but it is likely that other factors are involved. 11 Melatonin is a hormone secreted by the pineal gland that is essential for regulating the circadian rhythm. 12 Dysfunction in the diurnal secretion of melatonin in patients with AD has been reported, 13 but its association with their sleep disturbance has...
IMPORTANCE Sleep disturbance is common in children with atopic dermatitis (AD), but effective clinical management for this problem is lacking. Reduced levels of nocturnal melatonin were found to be associated with sleep disturbance and increased disease severity in children with AD. Melatonin also has sleep-inducing and anti-inflammatory properties and therefore might be useful for the management of AD. OBJECTIVE To evaluate the effectiveness of melatonin supplementation for improving the sleep disturbance and severity of disease in children with AD. DESIGN, SETTING, AND PARTICIPANTS This randomized clinical trial used a double-blind, placebo-controlled crossover design to study 73 children and adolescents aged 1 to 18 years with physician-diagnosed AD involving at least 5% of the total body surface area. The study was conducted at the pediatric department of a large tertiary care hospital in Taiwan from August 1, 2012, through January 31, 2013. Forty-eight children were randomized 1:1 to melatonin or placebo treatment, and 38 of these (79%) completed the cross-over period of the trial. Final follow-up occurred on April 13, 2013, and data were analyzed from January 27 to April 25, 2014. Analyses were based on intention to treat. INTERVENTIONS Melatonin, 3 mg/d, or placebo for 4 weeks followed by a 2-week washout period and then crossover to the alternate treatment for 4 weeks. MAIN OUTCOMES AND MEASURES The primary outcome was AD severity evaluated using the Scoring Atopic Dermatitis (SCORAD) index, with scores ranging from 0 to 103 and greater scores indicating worse symptoms. Secondary outcomes included sleep variables measured by actigraphy, subjective change in sleep and dermatitis, sleep variables measured by polysomnography, nocturnal urinary levels of 6-sulfatoxymelatonin, and serum IgE levels. RESULTS After melatonin treatment among the 48 children included in the study, the SCORAD index decreased by 9.1 compared with after placebo (95% CI, −13.7 to −4.6; P < .001), from a mean (SD) of 49.1 (24.3) to 40.2 (20.9). Moreover, the sleep-onset latency shortened by 21.4 minutes after melatonin treatment compared with after placebo (95% CI, −38.6 to −4.2; P = .02). The improvement in the SCORAD index did not correlate significantly with the change in sleep-onset latency (r = −0.04; P = .85). No patient withdrew owing to adverse events, and no adverse event was reported throughout the study. CONCLUSIONS AND RELEVANCE Melatonin supplementation is a safe and effective way to improve the sleep-onset latency and disease severity in children with AD. TRIAL REGISTRATION clinicaltrials.gov Identifier: NCT01638234
The cellular events that serve to regulate lung mucosal Th2 responses and limit allergic inflammatory reactions are unclear. Using the DO11.10 TCR transgenic mouse, we developed a model of T cell-mediated pulmonary inflammation and demonstrated that high levels of PGI2 are produced in the airways following OVA inhalation. Selective inhibition of cyclooxygenase-2 in vivo specifically reduced PGI2 synthesis and resulted in a marked increase in Th2-mediated, but not Th1-mediated, lung inflammation. The elevated Th2-mediated inflammatory response elicited by the cyclooxygenase-2 inhibitor was associated with enhanced airway hyperreactivity and was coincident with a marked increase in the levels of IL-4, IL-5, and IL-13 in the airways, but a reduction in IL-10 production. In keeping with these observations, we found that the mRNA for the PGI2 receptor was expressed by Th2, but not Th1, cells, and transcripts for the PGI2 receptor were induced by IL-4 and OVA peptide stimulation. Interestingly, treatment with PGI2 or its stable analog, carbaprostacyclin, augmented IL-10 production by Th2 cells. Collectively, our findings reveal a key role for PGI2 in differentially limiting Th2 responses, possibly by promoting production of the immunosuppressive cytokine IL-10 at the site of allergic lung inflammation. These results indicate an important role for prostanoids generated during inflammation in regulating mucosal T cell responses and highlight a potential risk in the use of cyclooxygenase-2-specific inhibitors by allergic asthmatics.
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