'Personalized medicine': phenotyping pediatric obstructive sleep apnea.

PURPOSE OF REVIEW: Obstructive sleep apnea (OSA) is common in children. Phenotyping pediatric OSA has a crucial role in personalized diagnosis and treatment to improve outcomes for this population. This review sets forth a clinical approach that allows for phenotyping pediatric OSA. RECENT FINDINGS: The emerging concept of phenotyping pediatric OSA is based on identifying a primary cause, which leads to a more precise understanding of the pathogenesis in any individual patient. Phenotyping enables treatment focusing on the primary cause, but does not exclude the need for supplemental management strategies based on other recognizable traits. The identification of pediatric OSA phenotypes (POP) relies on observable characteristics with significant prevalence. This review will concentrate on the most important phenotypes seen in clinical practice: pediatric OSA with craniofacial abnormalities (POPCA); OSA with upper airway disease (POPUAD); OSA with obesity (POPO), and OSA associated with neuromuscular disease (POPNED). SUMMARY: Phenotyping pediatric OSA is a form of personalized medicine. By identifying clinical subtypes, individualized treatment plans can be devised in order to choose therapies that are associated with predictable responses. Moreover, it is rare that a therapeutic modality is devoid of possible complications; knowledge of the phenotype being treated can enable early intervention should those occur. Finally, all of the aforementioned phenotypes require personalized support incorporating individualized care plans so as to optimize the quality of life and overall sleep health of children with OSA.

A comprehensive study on the efficacy of a wearable sleep aid device featuring closed-loop real-time acoustic stimulation.

Difficulty falling asleep is one of the typical insomnia symptoms. However, intervention therapies available nowadays, ranging from pharmaceutical to hi-tech tailored solutions, remain ineffective due to their lack of precise real-time sleep tracking, in-time feedback on the therapies, and an ability to keep people asleep during the night. This paper aims to enhance the efficacy of such an intervention by proposing a novel sleep aid system that can sense multiple physiological signals continuously and simultaneously control auditory stimulation to evoke appropriate brain responses for fast sleep promotion. The system, a lightweight, comfortable, and user-friendly headband, employs a comprehensive set of algorithms and dedicated own-designed audio stimuli. Compared to the gold-standard device in 883 sleep studies on 377 subjects, the proposed system achieves (1) a strong correlation (0.89 ± 0.03) between the physiological signals acquired by ours and those from the gold-standard PSG, (2) an 87.8% agreement on automatic sleep scoring with the consensus scored by sleep technicians, and (3) a successful non-pharmacological real-time stimulation to shorten the duration of sleep falling by 24.1 min. Conclusively, our solution exceeds existing ones in promoting fast falling asleep, tracking sleep state accurately, and achieving high social acceptance through a reliable large-scale evaluation.

Personalized Medicine and Obstructive Sleep Apnea.

Obstructive sleep apnea (OSA) is a common disease that is often under-diagnosed and under-treated in all ages. This is due to differences in morphology, diversity in clinical phenotypes, and differences in diagnosis and treatment of OSA in children and adults, even among individuals of the same age. Therefore, a personalized medicine approach to diagnosis and treatment of OSA is necessary for physicians in clinical practice. In children and adults without serious underlying medical conditions, polysomnography at sleep labs may be an inappropriate and inconvenient testing modality compared to home sleep apnea testing. In addition, the apnea-hypopnea index should not be considered as a single parameter for making treatment decisions. Thus, the treatment of OSA should be personalized and based on individual tolerance to sleep-quality-related parameters measured by the microarousal index, harmful effects of OSA on the cardiovascular system related to severe hypoxia, and patients' comorbidities. The current treatment options for OSA include lifestyle modification, continuous positive airway pressure (CPAP) therapy, oral appliance, surgery, and other alternative treatments. CPAP therapy has been recommended as a cornerstone treatment for moderate-to-severe OSA in adults. However, not all patients can afford or tolerate CPAP therapy. This narrative review seeks to describe the current concepts and relevant approaches towards personalized management of patients with OSA, according to pathophysiology, cluster analysis of clinical characteristics, adequate combined therapy, and the consideration of patients' expectations.