Currently, mandibular advancement devices (MAD) are recommended by the American Academy of Sleep Medicine (AASM) as the first treatment a line in cases of mild and moderate OSAS in patients without severe cardiovascular comorbidity and in severe OSAS when treatment with CPAP fails or is rejected. Although oral appliances (OD) have less impact on AHI reduction, both treatments have been shown to have a similar impact on clinical outcomes, including symptomatology and cardiovascular outcomes. In addition, MAD is a treatment that is better tolerated by patients, which results in greater compliance on their part, and therefore a similar efficacy in clinical practice. Its mechanism of action consists of maintaining the patency of the upper airway, preventing collapse. They act by correcting the anatomical imbalance of patients with OSAS, specifically stabilizing and increasing the space of the velopharyngeal airways, reducing their collapsibility. However, the effectiveness of the treatment of this pathology using MAD is limited by the inter-individual preference of the results of the treatment and the lack of information in the correct selection of the appropriate patients. In fact, oral appliances are an effective treatment for 60-70% of patients. Therefore, the precise selection of patients is essential to optimize the results of MAD treatment and thus avoid the necessary costs. This justifies the need to identify phenotypes likely to predict response to MAD treatment.
Study Type
OBSERVATIONAL
Enrollment
75
To analyze the phenotypic characteristics of different subgroups of patients with obstructive sleep apnea syndrome who respond better (complete responders) or worse (partial responders or non-responders) to treatment with mandibular advancement devices. Responders will be defined as a post-treatment AHI of less than 10/h and at least a 50 percent reduction in their AHI. Partial responders will be defined as a post-treatment AHI greater than 10/hour but at least a 50 percent reduction in AHI, and non-responders as less than a 50 percent reduction compared to baseline.
Gender
Male or Female
Time frame: 1 day
Age
Age described as "years and months". The age of the patients at the beginning of the study
Time frame: 1 day
Body mass index
Weight and height will be combined to report BMI in kg/m\^2. The body mass index at the beginning of the study.
Time frame: 1 day
Epworth Daytime Sleepiness Scale
The ESS is a self-administered questionnaire that evaluates sub- jective daytime sleepiness in quotidian situations. The score ranges from 0 to 24 and is usually elevated in sleep apnea patients, indicating a propensity to fall asleep. An ESS score above 10 is considered abnormal and a maximum score of 24 indicates severe somnolence.
Time frame: 1 day
Anatomical characteristics
Craniofacial and airway features from cone beam computed tomography. (eg. maxillary length (mm), mandibular length (mm), anterior facial height (mm), posterior facial height (mm), distance between hyoid bone and mandibular plane (mm), distance between retrognation point and mandibular plane (mm), upper airway length (mm), superior airway space (mm) and inferior airway space (mm)).
Time frame: 12 months
apnea - hypopnea index
number of apnea and hypopnea per hours of sleep before and after the device's placement.
Time frame: 6 months
minimum oxygen saturation
It is the minimum oxyhemoglobin saturation during a sleep study. Expressed in %.
Time frame: 6 months
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.