Sleep Apnea, Obstructive Clinical Trial
Official title:
The Phenotyping and Genotyping of Taiwanese Patients With Obstructive Sleep Apnea
The growing evidence showed that the OSA is a heritable complex genetic disease where the
genetic basis contributed the development of OSA and its sequel. The phenotyping of OSA
include high level and intermediate level. The former indicates the AHI, and later includes
craniofacial morphology, ventilator control, obesity, and sleepiness vulnerability.
Many studies tried to determine the association of candidate genes with OSA through
association studies. However, the results were conflicting. We identified 37 candidate genes
involved in six biologic pathways of OSA reported in previous literatures, including
oxidative phosphorylation, cell signaling, apoptosis, cellular adhesion and motility, cell
cycle, and cytokine/chemokine.
To investigate the association between phenotype and genotype of OSA, we conducted this
cross-sectional study by recruiting the patients of moderate-severe OSA (index proband) and
their first and second-degree family members, and friends and their family members (control
family) and using candidate genes reported in the literature and whole genome SNP array for
genotype approach.
Obstructive sleep apnea (OSA) is characterized with recurrent collapse of upper airway
during sleep resulting in hypoxia and sleep fragmentation. Patients of OSA might have
symptoms like snoring, non-restorative sleep, witnessed apnea, and excessive daytime
sleepiness. Currently, polysomnography is the gold standard for diagnosing OSA and the
apnea-hypopnea index (AHI) is the parameters to indicate the severity of OSA. However, AHI
poorly correlated with clinical severity of OSA, where the symptoms of patients with the
identical AHI could vary from minimal to striking. The sequels of OSA include cardiovascular
diseases, metabolic disorders, and neurocognitive dysfunctions. Till now, continuous
positive airway pressure (CPAP) is the standard treatment for OSA where it can effectively
improve daytime sleepiness, blood pressure, metabolic abnormalities, and quality of life,
especially in patients with daytime sleepiness.
The growing evidence showed that the OSA is a heritable complex genetic disease where the
genetic basis contributed the development of OSA and its sequel. The phenotyping of OSA
include high level and intermediate level. The former indicates the AHI, and later includes
craniofacial morphology, ventilator control, obesity, and sleepiness vulnerability. Many
studies tried to determine the association of candidate genes with OSA through association
studies. However, the results were conflicting. To clarify the influence of genotyping on
phenotyping, we reported a Chinese family with congenital central hypoventilation syndrome
(CCHS) that had a clinical spectrum ranging from newborn fatality to adulthood. Genetic
analysis was used to confirm the presence of the PHOX2B expansion mutation. Moreover, to
clarify the association between ACE I/D polymorphisms and OSA, we undertook a meta-analysis
on all studies published in this area. It has not demonstrated an association between the
ACE I/D polymorphism and OSA susceptibility irrespective of ethnicity, population sample or
the presence/absence of co-morbid hypertension.
Nowadays, a couple of studies tried to genome-wide profiled the candidate genes involved in
the biologic pathway of OSA. The whole genome scan identified chromosomes 2p 及19p and
chromosomes 8q was associated with AHI in Caucasian and African American, respectively,
which is independent of BMI. Also, the whole genome SNP array identified candidate genes
associated with OSA as C-reactive protein (C-RP) and glial cell line-derived neurotrophic
factor (GDNF) in European Americans and rs9526240 within serotonin receptor 2a (HTR2A) in
African Americans. We identified 37 candidate genes involved in six biologic pathways of OSA
including oxidative phosphorylation, cell signaling, apoptosis, cellular adhesion and
motility, cell cycle, and cytokine/chemokine. Furthermore, three models were constructed to
predict the sequel and response to 4-week and 12-week CPAP treatment, respectively.
Since the presentations of OSA are different among races, hence database of Taiwanese
patients with OSA is urgently needed to clarify molecular mechanisms. Through recruiting the
patients of moderate-severe OSA (index proband) and their first and second-degree family
members, and friends and their family members (control family) and via candidate genes
reported in the literature and whole genome SNP array, this project aims to achieves
following goals (1) Investigating the phenotyping and familial aggregation of OSA (2)
Investigating the association of genotyping on phenotyping of OSA (3) Investigating the
candidate genes and the involved biologic pathways of OSA. The anticipated contributions of
the results include (1) Highlighting the promise of patient-tailored management (2)
Establishing an invaluable database of phenotyping and genotyping of OSA for future research
(3) Promoting production of biotechnology patent and business.
;
Observational Model: Family-Based, Time Perspective: Cross-Sectional
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