OSA Clinical Trial
Official title:
Fractional Exhaled Nitric Oxide and CRP Levels in Egyptian Patients With Obstructive Sleep Apnea Syndrome
Obstructive sleep apnea syndrome (OSAS) was associated with upper and lower respiratory tract
inflammation, Fractional exhaled nitric oxide (FeNO) proposed as a marker of airway
inflammation, few studies were done on the impact of continuous positive airway pressure
(CPAP) on FeNO.
Aim of the work: to study the impact of continued positive airway pressure therapy on exhaled
NO and using Hs-CRP as a marker of inflammation in obstructive sleep apnea syndrome.
Patient and Methods: This study is a case-control study including participants were newly
diagnosed as OSAS and control recruited from sleep outpatient clinic, full night PSG was
done, fractional exhaled nitric oxide and Hs-CRP were measured next morning of PSG, CPAP for
moderate to severe OSA patient was advised with measurement of FeNO and Hs-CRP after 3months
of CPAP Keywords: FeNO; Hs-CRP; CPAP; OSA. This research did not receive any specific grant
from funding agencies in the public, commercial, or not-for-profit sectors.
This study is a prospective 3 months follow up study including only (27) participants as a
convenient sample for the cost limitations newly diagnosed as OSA and (10) healthy control.
inclusion characters All participants enrolled in this study
1. were ≥ 18 years old,
2. non-smokers and
3. excluded from any inflammatory disorders (allergy, bronchial asthma, gastro-esophageal
reflux disease, cardiovascular diseases, and cerebrovascular diseases) or use of any
regular medication including (nasal/inhaled/oral corticosteroids, antihistaminic,
cysteinyl leukotriene receptor inhibitors), or
4. had an upper or lower respiratory tract infection 2 weeks prior to sampling. Control
healthy subjects were also free from any sleep disorders symptoms. Cases were recruited
from Sleep-disordered breathing unit out Patient Clinic in pulmonary medicine department
- Mansoura University - Egypt. All participants in this study were evaluated by history
taking with stress on OSAS questionnaires, anthropometric parameters measurement and
spirometric pulmonary function (FEV1, FVC and FEV1/FVC ) all patients were subjected to
laboratory, attended, full-night polysomnography using (SONMOscreenTMplus, SOMNOmedics,
(Germany) with AASM standard montage, This included a standardized montage: two-channel
electroencephalograms (EEG; C4/A1, C3/A2), bilateral electrooculogram (EOG), submental
electromyogram (EMG), bilateral leg EMGs, and electrocardiography (ECG). Airflow was
measured using a thermistor (Healthdyne Technologies), the respiratory effort was
assessed by inductance plethysmography and oxygen saturation was recorded using a finger
probe. The oxygen saturation signal was digitally sampled at 1 Hz and stored both on the
PSG record and in a separate monitor for offline analysis.
studies were interpreted according to the last manual scoring criteria. The cases were
diagnosed as severe OSA according to the third international classification of sleep
disorders. Then they were classified according to apnea-hypopnea index (AHI) into two main
groups: cases (AHI ≥5) (n=) and control (AHI˂5) (n=10). Cases were classified into two
subgroups into severe OSA (AHI ≥ 30) (n=34) and moderate OSA (AHI (15-30) mild (n=10).
On the next morning of the study 30 min after PSG, the blood sample was collected for
measuring of high sensitivity C- reactive protein (HS-CRP) by (The Immunospec Hs-CRP) ELISA,
based on the principle of a solid phase enzyme-linked immunosorbent assay [15]. The assay
system utilizes a unique monoclonal antibody directed against a distinct antigenic
determinant on the CRP molecule.
1. fractional exhaled nitric oxide (FeNO) measurement: was measured by (NO breath®FeNO
monitor-Bedfont scientific Ltd) according to international recommendations [16], with a
single breath online method at constant flow of 50 mL/s or 12 seconds of exhalation of
adults with a sensitivity of one part per billion (ppb) Calibration of the analyzer was
automatically performed by the software. Briefly, after inhaling to total lung capacity,
the subjects exhaled through a mouthpiece into an exhalation circuit. All subjects were
asked to stop eating, drinking, and strenuous exercise for two hours prior to FeNO
measurement.
2. CPAP therapy and follow up: 22 of 27 patients with moderate and severe OSA were advised
to use CPAP therapy after full-night CPAP titration study in accordance with AASM
recommendations [17]Preliminary education and adaptation for CPAP was performed 1hour
prior to the beginning of CPAP titration.
An optimal titration study was defined as one in which an optimal CPAP pressure was
reached that normalizes the AHI and eliminates snoring, desaturation, and arousals, and
restores a normal flow contour [17] adjusted prescribed CPAP pressure after titration
was administered during sleep for at least five hours per night, for at least five days
per week for three consecutive months.
3. follow up sessions after CPAP therapy: were adjusted 1,2 and 3 months after starting
CPAP therapy for evaluation of patients response and compliance to CPAP, Adherence to
the CPAP therapy was evaluated after revision of the download information from the CPAP
device.
Adherence was defined as CPAP use for an average of 4 h on
≥ 70% of the nights.
4. (FeNO) was also measured in the three follow up visit with CPAP follow up, however, BMI,
spirometric pulmonary function(FEV1, FVC, and FEV1/FVC ) and high sensitivity C-
reactive protein (HS-CRP) were measured after 3 months in last follow up visit of the
study.
Five patients from 27 were lost in follow up sessions because they did not use CPAP.
Then data were analyzed using SPSS version 16 for Windows® (SPSS Inc, Chicago, IL, USA).
Qualitative variables were presented as numbers and percentages. Chi-square test or Fisher
exact test of significance was for comparison between groups, as appropriate. Quantitative
variables were presented as mean ±SD. They were tested for normality distribution by the
Kolmogorov-Smirnov test. In normally distributed variables unpaired t-test (t) was used. In
abnormally distributed variables independent Mann-Whitney test (Z) was used. P-value ≤0.05
was considered statistically significant. For the detection of cut off points, we use the
receiver operating characteristic (ROC) curve. Sensitivity, Specificity values were used for
studying the selected cut off point for validation as a screening tool.
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