key: cord-0021139-o5gc9ujk authors: Zhang, Fengying; Wu, Xijiang; Duan, Wenping; Wang, Fangfang; Huang, Tingting; Xiang, Meiling title: Influencing Factors of Daytime Sleepiness in Patients with Obstructive Sleep Apnea Hypopnea Syndrome and Its Correlation with Pulse Oxygen Decline Rate date: 2021-09-13 journal: Evid Based Complement Alternat Med DOI: 10.1155/2021/6345734 sha: 4dbd1f89cd0bd017dc3db7974e1fa392abdcba5c doc_id: 21139 cord_uid: o5gc9ujk OBJECTIVE: To explore the influencing factors of daytime sleepiness in patients with obstructive sleep apnea hypopnea syndrome (OSAHS) and the correlation between daytime sleepiness and pulse oxygen decline rate in patients with severe OSAHS. METHODS: From January 2018 to April 2021, 246 consecutive patients with OSAHS diagnosed by polysomnography (PSG) in our hospital were selected. All patients were grouped according to the minimum nocturnal oxygen saturation and apnea hypopnea index (AHI). There were 33 cases in the no sleep hypoxia group, 34 cases in the mild hypoxia group, 119 cases in the moderate hypoxia group, and 60 cases in the severe hypoxia group. There were 30 cases in the simple snoring group, 55 cases in the mild OSAHS group, 48 cases in the moderate OSAHS group, and 113 cases in the severe OSAHS group. The Epworth Sleepiness Scale (ESS) scores of each group were compared. All patients were grouped according to ESS score. Those with score ≥9 were included in the lethargy group (n = 118), and those with score ≤10 were included in the no lethargy group (n = 128). Univariate and multivariate logistic regression analyses were used to explore the influencing factors of daytime sleepiness in OSAHS patients. Pearson correlation analysis showed the correlation between ESS score and pulse oxygen decline rate in patients with severe OSAHS. RESULTS: The ESS score of the severe hypoxia group > the moderate hypoxia group > the mild hypoxia group > the no sleep hypoxia group. There was significant difference among the groups (F = 19.700, P < 0.0001). There were significant differences between the severe hypoxia group and other groups and between the moderate hypoxia group and the no sleep hypoxia group and the mild hypoxia group (P < 0.05). The ESS score of the severe OSAHS group > the moderate OSAHS group > the mild OSAHS group > the simple snoring group. There was significant difference among the groups (F = 19.000, P < 0.0001). There were significant differences between the severe OSAHS group and other groups and between the moderate OSAHS group and the simple snoring group (P < 0.05). Univariate analysis showed that BMI, neck circumference, snoring degree, total apnea hypopnea time, AHI, micro arousal index (MAI), oxygen saturation (CT90%), lowest oxygen saturation (LSaO2), and mean oxygen saturation (MSaO2) were the influencing factors of daytime sleepiness in OSAHS patients (P < 0.05). Multiple logistic regression analysis showed that AHI and CT90% were independent risk factors for daytime sleepiness in OSAHS patients (P < 0.05). Pearson correlation analysis showed that there was a positive correlation between ESS score and pulse oxygen decline rate in patients with severe OSAHS (r = 0.765, P < 0.0001). CONCLUSION: OSAHS patients may be accompanied by daytime sleepiness in varying degrees, which may be independently related to AHI and CT90%. The degree of daytime sleepiness in patients with severe OSAHS may be closely related to the decline rate of pulse oxygen, which should be paid great attention in clinic. Adult obstructive sleep apnea hypopnea syndrome (OSAHS) is a sleep disordered breathing disease in which patients are in a state of hypopnea or have apnea more than 30 times during continuous 7 h night sleep, or patients are in a state of hypopnea or have apnea more than 5 times/h [1] . e main clinical manifestations of this disease are excessive sleepiness, decreased memory and attention, even cognitive dysfunction or behavioral abnormalities in the daytime, irregular snoring and loud snoring, apnea, frequent hypoxemia caused by hypopnea, wakefulness, and sleep disorders during sleep at night [2, 3] . e affected patients vary widely, with single or multiple symptoms, or no symptoms at all. Existing studies have shown that OSAHS, as a systemic disease, is closely related to cardiovascular events such as hypertension, diabetes, coronary heart disease, arrhythmia, and heart failure, and its consequences also include increased risks of sudden death, work-related accidents, and traffic accidents caused by sleep disorders and cardiovascular events [4] [5] [6] . Clinical examination and a typical history are used to diagnose the disease. According to relevant statistics, body mass index (BMI) ≥ 28 kg/m 2 , age increase, menopause, upper airway anatomical structure abnormalities, long-term smoking, long-term heavy drinking, and family history of OSAHS are all important inducers or risk factors for OSAHS [7, 8] . Recent studies have also shown that longterm chronic hypoxia is an important mechanism leading to daytime sleepiness, and repeated intermittent hypoxemia at night is the main determinant of daytime sleepiness in OSAHS patients, and for some OSAHS patients with severe obstructive apnea, arterial oxygen saturation is low when they are awake, therefore, daytime sleepiness with higher performance [9, 10] . At present, studies on the correlation between nocturnal intermittent hypoxia and daytime sleepiness in OSAHS mostly focus on the severity, duration, and frequency of hypoxia. Pulse oxygen decline rate is an important parameter reflecting the severity of hypoxemia, which represents the rate of deoxygenation saturation during apnea. Research [11] shows that when apnea occurs, the rapidly decreasing blood oxygen saturation can easily lead to serious mismatch of ventilation and blood perfusion ratio and lead to multiple organ injury. Based on this, it is of great clinical value to study the influencing factors of daytime sleepiness and its correlation with nocturnal hypoxemia in patients with OSAHS, and as a new sleep monitoring index, pulse oxygen decline rate should receive more attention. is study explored the influencing factors of daytime sleepiness in patients with OSAHS and further explored the correlation between pulse oxygen decline rate and daytime sleepiness in patients with severe OSAHS. See the report for details. From January 2018 to April 2021, 246 consecutive patients who underwent polysomnography (PSG) and were diagnosed as OSAHS in our hospital were selected. e diagnostic criteria of OSAHS and the disease classification of nocturnal minimum oxygen saturation and apnea-hypopnea index (AHI) referred to the international classification of sleep disorders [12] . See Table 1 for details. Patients accompanied by sleepiness, snoring, dry mouth, and other symptoms; aged 18-70 years old; with blood pressure <180/110 mmHg; with AHI > 5 times/h; with normal self-care ability and cognitive function; and with PSG monitoring signal integrity were included. Patients combined with narcolepsy or insomnia; complicated with serious or unstable basic medical diseases; complicated with mental disorders; and with longterm use history of sedatives and antidepressants and recent use history of excitatory drugs and patients with cerebrovascular diseases such as head injury, epilepsy, intracerebral hemorrhage, cerebral thrombosis, and brain tumor and complicated with infection and metabolic poisoning were excluded. Indexes. All patients were monitored with German somno multichannel sleep monitor for more than 7 h at night. e observation indexes included total apnea hypopnea time, maximum apnea time, AHI, micro arousal index (MAI), oxygen saturation (CT90%), minimum blood oxygen saturation (LSaO 2 ), and mean blood oxygen saturation (MSaO 2 ). e data analysis was completed according to the OSAS diagnosis and treatment guidelines of the American Academy of Sleep Medicine [13] . All patients were grouped according to the minimum nocturnal oxygen saturation and AHI. ere were 33 cases in the no sleep hypoxia group, 34 cases in the mild hypoxia group, 119 cases in the moderate hypoxia group, and 60 cases in the severe hypoxia group. ere were 30 cases in the simple snoring group, 55 cases in the mild OSAHS group, 48 cases in the moderate OSAHS group, and 113 cases in the severe OSAHS group. e Epworth Sleepiness Scale (ESS) scores of each group were compared. All patients were grouped according to ESS score. ose with score >10 were included in the lethargy group (n � 118)/47.97%, and those with score ≤10 were included the no lethargy group (n � 128)/52.03%. e general information of all patients was collected, and the influencing factors of daytime sleepiness in OSAHS patients were discussed by univariate and multivariate logistic regression analysis. Pearson correlation analysis showed the correlation between daytime sleepiness and nocturnal hypoxemia (ESS score and pulse oxygen decline rate) in patients with severe OSAHS. Analysis of pulse oxygen decline rate: the time from the starting point of blood oxygen saturation decline to its lowest point was calculated as Δt. e amplitude of pulse oxygen decrease at this time point was ΔSpO2 ∘ ΔSpO2/Δt (%/s); it was used to represent the desaturation rate per unit time, which is the pulse oxygen decline rate [14] . Methods. SPSS22.0 software was used for processing. All measurement data were in accordance with normal distribution, expressed in (x ± s), analysis of variance was used for intergroup comparison, and t-test was used for pairwise comparison. Categorical variable data and descriptive analysis were expressed in (%) and implemented χ 2 inspection. e significant factors in univariate analysis were analyzed by multiple logistic regression model. Pearson correlation analysis was used for correlation analysis. When P < 0.05, there was significant difference between them. e ESS score of the severe hypoxia group > the moderate hypoxia group > the mild hypoxia group > the no sleep hypoxia group. ere was significant difference among the groups (F � 19.700, P < 0.0001). ere were significant differences between the severe hypoxia group and other groups and between the moderate hypoxia group and the no sleep hypoxia group and the mild hypoxia group (P < 0.05). e ESS score of the severe OSAHS group > the moderate OSAHS group > the mild OSAHS group > the simple snoring group. ere was significant difference among the groups (F � 19.000, P < 0.0001). ere were significant differences between the severe OSAHS group and other groups and between the moderate OSAHS group and the simple snoring group (P < 0.05), as seen in Figure 1 . e results showed that BMI, neck circumference, snoring degree, total apnea hypopnea time, AHI, MAI, CT90%, LSaO 2, and MSaO 2 were the influencing factors of daytime sleepiness in OSAHS patients (P < 0.05), as seen in Table 2 . e results showed that AHI and CT90% were independent risk factors of daytime sleepiness in OSAHS patients (P < 0.05), as seen in Tables 3-4 . Decline Rate in 113 Patients with Severe OSAHS. Pearson correlation analysis showed that there was a positive correlation between ESS score and pulse oxygen decline rate in patients with severe OSAHS (r � 0.765, P < 0.0001), as seen in Figure 2 Daytime sleepiness refers to patients' uncontrollable sleep tendency during the day. Its incidence is high in OSAHS patients, up to 30.9-69.3%, which has an adverse impact on patients' spirit, cognitive function, quality of life, and work efficiency [15] . In this study, the incidence of daytime sleepiness was 47.97%, nearly half. It can be seen that daytime sleepiness is widespread and harmful in patients with OSAHS, which should be paid attention to clinically. e mechanism of daytime sleepiness in OSAHS patients is not clear. At present, it is generally believed that it is related to sleep fragmentation and nocturnal hypoxemia, which can also be independent risk factors [16] . e main manifestations were obvious nocturnal hypoxia in tissue, shortened sleep latency, and improved sleep efficiency. Nocturnal minimum oxygen saturation and AHI are two important indexes to evaluate the severity of OSAHS; ESS is an important tool for self-assessment of daytime sleepiness in patients with OSAHS [17] . In the results of this study, the ESS score of the severe hypoxia group > the moderate hypoxia group > the mild hypoxia group > the no sleep hypoxia group. ere was significant difference among the groups. ere were significant differences between the severe hypoxia group and other groups and between the moderate hypoxia group and the no sleep hypoxia group and the mild hypoxia group. e ESS score of the severe OSAHS group > the moderate OSAHS group > the mild OSAHS group > the simple snoring group. ere was significant difference among the groups. ere were significant differences between the severe OSAHS group and other groups and between the moderate OSAHS group and the simple snoring group. It is suggested that the ESS score of OSAHS patients increases with the severity of the disease, that is, the decrease of nocturnal minimum oxygen saturation and the increase of AHI. e present study found that BMI and excessive daytime sleepiness were positively correlated with the severity of OSAHS, and low blood oxygen, respiratory disturbance index, micro arousal index, and the longest/average duration of sleep breathing were all related to the daytime sleepiness of patients [18] . In the study, univariate analysis showed that BMI, neck circumference, snoring degree, total apnea hypopnea time, AHI, MAI, CT90%, LSaO 2 , and MSaO 2 were the influencing factors of daytime sleepiness in OSAHS patients. It was partially consistent with the above research. It was suggested that the abovementioned factors and ESS evaluation tools could be used as the preliminary diagnosis basis of daytime sleepiness in OSAHS patients. Previous studies had also found that obesity was related to sleepiness, and its mechanism might be related to obesity-derived factors (tumor necrosis factor, interleukin-6, etc.) [19] . is study found that the proportion of men and women with OSAHS and OSAHS daytime sleepiness was much higher in men than in women. We analyzed the reasons as follows: Compared with women, men are more prone to airway stenosis due to a large amount of fat deposition in the palatopharyngeal plane and a large amount of neck soft tissue. In addition, male hormone testosterone can also aggravate sleep apnea [20] . Snoring is one of the important manifestations of OSAHS patients, which can cause soft tissue vibration. is study found that the heavier the degree of snoring, the greater the possibility of daytime sleepiness, suggesting that the degree of snoring is related to daytime can cause daytime sleepiness symptoms of patients. CT90%, LSaO 2 , and MSaO 2 are related indicators of oxygen saturation. In the study, the CT90% of the lethargic group was higher than that of the no lethargic group, and the LSaO 2 and MSaO2 were lower than that of the no lethargic group, which confirmed the previous study's argument that hypoxemia was closely related to daytime sleepiness [21] . e reasons were analyzed, which may be related to the damage of cerebral cortical neurons caused by systemic inflammation and oxidative stress induced by hypoxemia [22] . In the study, multiple logistic regression analysis showed that AHI and CT90% were independent risk factors for daytime sleepiness in OSAHS patients. However, some scholars believe that AHI is not strongly correlated with the degree of daytime sleepiness in patients with OSAHS, and its decisive factor is mainly nocturnal hypoxemia, and the heavier its degree is, the stronger its correlation with ESS score [23] . is suggests that compared with simple oxygen saturation index and AHI, CT90% can better reflect the possibility of daytime sleepiness in OSAHS patients. erefore, in the clinical diagnosis and treatment of OSAHS patients with low ESS score, more emphasis should be placed on the monitoring and analysis of CT90%, so as to reduce the missed diagnosis rate and reduce the risk. ESS score can reflect the severity of daytime sleepiness in patients with OSAHS, and the decrease rate of pulse oxygen can reflect the oxygen reduction events after nocturnal apnea. Existing studies have shown that the decrease rate of pulse oxygen is significantly correlated with AHI, and the reason why OSAHS patients with similar AHI differ in their daytime sleepiness is related to the decrease rate of pulse oxygen. In the study, Pearson correlation analysis showed that there was a positive correlation between ESS score and pulse oxygen decline rate in patients with severe OSAHS. It is suggested that the increase of pulse oxygen decline rate can lead to the aggravation of daytime sleepiness in patients with severe OSAHS, which is consistent with the above research point of view. e reasons were analyzed. After apnea, the pulse oxygen decline rate is mainly affected by oxygen reserve (this is the residual capacity of lung function); when oxygen reserve is insufficient, the body is hypoxic, the patient's oxidative stress is enhanced, the inflammatory level is increased, and the neurons in cerebral cortex are damaged, which can lead to sleepiness symptoms [24] . In addition, the decrease of residual capacity of pulmonary function is directly proportional to obesity, and the inflammatory factors derived from obesity may have a synergistic effect combined with it [25] . In conclusion, OSAHS patients may be accompanied by daytime sleepiness in varying degrees, which may be independently related to AHI and CT90%. e degree of daytime sleepiness in patients with severe OSAHS may be closely related to the decline rate of pulse oxygen, which should be paid great attention in clinic. e primary data used to support the results of this study are available from the corresponding author upon reasonable request. is study had been approved by the ethics committee of Weifang Hospital of Traditional Chinese Medicine (2018005). e authors declare that there are no conflicts of interest regarding the publication of this paper. Evidence-Based Complementary and Alternative Medicine 5 Computer-assisted quantitative analysis of drug-induced sleep endoscopy for obstructive sleep apnea/hypopnea syndrome Obstructive sleep apnea-hypopnea syndrome and keratoconus: an epiphenomenon related to sleep position Pitolisant for daytime sleepiness in patients with obstructive sleep apnea who refuse continuous positive airway pressure treatment. A randomized trial Obstructive sleep apnea, hypertension, and cardiovascular risk: epidemiology, pathophysiology, and management Obstructive sleep apnoea and cardiovascular consequences: pathophysiological mechanisms Uncovering synergistic mechanism of Chinese herbal medicine in the treatment of atrial fibrillation with obstructive sleep apnea hypopnea syndrome by network pharmacology e role of animal models in developing pharmacotherapy for obstructive sleep apnea Sleep apnoea is a risk factor for severe COVID-19 Effect of supplemental oxygen on blood pressure in obstructive sleep apnea (SOX). A randomized continuous positive airway pressure withdrawal trial Power spectral densities of nocturnal pulse oximetry signals differ in OSA patients with and without daytime sleepiness Targeting subclinical organ damage in obstructive sleep apnea: a narrative review American Academy of sleep medicine, includes bibliographies and index Rules for scoring respiratory events in sleep: update of the 2007 AASM manual for the scoring of sleep and associated events. deliberations of the sleep apnea definitions task force of the American Academy of sleep medicine Effect of venous oxygenation on arterial desaturation rate during repetitive apneas in lambs Obstructive sleep apnea in sarcoidosis and impact of cpap treatment on fatigue Cognitive impairment in obstructive sleep apnea syndrome: a descriptive review Weighted epworth sleepiness scale predicted the apnea-hypopnea index better Daytime sleepiness and polysomnographic variables in sleep apnoea patients Endothelial dysfunction in obesity-induced inflammation: molecular mechanisms and clinical implications Obstructive sleep apnea and testosterone therapy A novel parameter is better than the AHI to assess nocturnal hypoxaemia and excessive daytime sleepiness in obstructive sleep apnoea Anthocyanin ameliorates hypoxia and ischemia induced inflammation and apoptosis by increasing autophagic flux in SH-SY5Y cells Prevalence of obstructive sleep apnea in suicidal patients with major depressive disorder Oxygen saturation during breath-holding and during apneas in sleep Impact of obesity on pulmonary function: current understanding and knowledge gaps Fengying Zhang and Xijiang Wu are the co-first authors.