Undiagnosed Obstructive Sleep Apnea and Acute COVID-19 Infection—A Case Series
Article information
Abstract
A recently published study on coronavirus disease 2019 (COVID-19) and obstructive sleep apnea (OSA) suggested that there might be an association between certain risk factors and comorbidities associated with OSA, which are also associated with poor COVID-19 outcomes. However, it is unclear whether undiagnosed OSA correlates with COVID-19 severity in a South Korean population. We identified 7 patients who presented with nocturnal hypoxemia during hospitalization due to COVID-19. All patients underwent polysomnography 5–9 weeks after the infection. We retrospectively collected the patients’ baseline characteristics, hospital admission data, and polysomnography findings. Of the 7 patients, all were diagnosed with OSA after COVID-19 infection. Their mean (±SD) age was 45.4±16.3 years, 57.1% were men, and their mean (±SD) body mass index was 33.4±6.0 kg/m2. Six patients presented with COVID-19-related pneumonia on chest X-rays, 3 of whom were admitted to the intensive care unit during the acute phase. The overnight polysomnography showed a mean AHI of 59.0±38.5/h and an oxygen desaturation index of 57.6±39.7/h. Undiagnosed OSA is a prevalent condition associated with moderate to severe COVID-19 infection. The study patients with sleep apnea and COVID-19 had obesity and severe oxygen desaturation but did not complain of daytime sleepiness.
INTRODUCTION
Coronavirus disease 2019 (COVID-19) has severely affected healthcare systems worldwide. Although age, hypertension, cardiovascular disease, lung disease, and diabetes mellitus are apparently the main risk factors for poorer outcomes in COVID-19 [1], a possible role has also been ascribed to sleep-disordered breathing (SDB) [2-4]. A recent preliminary study that collected questionnaire data in a case series of COVID-19 pneumonia showed that 25% of patients presented a history of SDB [5]. In recent months, a number of studies have suggested that the presence of obstructive sleep apnea (OSA) as a comorbidity in patients with COVID-19 increases the risk of hospitalization and mortality [6,7].
A study reported that OSA is a risk factor of COVID-19 in South Korea [8]. In an analysis of the National Health Insurance Service (NHIS)-COVID-19 cohort, OSA was associated with a 1.65-fold higher incidence of COVID-19 than in the control group. However, this was the only study in South Korea to mention the association between COVID-19 and SDB, and there have been no studies on the clinical characteristics and prognosis of patients with sleep apnea and COVID-19 in South Korea. Due to the limitations of the NHIS data, there have been few reports describing patients admitted to the hospital with COVID-19 in South Korea. A better characterization of COVID-19 infection in patients with SDB is important for understanding the clinical course and outcomes of COVID-19 and determining the critical care capacity and decision-making process for therapeutic interventions. The aim of our report is to describe the demographic characteristics, coexisting conditions, imaging findings, and outcomes of patients with SDB and COVID-19 in South Korea.
METHODS
Participants and study design
We identified patients 18 years of age or older with laboratory-confirmed COVID-19 infections who were admitted to Ulsan University Hospital between October 2020 and June 2021. A confirmed case of COVID-19 was defined as a positive result on a reverse-transcription polymerase-chain-reaction (RT-PCR) assay of a specimen collected on a nasopharyngeal swab or sputum. Given that our hospital is the only base hospital for COVID-19 treatment in Ulsan, all patients in Ulsan who require hospitalization are admitted to our hospital. If patients with COVID-19 pneumonia showed clinical and radiological improvement during hospitalization but showed hypoxemia in pulse oximetry during sleep, they underwent elective laboratory polysomnography 5–9 weeks after the COVID-19 infection.
The Institutional Review Board at Ulsan University Hospital independently approved the study (UUH 2021-11-040). Informed consent was waived, and we retrospectively analyzed only deidentified data. We obtained demographic data, information on clinical symptoms or signs at presentation, and radiological results during hospitalization from the electronic medical records. All radiological assessments were performed at the discretion of the treating physician.
Participants completed a standard polysomnography (Comet Plus, Astro-Med, Inc., West Warwick, RI, USA), which included electroencephalography, electrooculography, electromyography, electrocardiography, pulse oximetry for oxygen saturation, and a microphone to detect snoring. The airflow was measured using an oronasal thermistor and a nasal pressure transducer, and the respiratory effort of thoracoabdominal movement was measured using respiratory inductance plethysmography. Sleep and associated events were scored according to the American Academy of Sleep Medicine manual [9,10]. The apnea-hypopnea index (AHI) was defined as the mean number of episodes of apnea and hypopnea per hour of total sleep time. Apnea was defined as a decrease in the peak thermal sensor excursion by at least 90% from baseline for at least 10 seconds. A hypopnea episode was defined as a decrease in the nasal pressure signal by at least 30% from baseline for at least 10 seconds, with a reduction in oxygen saturation of at least 4% from the pre-event baseline. The patients completed the following sleep-related questionnaires: Pittsburgh Sleep Quality Index; Epworth sleepiness scale; and Berlin questionnaire.
Statistical analysis
Descriptive statistics were employed to summarize the data, and the results are reported as medians and interquartile ranges or means and standard deviations, as appropriate. The categorical variables are summarized as counts and percentages. No imputation was performed for missing data.
RESULTS
We identified 7 patients (4 men, 3 women) with nighttime hypoxemia during hospitalization, and all patients had confirmed OSA after COVID-19 treatment. The baseline characteristics of all participants are shown in Table 1. The participants’ mean age was 45.4±16.3 years, their mean body mass index was 33.4±6.0 kg/m2, and the prevalence of smoking was 28.6%. The common comorbidities were hypertension and hyperlipidemia. None of the patients had diagnosed coronary heart disease or stroke. Six patients presented COVID-19-related pneumonia in the chest X-rays and underwent oxygen therapy in the medical ward or intensive care unit (ICU). Three patients were hospitalized in the ICU during the acute phase, with a mean ICU stay of 11 days. In the ICU, all patients received oxygen by high-flow nasal cannula; however, we did not administer continuous positive airway pressure (CPAP) or bilevel positive airway pressure therapy. All patients were discharged without supplementary oxygen.
We documented a mean follow-up time of 7.7 weeks (range 5–9 weeks) after COVID-19 infection. The laboratory polysomnography showed a mean AHI of 59.0±38.5/h and an oxygen desaturation index of 57.6±39.7/h. The mean lowest oxygen saturation was 77.9%±9.8%. Regarding the sleep questionnaires, we found no significant subjective sleepiness according to the Epworth sleepiness scale questionnaire. Four of the patients (57.1%) showed a high-risk of OSA according to the Berlin questionnaire. Of the 7 patients, 6 underwent CPAP titration. The mean positive airway pressure was 9.3 cm H2O.
DISCUSSION
This case series describes 7 patients diagnosed with SDB with nocturnal hypoxemia and laboratory-confirmed COVID-19 infection. According to the current literature, this is the first description aimed at evaluating the association between undiagnosed SDB and COVID-19 outcomes in South Korea. Our findings support the association between SDB and poorer COVID-19 outcomes.
The patients in our series presented with moderate to severe COVID-19 infection. COVID-19 severity was defined based on the World Health Organization’s Clinical Progression Scale: 1) mild disease—outpatient care; 2) moderate disease—hospitalization; and 3) severe disease—intensive care or death [11]. All patients were admitted to our hospital, and 6 patients presented with COVID-19-related hypoxemia and pneumonia. Among those who required oxygen therapy, 3 underwent high-flow oxygen therapy up to a fraction of inspired oxygen of 70%.
Although our study is a retrospective analysis, it can be of clinical significance in suggesting that patients with severe COVID-19 who do not have significant subjective sleepiness or those who have not been assigned to a high-risk group in the Berlin questionnaire are likely to have undiagnosed sleep apnea. Previous studies evaluating the association between SDB and COVID-19 have suggested this association. In the CORONADO observational study, treated SDB was reported to be an independent risk of mortality after 7 days, with an odds ratio (OR) of 2.8 (confidence interval [CI], 1.46–5.38) [12]. In another study that included 46 patients hospitalized due to COVID-19, sleep apnea was diagnosed in 75% of the sample [13]. In an observational study in the United States, patients with SDB had an OR of 1.53 (CI, 1.09–2.15) for mortality and an OR of 1.29 (CI, 1.03–1.62) for ICU admission [6]. The plausible mechanisms for these associations include systemic and chronic inflammation, which are commonly observed in patients with untreated SDB. Published studies have suggested that when controlling for obesity, the presence of OSA is associated with decreased pulmonary function, decreased lungtransfer factor for carbon monoxide, and increased lung inflammation [14]. These conditions might therefore explain, at least in part, why patients with OSA are generally at increased risk for pneumonia [15]. These observations might therefore provide for the possibility of increased disease severity in the COVID-19 setting. In this context, the pathophysiology associated with untreated OSA might not only present a predisposing factor for developing severe or critical illness in COVID-19 but also, once infection has occurred, repeated airway obstruction with the generation of negative intrathoracic pressure and associated shear forces that can lead to worsening lung injury [16].
In this study, we found that 7 patients with undiagnosed sleep apnea presented with very high body mass and oxygen desaturation indices compared with the patients with sleep apnea generally treated at sleep clinics in South Korea. Although it is difficult to generalize due to the small number of samples, this finding suggests that patients with obesity and hypoxemia during sleep, even after recovery from moderate to severe COVID-19, are more likely to have undiagnosed sleep apnea.
The management of patients with OSA in sleep centers includes diagnostic procedures such as polysomnography and treatment with positive air pressure. Given the risk of spreading the virus in both of these procedures, many sleep centers in Western countries have suspended routine procedures, limiting activity to urgent cases. In the early days of the pandemic, numerous national sleep medicine societies provided guidelines for implementing these infection control strategies in sleep centers. An early mitigation strategy document from the authoritative American Academy of Sleep Medicine strongly recommended postponing non-urgent procedures [17], recommendations that were confirmed worldwide [18-21]. For many months, patients with suspected OSA, who usually have waited a varying amount of time from the first triage visit to treatment, therefore had to endure a further delay in getting treated.
The situation for sleep medicine in South Korea is not much different, with delays in the diagnosis and treatment of patients with sleep apnea given the rise in the number of centers postponing polysomnography in the early stages of the pandemic or conducting polysomnography only if the COVID-19 test were negative. Given that the first recommendations from the sleep societies were from last year, updated protocols are needed. In this context, we provide an example for the clinical suspicion and diagnosis of sleep apnea.
A potential contributor to the high morbidity among COVID-19 patients with obesity might be the high prevalence of undiagnosed OSA. Although it is difficult to actively diagnose sleep apnea in the current pandemic situation, attention needs to be paid as to whether a COVID-19 patient with moderate or higher severity has been underdiagnosed for this disease.
The study’s main limitations are related to the small sample size; however, this study provides evidence regarding the association between undiagnosed OSA and acute COVID-19 in a South Korean population. This study also has an inclusion bias as a methodological limitation, and the conclusions are restricted to the data obtained from the included patients. While taking all these issues into account, we believe that the results of this study can provide an insight into the association between OSA and COVID-19 in South Korea. Although COVID-19 severity can vary among individuals, the disease can have poor outcomes, and as the pandemic progresses, medical resources are being depleted. It is therefore important to identify the risk factors, as this can be beneficial for high-risk patients. Further studies are needed with larger study populations pertaining specifically to OSA and COVID-19 patients.
Acknowledgements
None
Notes
The authors have no potential conflicts of interest to disclose.
Author Contributions
Conceptualization: Hyeon Hui Kang. Data curation: all authors. Formal analysis: Hyeon Hui Kang. Investigation: Hyeon Hui Kang. Methodology: Hyeon Hui Kang. Project administration: Hyeon Hui Kang. Resources: all authors. Supervision: all authors. Visualization: Hyeon Hui Kang, Writing—original draft: Hyeon Hui Kang. Writing—review & editing: all authors.