https://ojs.wpro.who.int/ 1WPSAR Vol 14, No 1, 2023 | doi: 10.5365/wpsar.2023.14.1.949 Original Research T he coronavirus disease (COVID-19) pandemic continues to have significant negative impacts on health-care services worldwide as a result of the diversion of resources to mitigate the impact of the disease,1,2 which will have immediate and long-term consequences. Patients affected by COVID-19 are at risk of both medical and psychological long-term health issues. As COVID-19 is predominantly a respiratory illness, long-term respiratory problems are expected.3,4 However, a range of adverse outcomes of COVID-19 have also been observed involving the immune system (e.g. Guillain-Barré syndrome and paediatric inflammatory multisystem syndrome), cardiovascular system (e.g. cardiomyopathy and coagulopathy), neurological system (e.g. sensory dysfunction and stroke), cutaneous and digestive manifestations as well as mental health issues.4 Patients with mild disease from COVID-19 infection who then experienced long-term symptoms5,6 are also of concern. This constellation of non-specific symptoms has been referred to as long COVID, chronic COVID syndrome or post-COVID condition,5,7 with varying definitions between countries and organizations. The World Health Organization (WHO) defines post-COVID condition as a condition occurring usually 3 months from the onset of COVID-19 with symptoms that last for at least 2 months that cannot be explained by an alternative diagnosis.7 The United States Centers for Disease Control and Prevention (CDC) defines it as a wide range of new, returning or ongoing health problems for 4 or more weeks after COVID-19.8 Common symptoms include fatigue, short- ness of breath and cognitive dysfunction that generally impact everyday functioning.7 Symptoms may begin after a National Isolation Centre, Ministry of Health, Tutong, Brunei Darussalam. b Department of Medicine, Raja Isteri Pengiran Anak Saleha Hospital, Bandar Seri Begawan, Brunei Darussalam. c Pengiran Anak Puteri Rashidah Sa’adatul Bolkiah Institute of Health Sciences, Universiti Brunei Darussalam, Bandar Seri Begawan, Brunei Darussalam. Published: 18 January 2023 doi: 10.5365/wpsar.2023.14.1.949 Objective: Patients who recover from coronavirus disease (COVID-19) infection are at risk of long-term health disorders and may require prolonged health care. This retrospective observational study assesses the number of health-care visits before and after COVID-19 infection in Brunei Darussalam. Methods: COVID-19 cases from the first wave with 12 months of follow-up were included. Health-care utilization was defined as health-care visits for consultations or investigations. Post-COVID condition was defined using the World Health Organization definition. Results: There were 132 cases; 59.1% were male and the mean age was 37.1 years. The mean number of health-care visits 12 months after recovery from COVID-19 (123 cases, 93.2%; mean 5.0 ±5.2) was significantly higher than the prior 12 months (87 cases, 65.9%, P<0.001; mean 3.2 ±5.7, P<0.001). There was no significant difference when scheduled COVID-19 visits were excluded (3.6 ±4.9, P = 0.149). All 22 cases with moderate to critical disease recovered without additional health-care visits apart from planned post-COVID-19 visits. Six patients had symptoms of post-COVID condition, but none met the criteria for diagnosis or had alternative diagnoses. Discussion: There were significantly more health-care visits following recovery from COVID-19. However, this was due to scheduled post-COVID-19 visits as per the national management protocol. This protocol was amended prior to the second wave to omit post-COVID-19 follow-up, except for complicated cases or cases with no documented radiological resolution of COVID-19 pneumonia. This will reduce unnecessary health-care visits and conserve precious resources that were stretched to the limit during the pandemic. Post-COVID-19 health-care utilization: one year after the 2020 first wave in Brunei Darussalam Muhammad Syafiq Abdullah,a,b,c Rosmonaliza Asli,a,b Pui Lin Chong,a,b Babu Ivan Mani,a Natalie Raimiza Momin,a,b Noor Affizan Rahman,a,b Chee Fui Chonga and Vui Heng Chonga,b,c Correspondence to Vui Heng Chong (email: vuiheng.chong@moh.gov.bn) WPSAR Vol 14, No 1, 2023 | doi: 10.5365/wpsar.2023.14.1.949 https://ojs.wpro.who.int/2 Abdullah et alPost-COVID-19 health-care utilization in Brunei Darussalam day 11 post-discharge to document viral clearance, and follow-up appointments with cases who had COVID-19 pneumonia as documented on chest radiographs or other unresolved issues directly related to COVID-19 (e.g. thrombocytopenia or unresolved symptoms) at discharge. Data collection Data were retrieved from the database maintained by the NIC management team that had been established at the start of the COVID-19 outbreak. Data collected included age, sex, ethnicity, comorbidities, date of posi- tive RT-PCR test, symptoms at presentation, severity of illness at presentation and daily progress, outcomes and discharge date. Data on health-care utilization during the 12 months before and 12 months after COVID-19 diag- nosis were retrieved from the Brunei Darussalam Health and Management System, a national electronic health- care system that links all government health institutions (hospitals and peripheral clinics). Established in 2011, this system captures all patients’ health-care encounters. Five categories of disease were defined: (i) asymp- tomatic; (ii) mild (symptomatic without evidence of pneumonia on chest imaging); (iii) moderate (clinical or imaging evidence of pneumonia); (iv) severe (required oxygen supplementation); and (v) critical (respiratory fail- ure requiring mechanical ventilation with or without other organ failure). These were grouped into two categories: asymptomatic/mild and moderate to critical. Data analysis Analyses were conducted using IBM® SPSS version 26.0. Mean, standard deviation and range were calculated for continuous variables and frequency and percentage for categorical variables. The number of health-care visits 12 months before and 12 months after COVID-19 infection were compared. The Mann-Whitney U test was used to test the difference between the mean number of health- care visits for non-parametric continuous variables and the chi-square test was used for categorical variables. A P value of <0.05 was taken as significant. RESULTS Study population Of the 340 COVID-19 cases from the first wave, 205 had not resided in Brunei Darussalam 12 months before and initial recovery from COVID-19, or may persist from the initial COVID-19 illness, and can fluctuate or relapse over time. The CDC characterized post-COVID conditions into three subtypes: new or ongoing symptoms; multiorgan effects of COVID-19 (i.e. multisystem inflammatory syndrome); and effects of COVID-19 or hospitalization.8 Reported risk factors for chronic sequelae of COVID-19 include disease severity, older age, sex, ethnicity, comor- bidities especially pre-existing respiratory disease, and higher body mass index.5,9 Female patients have been associated with a higher likelihood of developing mental and psychological long-term sequelae.9,10 To date, few studies have looked at health-care utilization after recovery from COVID-19.11–15 One study reported that 10.3% of COVID-19 patients would require re-admission to hospital and an all-cause mortality of 7.9% after recovery from COVID-19, with the majority of deaths occurring within the first 30 days after the index admission.12 The assessment of the burden on the health- care system post-COVID-19 infection from earlier waves can assist with health-care utilization planning. This study of COVID-19 patients from the first wave in Brunei Darussalam aims to: (1) compare health-care utilization of COVID-19 patients 12 months before and 12 months after their infection; (2) assess if severity of disease, underlying psychiatric disorders and need for counselling during hospitalization affected health-care utilization; and (3) assess the prevalence and characteristics of patients diagnosed with post-COVID condition. METHODS Study design This was a retrospective observational study of cases who recovered from COVID-19 during the first wave (from 9 March 2020 to 6 August 2021) in Brunei Darussalam. All COVID-19 cases in Brunei Darussalam diagnosed dur- ing the first wave were admitted to the National Isolation Centre (NIC) for isolation and treatment. All COVID-19 cases from the first wave who were alive 12 months after their COVID-19 recovery and had resided in Brunei Darussalam 12 months before and 12 months after their recovery from COVID-19 were eligible for the study. In order to document recovery, scheduled post- COVID-19 health-care visits, as defined in the national post-discharge management protocol, included a reverse transcription polymerase chain reaction (RT-PCR) test on WPSAR Vol 14, No 1, 2023 | doi: 10.5365/wpsar.2023.14.1.949https://ojs.wpro.who.int/ 3 Post-COVID-19 health-care utilization in Brunei DarussalamAbdullah et al of health-care visits pre- and post-COVID-19 (n = 470, mean 3.6 ±4.9; P = 0.149). Similarly, when scheduled COVID-19 visits were excluded, there was no significant difference between the mean number of health-care visits for each characteristic assessed pre- and post-COVID-19, except for patients with abnormal chest radiography (P = 0.019). Among non-COVID-19 health-care visits, there were 11 for COVID-19 vaccinations: five partial (one dose) and three complete (two doses). Patients with moderate to severe COVID-19 disease There were 22 (16.7%) cases with COVID-19 pneumonia (moderate to critical disease) including two who required mechanical ventilation. Eleven had radiological resolu- tions documented at discharge and 11 had complete resolutions documented at follow-up. All were cleared of any residual respiratory issues. None had any further health-care visits for respiratory or other problems related to COVID-19 other than their scheduled post-COVID-19 visits. Psychiatric encounters During hospitalizations for COVID-19, six patients required counselling or psychiatric treatment (Table 3), four of whom were diagnosed with underlying mild psy- chiatric disorders during admission but did not have prior encounters with public or mental health-care services. One case was referred due to concern about prolonged hospitalization and because their family members had recovered much earlier. Four patients were given treat- ment. Post-discharge, four had follow-up appointments, of whom two were already known to the service and two were new. Both cases 5 and 6 had improved when they were reviewed. One was seen once before missing her scheduled follow-up appointment, and the other patient continued routine follow-up (Table 3). Post-COVID condition Six patients had some symptoms of post-COVID condi- tion but none met the criteria for diagnosis. Four of these patients had hospital encounters within 60 days and two after 8 months following their initial COVID-19 infection (Table 4). Three patients had pre-existing psychiatric 12 months after their recovery from COVID-19 and three had died, leaving 132 cases eligible for the study. The mean age of the study population was 37.1 ±17.2 years with more males (59.1%) than females. The ethnic breakdown was consistent with the national distribution. A total of 39 patients (29.5%) had underly- ing comorbidities, the most common being hypertension and dyslipidaemia (Table 1). Nearly half (46.3%) were overweight or obese. Symptoms were reported by 69.7% of cases at admission with the most common being cough (39.0%), fever (26.5%) and rhinorrhoea (23.5%). The majority of cases (83.3%; n = 110) had asympto- matic/mild disease and 16.7% (n = 22) had moderate to critical disease (Table 1). Four cases were admitted to the intensive care unit with two needing mechanical ventilation. The mean length of hospitalization was 20.2 ±8.7 days. Health-care utilization Most cases (64.4%) visited health-care facilities 12 months before and 12 months after recovering from COVID-19 (Table 2). Figure 1 shows the breakdown in the number of health-care visits before and after COVID-19 (unrelated and related to COVID-19). This shows scheduled COVID-19-related visits ranging from one to six visits, most with one visit, mainly for post- discharge testing for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) to document viral clearance following our management protocol at the time. Overall, there were significantly more health-care visits (n = 660, mean 5.0 ±5.2 visits) in the 12 months after COVID-19 compared to the 12 months before (n = 431, mean 3.2 ±5.7; P < 0.001). There was a sig- nificant increase in the mean number of visits observed between each characteristic assessed except for Chinese ethnicity (Table 1). Cases with comorbidities (diabetes mellitus, hypertension, dyslipidaemia, ischaemic heart disease and respiratory disorders) had more health-care visits compared to those without comorbidities. However, there was no significant increase in health-care visits post-COVID-19. There were 190 scheduled post-COVID-19 visits, with a mean of 1.4 ±1.3 per case (range 1–6). When scheduled post-COVID-19 visits were excluded, there was no significant difference between the mean number WPSAR Vol 14, No 1, 2023 | doi: 10.5365/wpsar.2023.14.1.949 https://ojs.wpro.who.int/4 Abdullah et alPost-COVID-19 health-care utilization in Brunei Darussalam a The first wave lasted from 9 March 2020 to 6 August 2021. b Comparison between health-care visits 12 months before COVID-19 and overall health-care visits 12 months after COVID-19. c Comparison between health-care visits 12 months before COVID-19 and non-COVID-19 health-care visits 12 months after COVID-19. d Nine cases (children) did not undergo chest radiography. Table 1. Characteristics of COVID-19 cases by mean number of health-care visits 12 months before and 12 months after COVID-19 illness during the first wave,a Brunei Darussalam (N = 132) Characteristic N (%) Health-care visits 12 months before COVID-19 (mean ±SD) Overall health-care visits 12 months after COVID-19 (mean ±SD) Pb Non-COVID-19 health- care visits 12 months after COVID-19 (mean ±SD) Pc Sex Female 54 (40.9) 3.7 ±6.1 5.3 ±5.9 <0.001 3.9 ±5.5 0.204 Male 78 (59.1) 3.2 ±5.2 4.7 ±4.7 <0.001 3.3 ±4.5 0.400 Nationality Malay 107 (81.1) 3.7 ±6.1 5.3 ±5.6 <0.001 3.8 ±5.2 0.340 Chinese 5 (3.8) 1.0 ±0.7 2.2 ±1.9 0.310 1.0 ±1.7 0.548 Other 20 (15.2) 1.7 ±2.9 4.1 ±3.1 0.003 2.9 ±3.0 0.081 Age group (years) <30 48 (36.4) 3.1 ±6.4 3.7 ±5.8 0.039 2.6 ±5.8 0.589 30–50 47 (35.6) 2.8 ±5.7 5.0 ±5.3 <0.001 3.4 ±4.8 0.160 >50 37 (28.0) 4.1 ±4.5 6.7 ±3.8 0.001 5.0 ±3.3 0.089 Comorbidities Yes 39 (29.5) 5.2 ±6.8 7.1 ±5.7 0.014 5.5 ±5.4 0.294 No 93 (70.5) 2.5 ±4.9 4.1 ±4.7 <0.001 2.7 ±4.4 0.202 Diabetes Yes 9 (6.8) 9.0 ±10.5 9.1 ±8.8 0.666 8.1 ±8.6 0.931 No 123 (93.2) 2.8 ±4.9 4.7 ±4.8 <0.001 3.2 ±4.4 0.137 Hypertension Yes 22 (16.7) 6.4 ±7.3 8.0 ±6.4 0.134 6.6 ±6.1 0.502 No 110 (83.3) 2.6 ±5.1 4.4 ±4.8 <0.001 2.9 ±4.4 0.147 Dyslipidaemia Yes 20 (15.2) 5.9 ±7.8 6.7 ±3.9 0.063 5.5 ±3.7 0.289 No 112 (84.5) 2.8 ±5.1 4.7 ±5.4 <0.001 3.2 ±5.0 0.229 Ischaemic heart disease Yes 5 (3.8) 4.2 ±3.8 4.4 ±4.4 1.000 3.8 ±4.3 0.841 No 127 (96.2) 3.2 ±5.7 5.0 ±5.3 <0.001 3.6 ±4.9 0.128 Respiratory disease Yes 7 (5.3) 2.0 ±2.8 6.4 ±5.2 0.073 4.6 ±4.5 0.535 No 125 (94.7) 3.3 ±5.8 4.9 ±5.2 <0.001 3.5 ±4.9 0.192 Reported symptoms at admission Yes 92 (69.7) 3.5 ±6.4 5.3 ±5.3 <0.001 3.7 ±4.9 0.131 No 40 (30.3) 2.7 ±3.4 4.4 ±5.1 0.020 3.2 ±4.9 0.741 Abnormal chest radiographyd Yes 22 (17.9) 3.8 ±4.9 9.6 ±6.1 0.001 6.5 ±6.1 0.019 No 101 (82.1) 3.1 ±5.9 4.2 ±4.6 <0.001 3.1 ±4.6 0.387 Disease severity Asymptomatic/mild 110 (83.3) 3.0 ±5.7 4.0 ±4.5 <0.001 2.9 ±4.6 0.471 Moderate to critical 22 (16.7) 4.7 ±5.5 10.0 ±5.8 0.001 7.0 ±6.0 0.062 WPSAR Vol 14, No 1, 2023 | doi: 10.5365/wpsar.2023.14.1.949https://ojs.wpro.who.int/ 5 Post-COVID-19 health-care utilization in Brunei DarussalamAbdullah et al a The first wave lasted from 9 March 2020 to 6 August 2021. a The first wave lasted from 9 March 2020 to 6 August 2021. Table 2. Proportion of cases during the first wavea with health-care visits 12 months before and 12 months after COVID-19 illness, Brunei Darussalam (N = 132) Fig. 1. Distribution of COVID-19 cases during the first wavea by number of health-care visits 12 months before illness, and number of health-care visits unrelated and related to COVID-19 in the 12 months after recovery, Brunei Darussalam (N = 132) Health-care visits before / after COVID-19 illness n (%) No / No 7 (5.3) No / Yes 38 (28.8) Yes / No 2 (1.5) Yes / Yes 85 (64.4) final case had transient localized musculoskeletal chest pain (Tietze syndrome) (Table 4). DISCUSSION Our study showed a significantly higher mean number of health-care visits among recovered COVID-19 cases from the first wave in Brunei Darussalam 12 months after recovery compared with the 12 months prior to infection. However, this increase in health-care visits was mainly due to scheduled post-COVID-19 health- care visits as per the national management protocol at the time. Although some cases had symptoms of post-COVID condition, none fulfilled the WHO criteria for diagnosis7 or they had alternate diagnoses, and their symptoms were self-limiting. None of the cases with COVID-19 pneumonia had long-term respiratory effects during the 12 months after recovering from COVID-19. Post-COVID condition is a well-recognized dis- order,7,8 with varying definitions regarding symptoms and duration. Although there were cases with some symptoms of post-COVID condition, all had alternative diagnoses to account for their symptoms, either due to disorders, which were exacerbated by COVID-19 illness in two of these patients. The third patient had transient forgetfulness which the patient described as brain fog. Psychometric evaluations for this patient were normal. One case developed palpitations 54 days after dis- charge and investigations revealed idiopathic supraven- tricular tachycardia. Coronary angiography assessment prior to diagnosis of COVID-19 was normal. Another case developed non-specific symptoms which resolved, although they were later diagnosed with bulimia, and the 0 10 20 30 40 50 60 70 80 0 1 2 3 4 5 6 7 8 9 10 11–15 16–20 >20 Before COVID-19 After COVID-19 (unrelated) After COVID-19 (related) No. of health-care visits N o. o f p at ie nt s WPSAR Vol 14, No 1, 2023 | doi: 10.5365/wpsar.2023.14.1.949 https://ojs.wpro.who.int/6 Abdullah et alPost-COVID-19 health-care utilization in Brunei Darussalam Table 3. Encounters with psychiatric counselling services 12 months before COVID-19 infection, during hospitalization and 12 months after recovery during the first wave,a Brunei Darussalam (N = 132) Table 4. Cases with symptoms of post-COVID condition during the first wave,a Brunei Darussalam (N = 6) 12 months before COVID-19 During hospitalization for COVID-19 12 months after COVID-19 Encounters, n (%) 4 (2.9) 6 (4.4) 4 (2.9) Case no.: Disorder 1: Psychotic depression 2: Learning disability 3: Autism spectrum disorder (paediatric) 4: Autism spectrum disorder (paediatric) 2: Learning disability (risk of impulsivity/aggression) 5: Anxiety and panic attacks 6: Anxiety and panic attacks 7: Anxiety disorder (reactive anxiety and insomnia) 8: Attention deficit hyperactivity disorder 9: Concern of staff 1: Psychotic depression 2: Learning disability (lost to follow-up) 5: Anxiety and panic attacks 6: Anxiety and panic attacks a The first wave lasted from 9 March 2020 to 6 August 2021. a The first wave lasted from 9 March 2020 to 6 August 2021. Case no. Sex/age (years) Disease severity Length of hospitalization (days) Pre-existing condition Symptoms Outcomes Last consult Days between discharge and first health-care visit 5 Female/23 Mild 14 Yes: Anxiety Anxiety, palpitation, insomnia, nightmares Resolved Discharged 20 6 Female/23 Mild 17 Yes: Anxiety and panic Anxiety attacks Resolved Discharged 18 8 Male/39 Mild 23 Yes: Attention deficit hyperactivity disorder Forgetfulness/ unable to find words, unable to concentrate Resolved Discharged 255 10 Male/43 Moderate 20 No Localized chest pain and itchy rash Resolved Discharged 36 11 Male/62 Moderate 33 No Palpitation Diagnosed with supraventricular tachycardia Cardiology follow-up 54 12 Female/19 Mild 35 No Atypical chest pain, cramps, choking sensation Bulimia Still on follow-up 284 WPSAR Vol 14, No 1, 2023 | doi: 10.5365/wpsar.2023.14.1.949https://ojs.wpro.who.int/ 7 Post-COVID-19 health-care utilization in Brunei DarussalamAbdullah et al respiratory department, cleared of any long-term pulmonary issues and eventually discharged to their primary care doctors. None had further health-care visits for pulmonary issues. In the first wave, only chest radiography was used for imaging as computed tomography, which is superior in detecting respiratory changes due to COVID-19, was not available.19 If it had been available and used, this would have likely re- sulted in more unnecessary scheduled post-COVID-19 visits. One study has reported persistent air exchange dysfunction after recovering from COVID-19.20 It is uncertain if symptoms will become apparent after a much longer period and, therefore, longer follow-up studies are required. The mental wellbeing of COVID-19 patients is likely to be impacted either directly due to their COVID-19 infection or as a psychological impact of implemented restrictive measures.4,10 Six of our patients needed counselling during their hospitalizations. Common indi- cations for counselling were anxiety-related issues that were exacerbated by COVID-19 illness. This was not surprising, given that at the time COVID-19 was a novel viral illness without effective treatment. Furthermore, our management protocol required all COVID-19 cases to be admitted for isolation in single isolation rooms or warded with strangers for a minimum duration of 14 days.21 Movement was also restricted to the wards or rooms. This was further compounded by frequent medical investigations (blood draws, radiological imag- ing and nasopharyngeal swabbing). All these can incur anxiety and fear in addition to stressors brought on by the COVID-19 illness itself. However, this did not translate to additional health-care visits. This study of the first wave of COVID-19 in Brunei Darussalam showed that most patients recovered with- out further issues and significant post-COVID conditions were uncommon. COVID-19 remains a novel infectious disease, especially with new SARS-CoV-2 variants of concern appearing. However, the knowledge gained has resulted in a better understanding of COVID-19, as reflected in changes to our national management protocols. After the peak of the first wave in 2020, post- discharge testing was omitted as it was shown that the number of cases re-testing positive after discharge was not insignificant.22–24 Longer follow-up for non-resolving symptoms or laboratory monitoring also stopped and instead cases were directed to their primary care clinics. exacerbations of pre-existing conditions, chest muscu- loskeletal pain similar to Tietze syndrome or cardiac arrhythmias that were unrelated to COVID-19. Some of our cases did meet the definition of other diagnostic criteria, including the CDC criteria.5,8 Fortunately, most cases recovered without further consultations or treat- ment, indicating that post-COVID-19 symptoms were mild and self-limiting. However, it remains to be seen if post-COVID condition will be a significant problem in our setting with a larger number of patients affected by COVID-19 in subsequent waves. Our findings differ from other studies reported in the literature. A meta-analysis of 91 studies showed a prevalence of hospital readmissions during the first 30 days, 90 days and 1 year post-discharge of 8.97%, 9.79% and 10.34%, respectively.12 Most cases of hospital readmissions occurred within 30 days after discharge.12 A study from Switzerland of 385 patients with COVID-19, 81 of whom required hospitalization during initial illness, reported that at 6–8 months after illness, 26% (n = 111) had not fully recovered, 40% (n = 170) reported at least one visit to the general prac- titioner and 10% (n = 81) of those hospitalized were re-hospitalized.11 Individuals who had not fully recov- ered or suffered from fatigue, dyspnoea or depression were more likely to have further health-care contacts. However, a third of individuals (37/111) who had not fully recovered did not seek further care.11 This indicated that despite residual symptoms persisting, they may not have been significant enough to require health-care visits. The difference between our findings and those of other studies may be due to the small total number of patients affected by COVID-19 in Brunei Darussalam during the first wave, including those categorized as severe. However, it is possible that the difference is due to factors such as vulnerability or susceptibility to post- COVID-19 illness, and is influenced by social, cultural and religious factors.16,17 Other factors may also be at play and will require further study. There are many reasons why patients may have physiological or psychological issues after recovery from COVID-19.4–9 Apart from patients with COVID-19 pneumonia and a case of transient thrombocytopenia, none of the cases from this study had any other symp- toms. As previously reported, cases in this cohort with moderate to critical COVID-19 all had abnormal chest radiography.18 All cases were reviewed by the WPSAR Vol 14, No 1, 2023 | doi: 10.5365/wpsar.2023.14.1.949 https://ojs.wpro.who.int/8 Abdullah et alPost-COVID-19 health-care utilization in Brunei Darussalam Conflict of Interest The authors have no conflicts of interest to declare. Ethics statement This study was conducted in accordance with the ethical standards set out in the Declaration of Helsinki (October 2013). Permission was obtained from the Ministry of Health, Brunei Darussalam, to conduct this study using aggregated, anonymized data. Funding None. References 1. Pei S, Yamana TK, Kandula S, Galanti M, Shaman J. Burden and characteristics of COVID-19 in the United States during 2020. Nature. 2021;598(7880):338–41. doi:10.1038/s41586-021- 03914-4 pmid:34438440 2. Koontalay A, Suksatan W, Prabsangob K, Sadang JM. Healthcare workers’ burdens during the COVID-19 pandemic: a qualitative systematic review. J Multidiscip Healthc. 2021;14:3015–25. doi:10.2147/JMDH.S330041 pmid:34737573 3. Han X, Fan Y, Alwalid O, Li N, Jia X, Yuan M, et al. Six-month follow- up chest CT findings after severe COVID-19 pneumonia. Radiology. 2021;299(1):E177–86. doi:10.1148/radiol.2021203153 pmid:33497317 4. Leung TYM, Chan AYL, Chan EW, Chan VKY, Chui CSL, Cowling BJ, et al. Short- and potential long-term adverse health outcomes of COVID-19: a rapid review. Emerg Microbes Infect. 2020;9(1):2190– 9. doi:10.1080/22221751.2020.1825914 pmid:32940572 5. Nalbandian A, Sehgal K, Gupta A, Madhavan MV, McGroder C, Stevens JS, et al. Post-acute COVID-19 syndrome. Nat Med. 2021;27(4):601–15. doi:10.1038/s41591-021-01283-z pmid:33753937 6. Lopez-Leon S, Wegman-Ostrosky T, Perelman C, Sepulveda R, Rebolledo PA, Cuapio A, et al. More than 50 long-term effects of COVID-19: a systematic review and meta-analysis. Sci Rep. 2021;11(1):16144. doi:10.1038/s41598-021-95565-8 pmid:34373540 7. A clinical case definition of post COVID-19 conditions by a Delphi consensus. Geneva: World Health Organization; 2021. Available from: https://www.who.int/publications/i/item/WHO-2019-nCoV- Post_COVID-19_condition-Clinical_case_definition-2021.1, accessed 24 February 2022. 8. Long COVID or post-COVID conditions. Atlanta, GA: U.S. Centers for Disease Control and Prevention; Updated 1 September 2022. Available from: https://www.cdc.gov/coronavirus/2019-ncov/long- term-effects/index.html, accessed 17 September 2022. 9. Sudre CH, Murray B, Varsavsky T, Graham MS, Penfold RS, Bowyer RC, et al. Attributes and predictors of long COVID. Nat Med. 2021;27(4):626–31. doi:10.1038/s41591-021-01292-y pmid:33692530 The current management protocols require follow-up for patients with unresolved chest radiography findings with moderate to severe COVID-19 or for those who had a complicated illness. There are several limitations that need to be con- sidered when interpreting our findings. Using encoun- ters from government health-care institutions based on the electronic record system excluded encounters with private clinics. However, the demographics of our study patients are consistent with patients whose health-care needs are usually met by the public sector. Furthermore, encounters with the private sector are likely to be minor and considered non-significant, as in Brunei Darussalam specialty services are only available from public health- care institutions. The sample size was small, and further studies with larger cohorts would be useful and should be considered. Prior to the second wave, there were only 340 patients with COVID-19 in Brunei Darussalam and, of these, the majority were excluded as they were expatriates who had just entered Brunei Darussalam or did not have 12 months of follow-up. Despite these limitations, the study population was representative of the situation in Brunei Darussalam. The small number of cases may account for differences between our study and other literature with higher re-admission rates. Studies on post-COVID condition would likely capture more cases by survey rather than electronic records, as patients with milder conditions may self-manage and not present at a health-care facility. However, our study is unique in that our findings are representative of the whole country as all COVID-19 cases were admitted to a single designated centre. In conclusion, our study showed that there were significantly more health-care visits 12 months after recovery from COVID-19 compared with the 12 months prior to infection. However, most post-COVID-19 health- care utilization was due to scheduled COVID-19 health- care visits. Post-COVID condition was not officially diagnosed, and related symptoms were mild and self- limiting. However, our sample size was small and this is a limitation that needs to be taken into account. Further studies are required with a larger sample size. The larger cohort of patients affected by the second wave in Brunei Darussalam would be ideal for further study. WPSAR Vol 14, No 1, 2023 | doi: 10.5365/wpsar.2023.14.1.949https://ojs.wpro.who.int/ 9 Post-COVID-19 health-care utilization in Brunei DarussalamAbdullah et al 17. McCullough ME, Willoughby BL. Religion, self-regulation, and self-control: associations, explanations, and implications. Psychol Bull. 2009;135(1):69–93. doi:10.1037/a0014213 pmid:19210054 18. Tamin N, Ahmed N, Othman IE, Md Salleh NA, Nadeem T, Mani BI, et al. Imaging (chest radiographs) abnormalities in patients with COVID-19 infection in Brunei Darussalam. Brunei Int Med J. 2020;16:141–9. 19. Axiaq A, Almohtadi A, Massias SA, Ngemoh D, Harky A. The role of computed tomography scan in the diagnosis of COVID-19 pneumonia. 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