The ongoing COVID-19 pandemic, caused by the recently identified severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2), has taken the world off guard, with millions of people worldwide currently dealing with its severe consequences. Although COVID-19 primarily affects the respiratory system, it is increasingly recognized as a systemic disease.1 Our previous experience with members of the same coronavirus family (SARS and MERS), which caused two significant epidemics of much lower magnitude in the past, has taught us that the severe consequence of such outbreaks is not limited to acute problems alone. Following these infections, long-term neuro-metabolic and neuropsychiatric effects have been observed.2

Recent researches have demonstrated that COVID-19 can involve the nervous system.3–5 Lu et al. (2020) discovered that severe COVID-19 patients might lose grey matter volume in the brain's frontal lobe.6 Grey matter reduction following COVID-19 is also reported by Douaud et al. (2021).7 As grey matter aids in processing information in the brain, allowing people to manage their movements, memories, and emotions, grey matter deficiency can result in significant brain problems and difficulties.8 SARS-CoV-2 has been reported to invade peripheral olfactory neurons9 which allows for trans-synaptic viral spread to cortical regions, including the hippocampus.10 Since the hippocampus in humans plays a pivotal role in episodic memory and spatial memory,11,12 hippocampal damage may lead to memory impairment. This direct impact on the hippocampus can be amplified by COVID-19 associated immune response that compromises the blood-brain barrier13 and disseminated intravascular coagulation (DIC) related vascular dysfunction.14

Brain in humans represents only 2% of total body weight; however, at rest, it consumes 20% of the body's total basal oxygen.15 This high oxygen demand makes the brain, especially the hippocampus, very vulnerable to hypoxia.16 It is well documented that COVID-19 causes hypoxia via multiple pathophysiologic processes.17 Moreover, critical care and medical oxygen crises worldwide, especially in low- and middle-income countries (LMICs) during this pandemic, have led to preventable anoxic and hypoxic brain injuries.18 Furthermore, statewide lockdown in many countries has often hindered and delayed people's access to health care, contributing to irreversible anoxic and hypoxic damage to the brain.19 A small study conducted on 32 COVID-19 patients found 23 of them having memory complaints.20

Elevated glucocorticoid concentrations have been seen to be correlated with decreased hippocampal volume.21 As the hippocampus is one of the essential neuroanatomic substrates for memory, glucocorticoid-induced changes in hippocampal structure and function may disrupt memory processes that rely on it.22 Since steroid use in treating COVID-19 is prevalent because it can reduce mortality and morbidity,23,24 it can also cause memory complaints.

Arentz et al. (2020) found, more than two-thirds of COVID-19 patients admitted to intensive care units required mechanical ventilation, and all of them developed acute respiratory distress syndrome (ARDS) within three days.25 In addition, several studies observing the long-term outcome of patients who have suffered from ARDS have found loss in memory function,26,27 even lasting up to five years.28

As of October 2021, over 234 million people have recovered from COVID-1929; however, various symptoms have been observed to persist even after recovery from this disease.30 A recent study on non-hospitalized COVID-19 patients observed that 11% reported memory problems eight months after recovery.31 Apart from these, post-COVID-19 memory complaints is still an unexplored area of research. Therefore, it is crucial to estimate the prevalence of memory complaints following COVID-19 recovery and investigate its associated factors.

Table 1 depicts the baseline characteristics of the study participants. Among the 401 participants, the majority were between 30 and 52 years of age (51.87%), male (64.84%), and from urban areas (89.03%). Most participants suffered from mild to moderate disease (56.11%), whereas 23.94% and 19.95% suffered from severe and critical diseases. Nearly half of the participants required hospitalization, and 39.40% required oxygen support. In addition, 52.87% of participants received antibiotics, 49.63% received steroids, 28.18% received anticoagulants, 15.46% received remedesevir, and 1.25% received tocilizumab. Hypertension (22.94%) and diabetes (21.95%) were the two most common. Two-thirds of participants recovered from COVID-19 6–12 months before, and the rest recovered 3–6 months back. 19.2% of the respondents suffered from memory complaints.

Unadjusted and adjusted results of binary logistic regression of study variables are presented in Table 2. The unadjusted results show the region, duration since recovery from COVID-19, and co-existing respiratory disease to be significantly associated with post-COVID-19 memory complaints. Among these factors, only region and duration since recovery from COVID-19 retained their significance after adjustment. Rural people were 3.6 times more likely to suffer from post-COVID-19 memory complaints than urban people (AOR=3.63, 95%CI: 1.72 to 7.67, p=0.001). Also, memory complaints tended to become more prevalent as longer time progressed after COVID-19 recovery. People who suffered from COVID-19 6–12 months ago had a higher tendency to develop memory complaints than people who suffered from COVID-19 3–6 months ago (AOR=6.56, 95%CI: 1.16 to 38.18, p=0.033). Participants receiving steroids and antibiotics as a part of their COVID-19 treatment were 65% and 51% more likely to develop memory complaints, respectively. Patients with co-existing chronic obstructive pulmonary disease (‘) are almost three times more likely to suffer from memory complaints. However, it loses its significance after adjusting for other factors. No association was found between age, Sex, COVID-19 severity with post-COVID-19 memory complaints.

Our results reveal that memory complaints is prevalent among one-fifth of the patients within one year of the post-COVID-19 recovery period. In contrast, Søraas et al. (2021) reported an 11% prevalence eight months after COVID-19 recovery.31 Our study included COVID-19 patients of all severity from mild to critical; on the other hand, Søraas et al. (2021) included only relatively mild and non-hospitalized cases, which may explain their lower prevalence.31 Our study also revealed that memory complaints was more likely to happen as time passed from COVID-19 recovery. For example, participants who recovered 6–12 months back were 6.6 times more likely to have memory complaints than the people who recovered 3 to 6 months ago (AOR=6.56, 95%CI: 1.16 to 38.18, p=0.033).

A cross-sectional survey among 1520 people of Bangladesh revealed that rural residents had a poor level of knowledge and practice associated with COVID-19.35 Moreover, many rural people rely on traditional healers for treatment purposes which may hamper their receipt of evidence-based treatment.36 Furthermore, healthcare facilities are also scarce in rural regions.37 These factors may contribute to the higher likelihood of memory complaints of the rural people than urban dwellers (AOR=3.63, 95%CI: 1.72 to 7.67, p=0.001).

Pre-existing COPD was significantly associated with post-COVID-19 memory complaints in bivariate analysis of our study, although it did not retain significance in multivariate analysis, COPD patients were three times more likely to have memory complaints than individuals. This finding is consistent with Huppert (1982), who reported chronic hypoxia due to COPD may lead to memory complaints.38

Steroid and antibiotic therapy participants showed a somewhat increased chance of experiencing memory complaints than other treatment groups. American Academy of Neurology suggests antibiotics may be more closely associated with delirium and other brain problems than previously thought.39 According to the available research, long-term glucocorticoid exposure may impair cognition by altering hippocampal function and architecture progressively and irreversibly. However, it is unclear if these acute hormonal effects on memory retrieval processes contribute to the problems observed with chronic exposure to glucocorticoids related to memory deficiencies.

Previous studies suggested that COVID-19 infection severity affected cognitive disorders.40 However, our study found no significant relation of memory complaints with COVID-19 severity.

One of the drawbacks of this study is the lack of a control group or a similar cohort study that may provide a better picture of the problem. Generalizability is also an issue as the sample size is comparatively smaller than the population size of COVID-19 recovered patients. This study also did not administer any neuropsychological test to assess memory complaints. Therefore, a future longitudinal study with a larger sample adminstering neuropsychological tests and with a control group is warranted to understand the condition better.

One-fifth of the COVID-19 patients develop memory complaints within a year. The reason behind this memory complaints is still unclear. Since the quality of life of an individual is directly related to memory complaints,40 further investigations should be done to evaluate the etiology of post-COVID-19 memory complaints and to take necessary actions to minimize its prevalence.

This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.

The authors declare not to have any conflict of interest.