Story Retelling and Verbal Working Memory in Young Adults With a History of COVID-19: Cross-Sectional Study
Hyunsoo Yoo

TL;DR
Young adults who had COVID-19 showed reduced story retelling performance compared to those who did not, suggesting possible cognitive-linguistic effects from the virus.
Contribution
This study is among the first to explore the impact of COVID-19 on story retelling and verbal working memory in young adults.
Findings
Participants with a history of COVID-19 produced fewer information units per minute during story retelling.
Verbal working memory significantly predicted story retelling performance, regardless of COVID-19 history.
No significant differences in verbal working memory performance were found between the groups.
Abstract
The impact of the COVID-19 pandemic has primarily been studied in the context of language delays or developmental disorders in infants and children. However, the effects on young adults have received less attention. COVID-19 not only affects physical health but also cognitive and language functions, which is an emerging area of research. While previous studies have focused on developmental stages, the effects of COVID-19 on the language abilities of healthy young adults remain underexplored. This study aimed to investigate the impact of COVID-19 on the spoken language, particularly in story retelling and working memory, in young adults. This study aimed to investigate the effects of COVID-19 on memory-based story retelling and verbal working memory in young adults. Specifically, it examined whether there were group differences in story retelling and working memory performance between…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
| Group | Participants, n | Values, mean (SD) |
|---|---|---|
| Age (years) | ||
| Non–COVID-19 group | 39 | 21.58 (1.24) |
| COVID-19 group | 40 | 21.38 (1.62) |
| Total | 79 | — |
| Years of education | ||
| Non–COVID-19 group | 39 | 16.32 (0.97) |
| COVID-19 group | 40 | 15.61 (1.25) |
| Total | 79 | — |
| Variable | Values |
|---|---|
| Time since infection (months) | 1 infection: mean 256.6 (SD 199.28); 2 infections: mean 168.56.93 (SD 130.93) |
| Number of infections | 1 infection: n=34 (85%); 2 infections: n=6 (15%) |
| Symptom severity | Not quantified; all nonhospitalized |
| Vaccination status | Not obtained |
| Post–COVID-19 symptoms | Not collected; data were obtained before the concept of post–COVID-19 was clearly defined |
Peer Reviews
No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.
Videos
No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.
Taxonomy
TopicsIdentity, Memory, and Therapy · Aging and Gerontology Research · COVID-19 and Mental Health
Introduction
COVID-19 is caused by SARS-CoV-2, and this virus is known to cause respiratory illness in humans. After the first case was reported in December 2019, the total cumulative cases worldwide reached 770,875,433 by October 3, 2023, according to the World Health Organization [1]. Since the introduction of vaccines, the number of cases has decreased dramatically.
While hospitalizations and severe cases of respiratory symptoms have decreased, the impact of COVID-19 on cognition has persisted. Numerous studies have reported cognitive dysfunction in individuals with a history of COVID-19. A recent systematic review article [2] reported that the results are inconsistent. Another study [3] found that age was a risk factor, while other study [4] found that middle-aged individuals were the most vulnerable population. Gender differences were also found [5] in cognitive impairment, and women tend to have higher cognitive impairment than men.
Regarding measures tested for the cognitive abilities, the most common neuropsychological screening tests were commonly used in studies [67], but an inconsistency was also found here: Quan et al [2] claimed that the timing of cognitive testing might be the reason for the inconsistency of the results. Other tasks were also used, such as the Digit Span Test-forward and backwards, Trail Making Test-parts A and B, Stroop Word reading and Colour Naming, Corsi backwards, Stroop test, Rey auditory verbal learning test, Free and Cued Selective Reminding Test, Rey–Osterrieth Complex Figure, and Boston Naming Test, Verbal [8-12]. One study [13] found that the severity of COVID-19 was related to poor performance in executive function tasks (Digit symbol, Trail Making Test B, and phonetic fluency). Akıncı et al [14] also found that COVID-19 affected global cognitive skills, which were evaluated using the Montreal Cognitive Assessment and Clock-Drawing Test; memory functions, evaluated using the Öktem Verbal Memory Processes Test; attention span, evaluated using the Digit Span Test; executive functions, evaluated using fluency tests, the Stroop test, and the Trail Making Test; visual perceptual skills, evaluated using the Rey Osterrieth Complex Figure test; and neuropsychiatric status, evaluated using the Neuropsychiatric Inventory.
Although some studies included verbal language tasks such as the Boston Naming Test, discourse-level spoken language, particularly story retelling, has not been examined in COVID-19–related cognitive research in relation to verbal working memory. Story retelling is a cognitively demanding task that engages multiple components of verbal working memory, including temporary storage, manipulation, and retrieval of linguistic information [1516]. Successful retelling requires not only remembering the sequence of events [17] but also integrating details, maintaining coherence, and regenerating narrative structure [18], all of which rely on both working memory capacity ([19]) and attentional control [2021].
Emerging research suggests that COVID-19 infection may affect higher-order cognitive functions, such as sustained attention, executive function, and verbal memory [922-24undefinedundefined]. These functions are closely tied to narrative production abilities, making story retelling a sensitive measure for detecting subtle post–COVID-19 cognitive changes, particularly in young adults with no overt language deficits.
Some of the studies used working memory tasks, but the format of the working memory tasks was based on visual working memory. According to Baddeley’s [25, 26] working memory model, visual working memory and verbal working memory are 2 distinct cognitive systems. Visual working memory is responsible for storing information and manipulating visual information such as shapes, colours, and images. Verbal working memory handles language-based information and involves also temporarily storing information and manipulating verbal or auditory information such as words, sentences, and numbers. Therefore, the nature of the information process is different, and it is processed in different systems: the visuospatial sketchpad for visual working memory and the phonological loop for verbal working memory. Considering that spoken discourse production has been shown to be a sensitive clinical indicator of language processing deficits in people with atypical neurogenic language disorders (eg, aphasia) [162728], it is imperative to investigate the impact of COVID-19 on spoken discourse performance.
There are different types of spoken discourse formats depending on how the tasks are administered, and there are mainly 2 different types of tasks, one of which is story retelling. In this format, the examiner read a story, and the participants were asked to retell the story immediately after hearing it. The story retelling type taxes memory capacity [16] and is affected by recency and/or primacy effect [29]. Another format is based on picture description. In this format, participants can rely on the picture in front of them; therefore, the task places lower cognitive demands on memory compared to the story retelling format. Yoo et al [16] found the correlation between the verbal working memory tasks with the retelling type of discourse production results in people with aphasia. This aligns with the connection between verbal working memory and various levels of language processing, as extensively documented in the literature [2630-32undefinedundefined].
Therefore, the primary goal of this study was to examine whether COVID-19 affects memory-based story retelling performance and verbal working memory. The previously reported correlation between performance on the Story Retelling Procedure (SRP) and verbal working memory were correlated based on was assessed [16]. If working memory has declined after COVID-19, it is reasonable to hypothesize that story retelling performance would also be affected by COVID-19. The following questions were investigated in this study:
Are there significant differences in measures of story retelling between individuals with and those without a history of COVID-19?Are there significant differences in the verbal working memory between individuals with and those without a history of COVID-19?Is there a predictive relationship between the story retelling and the verbal working memory scores? In other words, can the verbal working memory scores predict the story retelling scores?
Methods
Ethical Considerations
This study was approved by the institutional review board at Baylor University (approval number 1655082‐11). All participants provided verbal informed consent prior to participation. Some personally identifiable information was collected as part of the study. All identifiable data were removed prior to analysis, and the remaining materials were securely stored on a university-provided cloud platform with restricted access. Only approved research personnel had access to the data through institutional login credentials. No identifying details (such as names, initials, facial features, or other unique identifiers) are included in the manuscript or any submitted materials. All data are presented in a manner that ensures participant anonymity and privacy. No compensation was provided to the participants.
Participants
In total, 79 young participants in their 20s with and those without a history of COVID-19 participated in this study virtually: (1) the non–COVID-19 group comprised 39 participants (age: mean 21.58, SD 1.24 years; years of education: mean 16.32, SD 0.97), and (2) the COVID-19 group comprised 40 participants (age: mean 21.38, SD 1.63 years; years of education: mean 15.60, SD 1.25; Table 1).
Participants in the non–COVID-19 group were recruited between November 11, 2020, and December 4, 2020, and self-reported not having a history of COVID-19. Participants in the COVID-19 group were recruited between April 13, 2021, and September 20, 2022, and provided self-reported information regarding time since infection and number of infections. All COVID-19–positive participants were nonhospitalized, and symptom severity ratings were not collected using a formal scale. Vaccination status was not obtained, and information regarding post–COVID-19 condition symptoms was not collected, as the data were obtained during the early stage of the pandemic, before the concept of post–COVID-19 condition had been clearly defined. Table 2 provides a summary of COVID-19–related participant characteristics.
Procedures
All data collection procedures were conducted virtually via Zoom (Zoom Video Communications). Each session lasted less than 1 hour per participant.
The SRP Task
The stories used in the SRP task were adapted from the Discourse Comprehension Test [33], which includes 10 stories that were normed and matched on key linguistic complexity variables such as number of words, sentence length, number of subordinate clauses, listening difficulty, and number of main ideas. The validity and reliability of the SRP as a discourse elicitation procedure have been established through validation studies [3435], which demonstrated strong correlations across multiple linguistic domains with other established elicitation tasks, including picture descriptions and procedural narratives.
SRP participants listened to a short story, and they were asked to retell it immediately afterward. Three short stories were presented, and the averaged raw scores were used for the data analysis. The story information units were checked using the scoring sheet and correct information units per minute was calculated as an outcome variable.
The Working Memory Task
Each participant also completed Alphabet Span Task as a working memory task. In the task, each participant listened to a list of words and was asked to reorder the words in alphabetical order. The list of words was increased as the span increased. The total correct numbers of items were used as the outcome variable for this working memory test.
Statistical Analysis
Statistical analyses for this project were conducted using Python (version 3.10), with the statsmodels and scipy packages for ANOVA and regression modeling. The dataset was assessed for normality, and due to skewed distributions, a natural log transformation (ln) was applied to the story retelling variable (information units per minute [IUs/min]). Two outcome variables were analyzed: (1) log-transformed IUs/min derived from the SRP task and (2) the total number of correct responses on the Alphabet Span task as a measure of verbal working memory.
To address the first research question, a 1-way between-subjects ANOVA was conducted to compare story retelling performance between the COVID-19 and non–COVID-19 groups. The dependent variable was the number of information units produced per minute, log-transformed to meet assumptions of normality.
Results
Overview
The results revealed a significant between-group difference (F1,77=3.99, P=.049), with the COVID-19 group producing fewer information units per minute (mean 0.53, SD 0.21) than the non–COVID-19 group (mean 0.63, SD 0.24). For the second research question, a separate 1-way ANOVA was conducted to compare verbal working memory performance between groups, measured by total number of correct items on the Alphabet Span task. The analysis indicated no significant difference between the COVID-19 (mean 16.21, SD 2.94) and non–COVID-19 (mean 15.30, SD 3.29) groups (F1,77=1.66, P=.20). To address the third research question, a simple linear regression was conducted to evaluate the extent to which verbal working memory performance predicted story retelling performance. The regression model was significant (F1,77=5.31, P=.02), and accounted for 6.4% of the variance in log-transformed IUs/min (R²=.064).
The regression equation was:
Story retelling performance (log IUs/min)=−0.493+0.014×verbal working memory performance (Alphabet Span Test: the total correct numbers of items).
The unstandardized regression coefficient (B=0.014) indicates that each additional point on the Alphabet Span Test resulted in a 0.014 increase in log-transformed IUs/min. This corresponds to an approximate 1.4% increase on the raw scale:
This back-transformation should be interpreted cautiously. All statistical inferences were based on log-transformed values due to nonnormality in the original distribution. The 95% CI for the slope ranged from 0.002 to 0.026, suggesting a modest but statistically reliable association between verbal working memory and story retelling performance.
Additional Exploratory Analyses
Additional exploratory analyses were conducted within the COVID-19 group to examine whether the number of days since infection was associated with performance on cognitive-linguistic tasks. Time since infection was not significantly associated with story retelling performance (r=.10; P=.57; R²=.009) or with verbal working memory scores (r=.04; P=.83; R²=.001). These results suggest that recovery time did not significantly account for performance variability in either task. All additional statistical analyses were conducted using Python (version 3.10) with the pandas, scipy.stats, and seaborn libraries. Exploratory correlation analyses were performed using the Python pearsonr function to assess linear associations between variables of interest, and simple linear regression was conducted using the linregress function.
Discussion
Principal Findings
This study aimed to investigate the impact of COVID-19 on spoken story retelling and verbal working memory and to examine the predictive relationship between the story retelling and the verbal working memory in young adults. The results found that the story retelling performance of the COVID-19 group was significantly lower than that of the non–COVID-19 group. However, despite this performance difference in story retelling, no significant difference was observed between the groups in verbal working memory. This highlights an interesting contrast, suggesting that while the COVID-19 group showed reduced story retelling performance, their verbal working memory capacity did not differ significantly from that of the non–COVID-19 group, indicating that other factors beyond memory might contribute to the observed differences in story retelling performance. In the results of regression analysis, the spoken story retelling performance, measured by %IUs/min, was significantly predicted by the verbal working memory span, even though the prediction was weak, indicating that the relationship between these 2 variables is complex and may be influenced by other factors not captured in this analysis. These results indicate several critical updates of the impact of the COVID-19 on spoken language processing and verbal working memory.
SRP Results
Our findings reveal a surprising impact of COVID-19 on the spoken language of young adults, challenging the prevailing assumption that only infants and children in the developmental stage are susceptible to such effects. Although prior research has predominantly linked COVID-19 with developmental language disorders or delays, particularly in infants and children [36-39], this study underscores the unique vulnerability of healthy young adults to disruptions in story retelling as a result of COVID-19 infection. While children in the developmental stage are generally considered more vulnerable to language impairments, young adults typically exhibit stable story retelling abilities. However, this study suggests that COVID-19 may be associated with disruptions in these abilities. The duration and trajectory of such effects remain unclear, particularly in individuals experiencing post–COVID-19 condition. Future longitudinal research is needed to clarify whether and how story retelling performance may change over time. Additionally, this study suggests that story retelling may be especially sensitive in detecting the cognitive impact of COVID-19. This heightened sensitivity may be attributed to the complexity of the language system, wherein discourse-level processing involves multiple cognitive and linguistic components. In this context, the SRP, which heavily relies on auditory comprehension and various memory functions [162940-42undefinedundefined], emerges as a particularly sensitive tool. Both auditory comprehension and memory have been identified as vulnerable indicators of disruptions in language processing abilities [4344]. Given the complexity of language processing assessed by the SRP, it holds promise as an invaluable tool for detecting the nuanced effects of COVID-19 on story retelling in young adults.
Verbal Working Memory Findings
Conversely, we observed no significant impact of COVID-19 on verbal working memory. These findings contrast with those reported in previous literature, which has documented negative effects of COVID-19 on working memory [45]. One possible explanation for this discrepancy is the age group of the participants in this study. According to recent research [45], the detrimental effects of COVID-19 on working memory function are primarily observed in adults aged 25 years and older. In contrast, the average age of the participants in the COVID-19 group in this study was 21.37 years, with the non–COVID-19 group also consisting of individuals in a similar age range. This age-related difference may account for the absence of significant working memory decline in the younger cohort in this study. Another potential factor is that none of the participants had been hospitalized for COVID-19, and most reported only mild symptoms. It is also possible that some were asymptomatic. This limited severity may help explain the absence of significant group differences in working memory performance. Moreover, this study did not collect data on whether the COVID-19 group experienced brain fog or post–COVID-19 condition, as data collection took place shortly after the acute phase of COVID-19 infection. It is possible that participants did not exhibit symptoms of post–COVID-19 condition related to cognitive decline or other persistent neuropsychological impairments. Given these factors, further research is needed to examine verbal working memory in individuals experiencing symptoms of post–COVID-19 condition, as this cohort may exhibit different cognitive outcomes.
Results of Regression Modeling
Regression modeling revealed that the story retelling performance was predicted by the verbal working memory test, specifically the Alphabet Span task. This association between SRP and verbal working memory was previously identified in a study involving stroke survivors with aphasia [16]. Revisiting these results with a narrowed focus on individuals exhibiting symptoms of post–COVID-19 condition is crucial to further clarify this predictive relationship further.
Limitations
As discussed earlier, a notable limitation of this study is the absence of information regarding whether participants with a history of COVID-19 had experienced post–COVID-19 condition. This gap in data collection stems from the timing of the study, which occurred shortly after the onset of COVID-19. In addition, this study was conducted in a virtual testing environment, which may have introduced variability in participants’ attention, environmental distractions, or audio quality, potentially affecting performance. Another limitation is the possibility of selection bias, as participants volunteered to complete the study remotely and may not fully represent the broader young adult population. Furthermore, the regression analyses yielded relatively low predictive power, suggesting that while certain predictors showed statistical associations, they may not account for a substantial proportion of variance in story retelling performance.
Conclusion
This study identified differences in spoken story retelling performance between individuals with and those without a history of COVID-19. Additionally, story retelling performance was predicted by the Alphabet Span Test, a measure of verbal working memory. These findings suggest that story retelling may be sensitive to subtle post–COVID-19 cognitive-linguistic changes in young adults. This has potential clinical implications for early cognitive-linguistic screening and targeted support interventions, particularly in educational and clinical settings.
The reference list from the paper itself. Each links out to its DOI / PubMed record.
- 1COVID-19 cases, world World Health Organization UR Lhttps://data.who.int/dashboards/covid 19/cases?n=c Accessed 17-07-2025
- 2Quan M Wang X Gong M Wang Q Li Y Jia J Post-COVID cognitive dysfunction: current status and research recommendations for high risk population Lancet Reg Health West Pac Sep 202338100836 doi 10.1016/j.lanwpc.2023.100836 Medline 37457901 PMC 10344681 · doi ↗ · pubmed ↗
- 3Evans RA Leavy OC Richardson M et al Clinical characteristics with inflammation profiling of long COVID and association with 1-year recovery following hospitalisation in the UK: a prospective observational study Lancet Respir Med Aug 2022108761775 doi 10.1016/S 2213-2600(22)00127-835472304 PMC 9034855 · doi ↗ · pubmed ↗
- 4Matias-Guiu JA Herrera E González-Nosti M et al Development of criteria for cognitive dysfunction in post-COVID syndrome: the IC-Co Di-COVID approach Psychiatry Res 012023319115006 doi 10.1016/j.psychres.2022.115006 Medline 36521337 · doi ↗ · pubmed ↗
- 5Ceban F Ling S Lui LMW et al Fatigue and cognitive impairment in Post-COVID-19 Syndrome: A systematic review and meta-analysis Brain Behav Immun Mar 202210193135 doi 10.1016/j.bbi.2021.12.020Medline 34973396 PMC 8715665 · doi ↗ · pubmed ↗
- 6Petersen EL Gossling A Adam G et al Multi-organ assessment in mainly non-hospitalized individuals after SARS-Co V-2 infection: The Hamburg City Health Study COVID programme Eur Heart J 2022431111241137 doi 10.1093/eurheartj/ehac 08634999762 PMC 8755397 · doi ↗ · pubmed ↗
- 7Blazhenets G Schroeter N Bormann T et al Slow but evident recovery from neocortical dysfunction and cognitive impairment in a series of chronic COVID-19 patients J Nucl Med 0712021627910915 doi 10.2967/jnumed.121.262128 Medline 33789937 PMC 8882885 · doi ↗ · pubmed ↗
- 8Crivelli L Palmer K Calandri I et al Changes in cognitive functioning after COVID-19: A systematic review and meta-analysis Alzheimers Dement 05202218510471066 doi 10.1002/alz.12644 Medline 35297561 PMC 9073922 · doi ↗ · pubmed ↗
