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REVIEW article

Front. Psychol., 25 April 2023
Sec. Health Psychology
This article is part of the Research Topic Technostress, Mental Health and Well-being View all 8 articles

Technostress at work during the COVID-19 lockdown phase (2020–2021): a systematic review of the literature

\r\nMaria Emilia Bahamondes-RosadoMaria Emilia Bahamondes-Rosado1Luis Manuel Cerd-SurezLuis Manuel Cerdá-Suárez2Gino Flix Dodero Ortiz de ZevallosGino Félix Dodero Ortiz de Zevallos1Juan Felipe Espinosa-Cristia*Juan Felipe Espinosa-Cristia3*
  • 1Newman Escuela de Postgrado, Universidad Internacional de La Rioja (UNIR), Logroño, Spain
  • 2Facultad de Empresa y Comunicación, Universidad Internacional de La Rioja (UNIR), Logroño, Spain
  • 3Departamento de Ingeniería Comercial, Universidad Técnica Federico Santa María, Valparaíso, Chile

Technostress is a psychosocial phenomenon associated with the use of technologies to the detriment of health, the same one that during the pandemic was accelerated in the work considering home confinement. This work aims to systematize the main research on the impact of technostress at work during the severe confinement stage of the pandemic, between the years 2020 and 2021, with the purpose of identify and evaluate its main determining factors. A systematic review of the literature was carried out during COVID-19, using the words “technostress work COVID-19.” The works found focus mainly on analyzing the creators and inhibitors of technostress in workers, as well as the main consequences of the materialization of this technological risk associated with work performance during the stage of confinement by COVID-19. Techno invasion and techno overload were identified as the main techno stressors, with the main type of technostress appreciated in the literature being techno fatigue. Technostress is identified as a problem that had direct and relevant effects during the season of severe confinement and remote work at home due to COVID-19; highlighting techno fatigue as the most frequent type of stress, and techno stressors such as techno invasion and overload as the ones that presented the highest incidence.

1. Introduction

For Despite providing a functional solution for human interaction, information, and communication technologies (ICT) have also proven to be a potential problem for the health of organizations’ human resources, as more advanced technological innovation and improved functionality go hand-in-hand with greater technological stress. Technostress is defined as the stress that people experience as a result of their use of information and communication systems and technologies (Tarafdar and Gordon, 2007; Tarafdar et al., 2014; Chen, 2015). It is a global phenomenon, which has been demonstrated by academic research and is experienced by workers across national borders and cultures (Chen, 2015).

As is well known, a series of cases of atypical pneumonia were reported in the city of Wuhan (China) in December 2019, which were triggered by a new coronavirus called SARS-CoV-2 that causes COVID-19 disease (Mojica-Crespo and Morales-Crespo, 2020). In March 2020, a pandemic was declared in response to the exponential rise in cases in several countries (Ramírez et al., 2021), with consequences for education, society, the economy, the public authorities and economic and social activity more broadly. The widespread virtualization that emerged during this period gave rise to a range of psychosocial problems affecting workers’ health, including technostress. The term “technostress” was coined by Brod (1984), who defined it as an individual’s inability to adapt to the use of ICT in a healthy manner due to factors such as age, prior experience of technology, connection time, perception, etc., with an impact on their performance.

Remote working entails working outside the company’s physical premises using information technologies (Chong et al., 2020). As noted above, the emergence of the SARS-CoV-2 pandemic forced the world into lockdown and provided ample opportunity for remote working, which allowed work to continue remotely using technology in most administrative roles in both the public and private sector. Despite this, most people were unprepared for remote working or had rarely experienced it prior to the pandemic and were affected in different ways by the sudden virtual, remote nature of their work; one of the outcomes of this shift to remote working was technostress (Tuan, 2022).

The conservation of resources theory to understand stress among employees working remotely during the COVID-19 pandemic began recently (Colquhoun et al., 2014). They drew on the work of Wang and Shu (2008), Tarafdar et al. (2010), and Salazar-Concha et al. (2021), who define resources as elements such as energy and emotions that are perceived by individuals as allowing them to achieve their objectives. In their study, the disruption caused by the COVID-19 pandemic was viewed by Colquhoun et al. (2014) as a period when remote workers experienced a fluctuation in their roles and tasks, and therefore, in their resources.

Three types of technostress have been identified by the literature (La Torre et al., 2020). The first is techno-anxiety, which is perhaps the most well-known type of technostress. It refers to a state in which people experience high levels of physiological arousal, increased blood pressure and unease due to their current or future use of ICT. The second is techno-fatigue, which is characterized by tiredness and cognitive exhaustion because of the use of ICT and can be exacerbated by feelings of wariness and inadequacy in relation to its use. Finally, the third is techno-addiction, which is a phenomenon whereby people feel a constant, obsessive, compulsive need to use ICT everywhere, all the time, when carrying out their activities, evaluating work, providing feedback, and caring for their families.

Meanwhile, a model of technostress that differentiates between stressors and strains was developed by Tarafdar and Gordon (2007). The model identifies a scale of factors, including:

1. Techno-invasion: technology is invasive and plays a central part in workers’ everyday lives.

2. Workers struggle to separate their personal lives from their work as they are always “connected.” This affects their free time and their privacy.

3. Techno-overload: an increase in workload forces employees to maintain an unsustainable pace. Technology brings with it a significant amount of work-related information that individuals feel pressured to address.

4. Techno-complexity: technology can be difficult to use. Workers feel that they are inadequate.

5. Techno-insecurity: workers do not feel secure within their companies. They believe that any distraction from their objectives will lead to their dismissal.

6. Techno-uncertainty: changes and upgrades to ICT oblige workers to constantly learn how to use it.

In the same line of research, Ayyagari et al. (2011) adapted the previously identified technostress creators into five techno-stressors: work overload (i.e., perception that the assigned job exceeds capabilities or skills), role ambiguity (i.e., lack of information to perform the job), job insecurity (i.e., perception of threat of losing one’s job; like techno-insecurity), work–home conflict (i.e., perceived conflict between home and work demands), and invasion of privacy (i.e., perception of a compromised privacy). The literature on technostress has identified several factors that can influence and exacerbate the stressors affecting individuals, as La Torre et al. (2020) notes. This includes individual differences, organizational characteristics and perceptions relating to technological characteristics (Hutton et al., 2015; Lockwood et al., 2017; Abbas et al., 2020; Carillo et al., 2021).

Against this backdrop, this study aims to systematically review recent studies on the impact of different techno stressors at work during the COVID-19 lockdown phase in the early years of the pandemic in order to identify positive and negative impacts during these types of lockdowns. This line of research makes an important contribution to ascertaining the variables of technostress that are relevant to work, with a focus on the period of lockdowns triggered by the public health situation in countries where the topic in question has been studied specifically. Evaluating these variables represents a fruitful avenue for exploring their relevance within organizations.

In the present paper, the general objective is defined as follows: to systematically review the main studies on technostress and its relationship with work activities during the COVID-19 lockdown period in 2020–2021. Specific objectives are:

1. To qualitatively analyze the techno stressors caused by the COVID-19 pandemic during the period.

2. To ascertain the main impacts of technostress on work caused by the COVID-19 pandemic during the study period, in accordance with the systematic review of the literature.

3. To identify the type of technostress that had the greatest impact on work during the period of the COVID-19 pandemic under study, in accordance with the systematic review of the literature.

2. Materials and methods

This study employed an exploratory, non-cross-sectional, qualitative, and systematic design. A comparative analysis of the information presented in recent studies associating variables of technostress with work during the COVID-19 lockdowns in 2020–2021 was carried out to systematically review the main results obtained and identify relevant themes. All studies investigating these research topics were searched through two database [SCOPUS and Web of Science (WOS)] and all entries were imported in Zotero to remove duplicates, after which titles and abstracts were screened according to predefined eligibility criteria (the full description of the methodology is reported in Figure 1 and Supplementary Table 1). Due to the high heterogeneity of the studies included, a meta-analytic summary of the findings was not feasible.

FIGURE 1
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Figure 1. Flow diagram (PRISMA 2020 version). Compiled by the authors, following Oksanen et al. (2021) and the PRISMA 2020 statement: an updated guideline for reporting systematic reviews.

From 1,131 studies identified through the initial research, after excluding duplicates, conference papers, and book chapters and reviewing title and abstract screening, 24 articles were included in the present study (PRISMA flowchart is reported in Figure 1). Importantly, although we may use causal-like terms in describing the results, the reader should keep in mind that all the studies (apart from four of them regarding cultural aspects and validation of scales adapted to other countries) made use of a cross-sectional design.

2.1. Research questions

The methodology was informed by the following specific research questions:

1. How did technostress affect people’s work during the lockdown phase of the COVID-19 pandemic? (Q1).

2. What were the main techno stressors affecting work during the lockdown period? (Q2).

3. Which studies have provided evidence of these impacts at the global level? (Q3).

To answer these questions, the methodology recommended in the PRISMA 2020 statement was used to systematically tabulate the main results of recent studies published in the field covered by this review. Based on the study variables identified, the bibliographic references were tabulated in accordance with the following criteria: (a) temporal scope: 2020–2021 (associated with the COVID-19 pandemic); (b) type of publication: indexed journals; (c) field: labor psychology; and (d) key topics: technostress and work. These criteria allowed relevant information to be obtained on the effects of technostress on work during the COVID-19 pandemic.

Although many aspects must be taken into consideration in the exceptional transition to extensive virtual work, which included increased workload among other external factors most relevant, in the analytical process of this paper a top-down approach was taken. In other words, the lines of research studied around the start of the COVID-19 pandemic (from early February 2020) were followed. Depending on their continuance, the analysis then considered the second wave of the pandemic (December 2020–February 2021), identifying different remote working practices according to the type of organization, industry, and public or private sector. This was then linked to prior knowledge of technostress as a factor associated with excessive use of technology and of the reorganization of work settings and activities. This process gave rise to inferences that were shared between the authors, allowing several prior assumptions to be established to determine and reveal the development of the phenomenon of technostress and remote work during the study period. The study did not focus on a specific sector; instead, it explored the effects of technostress in remote working situations that were imposed during the lockdown phase.

Once the study area had been defined, electronic records were identified through a systematic bibliographic search carried out by inserting the keyword extraction algorithm into the scientific databases used in the study, SCOPUS and WOS, which were selected for their reliability and relevance to the social sciences. The study was conducted in accordance with the guidelines for systematic reviews published in the 2020 edition of the PRISMA statement (Preferred Reporting Items for Systematic Reviews and Meta-Analyses).

The research took place between December 2021 and February 2022 and included qualitative studies containing keywords such as “technostress,” “work,” “COVID-19,” “2020,” and “2021.” These keywords and their scope were selected to fulfill the study objectives: to ascertain the impact of technostress at work during the COVID-19 pandemic and its relevance as a framework to guide action by organizations.

2.2. Inclusion criteria

The inclusion criteria used to select the articles were: written in English or Spanish; keywords; title and summary in English; translated with Google Translate. These criteria were chosen to link the study objective to the research areas, with a series of exclusion criteria applied to the latter. The exclusion criteria used to select the articles were: taking an educational perspective (e.g., technostress among students); taking a family perspective (e.g., technostress among children, elderly people, etc.); taking a clinical perspective (e.g., associated pathologies); review articles; gray literature; letters to the editor; conference summaries, and lectures. No geographical restrictions were applied as studies from different continents relating to the variables and research areas (technostress at work during the 2020–2021 period of the COVID-19 pandemic) found in the SCOPUS and WOS databases were taken into consideration in the review.

Table 1 shows the checklist drawn up in accordance with the PRISMA 2020 guidelines, which contains the main factors considered in the qualitative systematic review of the selected studies. Figure 1 shows the development of a filter based on the research criteria applied in this study.

TABLE 1
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Table 1. Checklist – PRISMA 2020 guidelines.

TABLE 2
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Table 2. Table of articles analyzed using the JBI-Qualitative Critical Appraisal Checklist.

TABLE 3
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Table 3. Systematic review of articles with answers to our specific research questions.

2.3. Evaluation and methodological quality

Following Torres (2021), the selected articles were evaluated independently by two reviewers. Any differences between the two reviewers were resolved through discussion or, if a consensus could not be reached, by involving a third reviewer. For the methodological review, the articles were evaluated using the JBI Critical Appraisal Checklist for Qualitative Research. More specifically, this instrument assesses methodological quality via a thorough analysis of the following elements in question format (Q): philosophical perspective adequately established (Q1); congruity between the research methodology and the research question (Q2); qualitative methods (Q3); data analysis (Q4) and interpretation of results (Q5); adequate reference to researcher’s cultural or theoretical paradigm (Q6); researcher’s influence on research addressed (Q7); adequate representation of participants and their voices (Q8); ethical approval by an appropriate body (Q9); and adequate presentation and interpretation of final conclusions (Q10). All articles with a positive score in 80% of the aforementioned items were included in the study.

3. Analysis and results

Supplementary Table 1 on the techno stressors associated with work around the world that were identified in this study are presented below.

One important aspect of the results analysis in this systematic literature review is related with the thematic categorization and meta-aggregation of the data following the PRISMA methodology. In this study, the findings were summarized, organized, and aggregated into themes of relevance and interest. Four main thematic categories were identified, allowing the main objective of this systematic literature review to be fulfilled: Thematic category 1: “relevance of technostress at work”; Thematic category 2: “impact of COVID-19 on remote work”; Thematic category 3: “workers and remote working”; and Thematic category 4: “contextual barriers to remote working.” In the following section, the main results obtained from the analysis are described and discussed.

4. Discussion

4.1. Relevance of technostress at work

Regarding remote work, which represents the focus of this study, high levels of technostress were significantly influenced by age, higher ranking roles, female gender, and a poor working environment (Benlian, 2020; Cheikh-Ammar, 2020). The analysis clearly points to an increase in digital life among elderly people. Higher levels of perceived inadequacy and skepticism were observed among teachers aged 46 and over, for example (Dias Pocinho and Costa Garcia, 2008; Kaltenegger et al., 2020). Indeed, technology adoption process progressed in stages, from complete confusion to relative ease, significantly reducing elderly people’s loneliness and bringing about a relatively stable change to their way of life (Domínguez-Torres et al., 2021; Sinha et al., 2021).

One of the most frequent samples found, during the systematic review, was teachers working in the education sector. Some of those studies explored the impact of technostress on their work. Teachers experienced moderate levels of technostress and very high levels of professional performance and satisfaction, while technostress was found to have a significant negative association with professional performance (Pandey and Pal, 2020; González-López et al., 2021; Oksanen et al., 2021). One of the studies showed that 11% of teachers display techno-anxiety and 7.2% techno-fatigue (Hinojosa López et al., 2021). Privacy concerns aggravate teachers’ technostress in online teaching. Self-efficacy in online pedagogy has been shown to alleviate teachers’ technostress (Khedhaouria and Cucchi, 2019; Beare et al., 2020; Kalischko et al., 2020; Sinha et al., 2021; Hwang et al., 2022).

Technostress was found to be a complex phenomenon with an impact on users of information systems and its complexity and impact have been neglected in the systematic study carried out in this work. Technostress is a crucial area of research, which must seek to establish the true psychosocial impact on workers (techno-uncertainty, techno-complexity, and techno-addiction, which are direct causes of technostress), who experience strains that may affect their health in the form of burnout, anger and anxiety, for example, reducing their professional satisfaction and productivity. In some individual cases, workers may display technostress inhibitors – technological self-sufficiency (La Torre et al., 2019; Ju and Sook, 2020; Zito et al., 2021).

4.2. Impact of COVID-19 on remote work

The COVID-19 virus has had an unprecedented impact on people, organizations, and industries (Jung and Kim, 2020; Kaltenegger et al., 2020) affecting individuals’ social, professional, and financial lives, imposing changes to the social order, and reducing wellbeing and quality of life among employees (Martínez, 2020). Workplace closures and social distancing measures in companies intended to stop the spread of the virus, such as remote working and digitalization, have presented new challenges for workers. Research has shown that digital remote working during the COVID-19 pandemic has led to technostress among workers (Brooks et al., 2020; Nisafani et al., 2020; Korzynski et al., 2021) which is defined as the stress experienced by individuals due to their inability to cope with the demands of using information technology (Tarafdar and Gordon, 2007; Nimrod, 2022).

The results point to a significant influence of crisis-specific variables such as professional isolation, remote work environment, increased workload, and stress. They also show how detachment mediates the effect of telepressure on wellbeing and how technostress inhibitors moderate the effect of technostress creators on wellbeing (La Torre et al., 2019; Becker et al., 2022; Nasirpouri Shadbad and Biros, 2022). Analysis of the moderating effect shows that control behavior has a negative effect and technostress a positive effect on alleviating technostress (Kim and Kang, 2020; Nyland et al., 2020; Panisoara et al., 2020).

Regarding techno stressors, techno-complexity, techno-invasion, and techno-overload were found to be the main factors producing negative psychological responses during the COVID-19 pandemic, with techno-overload having the most significant influence. This is due to the lack of instant feedback on workload allocations in remote working and the absence of an adjustment period. In the case of techno-complexity, employees appear to experience difficulties in acquiring new technical skills. Finally, techno-invasion also proved significant as home-related activities infiltrated the working environment (Turel and Gaudioso, 2018; Califf et al., 2020; Pullins et al., 2020; Ploder et al., 2021; Soror et al., 2022).

4.3. Workers and remote working

Respecting to the impact of technostress on organizations, the following results were obtained from the analysis. There was a negative association between organizational communication and psychophysical disorders through both technostress and self-efficacy (Wang and Shu, 2008; Vaziri et al., 2020; Zhao et al., 2020; Tiwari, 2021; Zito et al., 2021). Meanwhile, there was a negative relationship between promotion-focused employees and security technostress creators, with a negative impact on strains such as organizational commitment and compliance intentions. High levels of authoritarian leadership had an exacerbating effect and low levels of authoritarian leadership had a protective effect on the relationship between workaholism and technostress (Ferziani et al., 2018; Brooks et al., 2020; Hwang and Hu, 2020; Luqman et al., 2020; Toscano and Zappalà, 2020; Korzynski et al., 2021). Finally, smart work introduced to improve performance was shown to cause technostress, which had a negative impact on productivity at work (Kaltenegger et al., 2020; Eidman and Basualdo Felleau, 2021).

The results indicate a disparity in workers’ resilience during remote work and highlight the need for support at the organizational level (Vaziri et al., 2020; Pflügner et al., 2021; Taser et al., 2022). Technostress is positively associated with psychophysical disorders, whereas self-efficacy is negatively associated (Wang and Shu, 2008; Zhao et al., 2020; Estrada-Muñoz et al., 2021). Mindfulness led to lower perceived levels of technostress, but it did little to mitigate the effect of perceived techno stressors on burnout. Techno-overload, intensity of daily workload, techno-invasion, and the socioemotional consequences of working beyond normal working hours were found to be technostress creators, while technostress inhibitors did not appear to perform a protective role. Training and creative self-efficacy were useful to control technostress and maintain the performance of lecturers during COVID-19 (Luqman et al., 2020; Estrada-Muñoz et al., 2021).

When transitioning to digital platforms as a social distancing measure during the pandemic, organizations must take technostress among employees into consideration and promote proactive coping strategies. Organizations must offer training in mindfulness and interpersonal care among employees, encouraging them to pay attention to their needs for growth and learning and to seek a balance between their need for growth (promotion-focused) and need for security -prevention-focused (Toscano and Zappalà, 2020).

4.4. Contextual barriers to remote working

When it comes to contextual barriers to remote working, limitations were observed in terms of the diverse results and methods used to obtain them. This was influenced by the different countries and their cultures of technology use, as well as by the sectors or areas in which the organizations operated.

Priority was given to studies focusing on the impact of techno stressors on work during the pandemic: these included techno-fatigue caused by excessive technology use during the lockdown period and techno-overload caused by people’s dependency on technology as a key channel for communication.

In terms of contextual barriers, to create a framework for the study that will prove useful in practice, the phenomenon of technostress in relation to work and the use of technology during lockdown must be adequately contextualized to allow subsequent studies to explore techno stressors in depth using specific clinical models/methods.

Although contextual barriers to remote working were significant in the period preceding the sudden onset of the pandemic, the results of this study show that future research on specific psychological factors to determine types of techno stressors will be necessary (Ferziani et al., 2018). Many of the studies included in the review focused on teachers in the education sector, so future research should explore other professional sectors, especially those where remote working has been particularly prominent (Ferziani et al., 2018; Spagnoli et al., 2020).

4.5. Thematic categorizations and main findings

This study posed the following research questions: (1) How did technostress affect people’s work during the lockdown phase of the COVID-19 pandemic? (Q1); (2) What were the main techno stressors affecting work during the lockdown period? (Q2); and (3) Which studies have provided evidence of these impacts at the global level? (Q3). According to a GRADE approach to address the answers to these research questions (Schünemann et al., 2019), the literature review was referred previously to a research strategy for assessing certainty of the evidence in terms of the thematic categories: “relevance of technostress at work,” “impact of COVID-19 on remote work,” “workers and remote working,” and “contextual barriers to remote working.” In the following subsection, the main results obtained from the categorization are discussed (answer to Q3 is included in Table 3).

Based on these studies, the present systematic review revealed important results leading to theoretical considerations and evidence on the technostress during the 2020–2021 period. Table 3 regarding systematic review of articles describes answers to our specific research questions. Thus, in response to the first research question (Q1), a range of factors are antecedents of technostress affecting people’s work during the lockdown phase of the COVID-19 pandemic, such as social media communication (SMC) among workers already accustomed to using SMC at work before the crisis, the ways in which people made use of social networking sites and various digital platforms to manage their lives better. Also, relationships between technostress and employee performance are evidenced, taking training and creative self-efficacy as boundary conditions, privacy concerns, and psychophysical disorders. The potential protective role of organizational communication could mitigate the effect of technostress and enhance self-efficacy, a personal resource that helps reduce psychophysical disorders. Additionally, high levels of authoritarian leadership had an exacerbating effect on the relationship between workaholism and technostress. Therefore, authoritarian leadership should be avoided, and leaders should be trained to raise awareness of its impact.

A diverse range of findings are related to techno-anxiety and techno-fatigue. Combining both manifestations, studies present insights into contemporary technostress management as a new approach offering opportunities to optimize prevention plans. Finally, technostress and loneliness serially mediated the relationship between remote e-working and flow, which result in lower levels of flow at work and evidencing a significant influence of crisis-specific variables such as professional isolation, telework environment, and increased workload. The results confirmed positive relationships between workload, techno stressors, work-family conflict, and behavioral stress.

Regarding the second research question (Q2), among the studied constructs, contextual barriers to remote working represent the most consistent portion (eight articles linked to job characteristics: group 4 in Table 3). That is, work-home conflict, and invasion of privacity, technostress and loneliness, professional isolation, telework environment, techno-complexity, techno-invasion, techno-overload, smart work (teleworking), and technology, are symptoms that did not only positively correlate with each other, but they also independently predicted technostress as a broad range of stressors. The same picture emerged concerning organizational environment problems linked to the impact of COVID-19 on remote work, which were generally well investigated (seven articles in total: group 2 in Table 3). In this sense, a range of diverse stressors during the 2020–2021 period are related to the presence of aspects such as inflexibility in the form of remote working, lack of training and creative self-efficacy, privacy concerns, lack of self-efficacy, lack of organizational communication, psychological disorders, lack of technological pedagogical knowledge, lack of self-efficacy, lack of intrinsic and extrinsic work motivation, occupational stress, family-work interactions, lack of organizational support, authoritarian leadership, and workaholism.

Similarly, three articles referred to technology features and strain linked to technology describe the relevance of technostress at work, with stressors such as SMC at work, work exhaustion, use of technology via platforms of social networks, and ICTs for communication, strain linked to ICT use, and lack of behavior-based functional and dysfunctional coping strategies to face these circumstances (group 1 in Table 3). Finally, two studies are related to personal characteristics (group 3 in Table 3), describing stressors such as techno-anxiety, techno-fatigue, techno-anxiety, and archetypes of social media use, moderated by type of individual, social, and professional spheres. Certainly, all last stressors are linked to workers and their presence in remote working.

To sum up, based on our findings it is feasible to sustain technostress affect people’s work during the lockdown phase of the COVID-19 pandemic. Moreover, it is likely that strain linked to technology, occupational and organizational conditions, lead to higher levels of technostress, which, in turn, triggers or increases negative health-related outcomes, and vice-versa (see Table 3).

In terms of a prospective contribution made by this study, intensive, unexpected use of technology had an impact on many people’s performance at work during the COVID-19 lockdown around the world. This experience indicates that the psychosocial factors associated with effective technology use should be addressed directly (by occupational health departments) to implement sustainable mental and physical health policies in the long-term.

5. Conclusion

Among the most important findings of the qualitative systematic review conducted for this study, workers were found to experience greater techno-fatigue as they lacked control over their working hours and were unaccustomed to working remotely: the results concerning teachers, lecturers and professors, who had to adapt their teaching methodologies in order to work remotely, were particularly striking. Techno-overload was also observed among workers, who had to adapt suddenly and unexpectedly to new ways of working at home during the COVID-19 lockdown. In both cases, the results displayed a series of negative effects on occupational health, including reduced productivity levels.

High levels of technostress were significantly influenced by age, technical versus professional occupations, female gender, levels of decision-making responsibility and a poor working environment. The analysis clearly points to an increase in digital life among older people, which will require specific analysis in future studies to determine appropriate mitigation measures to address the psychosocial impacts of technostress at work.

Although technostress is not exclusively associated with remote working, it is a disorder that must be adequately detected and treated as it can have a harmful impact on people’s health, giving rise to a range of negative consequences that can trigger related pathologies. Technostress is particularly linked to remote working as it involves measuring the impact of psychosocial effects in a remote working relationship, where concepts associated with the culture of performance-based work are prevalent.

While it is evident that remote working can give rise to greater demands for ICT use and reduced face-to-face interaction, less is known about how this exposure can influence workers’ subjective mental experiences in terms of their concentration and satisfaction at work. However, several studies have provided an insight into the phenomenon associated with techno stressors during the COVID-19 lockdowns and this paper has summarized the main findings relating to this period.

We want to mention some preliminary practical implications at the personal and organizational levels. At the personal level, although are in hot demands nowadays, it is not enough to produce mindfulness programs at work. Such programs do not mitigate the effect of techno stressors on burnout, as we explained before in the discussion section. The proper development of organizations requires a decisive role in the development of stress management at the level of each of its employees. Managers need to be planning, controlling, and organizing continuously the techno-overload, work intensity and put limits for any techno-invasion. Such are relevant decision and managerial variables to avoid any socioemotional consequences of techno stress at working, and overall, to embrace the protective management role in times of deep techno transformations.

At the organizational level and looking at the evidence of the systematic review of the literature, it is possible that a knowledge-diverse work environment becomes an organizational context that could help employees to handle difficult and complex tasks presented by various technologies and alleviate experienced technostress. As the research shows, context is crucial to produce an adequate reduction of technostress, considering the general and cultural organizational aspects related. In this sense, management need to be close involved to monitor and control those interactional and hygienic issues related with the emergency of a culture that nurture the resilience of diversity that will offer flexibility to reduce techno stressors.

This systematic review evaluates studies conducted in different countries on the contingency measures adopted during the COVID-19 pandemic and presents the most relevant findings from these studies. Drawing on the different experiences described in different countries about the topic in question, this study makes a valuable contribution by summarizing the research conducted on manifestations of technostress during the initial lockdown period of the COVID-19 public health crisis from 2020 to 2021. It is hoped that this study will provide a foundation for future research, which will be of interest to different groups involved in effectively managing technostress in organizations, including workers, managers, public authorities, and healthcare professionals.

Author contributions

MB-R designed the study, wrote the manuscript, and analyzed the data. GD assisted by collecting data. LC-S designed the study, analyzed the data, wrote the text, and reviewed the entire manuscript. JE-C reviewed the data and the procedure, wrote important parts of the manuscript’s discussion and conclusion, and edited the entire manuscript. All authors listed had made a substantial, direct, and intellectual contribution to this research, read, and agreed to the published version of the manuscript.

Acknowledgments

We would like to express our gratitude to the Newman Escuela de Postgrado, Universidad Internacional de La Rioja for providing technical and financial support in this manuscript.

Conflict of interest

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Publisher’s note

All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article, or claim that may be made by its manufacturer, is not guaranteed or endorsed by the publisher.

Supplementary material

The Supplementary Material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fpsyg.2023.1173425/full#supplementary-material

References

Abbas, A., Eliyana, A., Ekowati, D., Saud, M., Raza, A., and Wardani, R. (2020). Data set on coping strategies in the digital age: The role of psychological well-being and social capital among university students in Java Timor, Surabaya, Indonesia. Data Brief 30:105583. doi: 10.1016/j.dib.2020.105583

PubMed Abstract | CrossRef Full Text | Google Scholar

Ayyagari, R., Grover, V., and Purvis, R. (2011). Technostress: Technological antecedents and implications. MIS Q. Manage. Inf. Syst. 35, 831–858. doi: 10.2307/41409963

CrossRef Full Text | Google Scholar

Beare, E. C., O’Raghallaigh, P., McAvoy, J., and Hayes, J. (2020). Employees’ emotional reactions to digitally enabled work events. J. Decis. Syst. 29, 226–242. doi: 10.1080/12460125.2020.1782085

CrossRef Full Text | Google Scholar

Becker, J., Derra, N. D., Regal, C., and Kühlmann, T. M. (2022). Mitigating the negative consequences of ICT use: The moderating effect of active-functional and dysfunctional coping. J. Decis. Syst. 31, 374–406. doi: 10.1080/12460125.2021.1901337

CrossRef Full Text | Google Scholar

Benlian, A. (2020). A daily field investigation of technology-driven spillovers from work to home. MIS Q. 44, 1259–1300. doi: 10.25300/MISQ/2020/14911

CrossRef Full Text | Google Scholar

Borle, P., Reichel, K., and Voelter-Mahlknecht, S. (2021). Is there a sampling bias in research on work-related technostress? A systematic review of occupational exposure to technostress and the role of socioeconomic position. Int. J. Environ. Res. Public Health 18:2071. doi: 10.3390/ijerph18042071

PubMed Abstract | CrossRef Full Text | Google Scholar

Brod, C. (1984). Technostress: The human cost of the computer revolution. New York, NY: Basic books.

Google Scholar

Brooks, S., Wang, X., and Schneider, C. (2020). Technology addictions and technostress: An examination of the US and China. J. Organ. End User Comput. 32, 1–19. doi: 10.4018/JOEUC.2020040101

CrossRef Full Text | Google Scholar

Califf, C. B., and Brooks, S. (2020). An empirical study of techno-stressors, literacy facilitation, burnout, and turnover intention as experienced by K-12 teachers. Comput. Educ. 157:103971. doi: 10.1016/j.compedu.2020.103971

CrossRef Full Text | Google Scholar

Califf, C. B., Sarker, S., and Sarker, S. (2020). The bright and dark sides of technostress: A mixed-methods study involving healthcare IT. MIS Q. 44, 809–856. doi: 10.25300/MISQ/2020/14818

CrossRef Full Text | Google Scholar

Carillo, K., Cachat-Rosset, G., Marsan, J., Saba, T., and Klarsfeld, A. (2021). Adjusting to epidemic-induced telework: Empirical insights from teleworkers in France. Eur. J. Inf. Syst. 30, 69–88. doi: 10.1080/0960085X.2020.1829512

CrossRef Full Text | Google Scholar

Cheikh-Ammar, M. (2020). The bittersweet escape to information technology: An investigation of the stress paradox of social network sites. Inf. Manage. 57:103368. doi: 10.1016/j.im.2020.103368

CrossRef Full Text | Google Scholar

Chen, L. (2015). Validating the technostress instrument using a sample of Chinese knowledge workers. J. Int. Technol. Inf. Manage. 24, 65–82. doi: 10.58729/1941-6679.1036

CrossRef Full Text | Google Scholar

Chong, S., Huang, Y., and Chang, C. H. D. (2020). Supporting interdependent telework employees: A moderated-mediation model linking daily COVID-19 task setbacks to next-day work withdrawal. J. Appl. Psychol. 105, 1408–1422. doi: 10.1037/apl0000843

PubMed Abstract | CrossRef Full Text | Google Scholar

Chou, H. L., and Chou, C. (2021). A multigroup analysis of factors underlying teachers’ technostress and their continuance intention toward online teaching. Comput. Educ. 175:104335. doi: 10.1016/j.compedu.2021

CrossRef Full Text | Google Scholar

Christ-Brendemühl, S., and Schaarschmidt, M. (2020). The impact of service employees’ technostress on customer satisfaction and delight: A dyadic analysis. J. Bus. Res. 117, 378–388. doi: 10.1016/j.jbusres.2020.06.021

CrossRef Full Text | Google Scholar

Chung, G. S. K., Chan, X. W., Lanier, P., and Wong, P. Y. J. (2023). Associations between work–family balance, parenting stress, and marital conflicts during COVID-19 pandemic in Singapore. J. Child Fam. Stud. 32, 132–144. doi: 10.31219/osf.io/nz9s8

CrossRef Full Text | Google Scholar

Colquhoun, H. L., Levac, D., O’Brien, K. K., Straus, S., Tricco, A. C., Perrier, L., et al. (2014). Scoping reviews: Time for clarity in definition, methods, and reporting. J. Clin. Epidemiol. 67, 1291–1294.

Google Scholar

Dias Pocinho, M., and Costa Garcia, J. (2008). Impacto psicossocial das tecnologias da informação e comunicação (tic): Tecnostress, danos físicos e satisfação laboral. Acta Colombiana Psicol. 11, 127–139.

Google Scholar

Domínguez-Torres, L., Rodríguez-Vásquez, D. J., Totolhua-Reyes, B. A., and Rojas-Solís, J. L. (2021). Technostress in high school teachers in the context of COVID-19 confinement: An exploratory study. Dilemas Contemp. Educ. Política Valores 9, 1–21.

Google Scholar

Eidman, L., and Basualdo Felleau, S. E. (2021). Adaptation and validation of the RED-tecnoestrés scale in argentine university student population. Academo 8, 77–87. doi: 10.30545/academo.2021.jul-dic.7

CrossRef Full Text | Google Scholar

Estrada Araos, E., and Gallegos Ramos, N. (2022). Tecnoestrés en el contexto educativo: Un problema emergente durante la pandemia COVID-19. Apuntes Univ. 12, 447–451. doi: 10.17162/au.v12i1.992

CrossRef Full Text | Google Scholar

Estrada-Muñoz, C., Vega-Muñoz, A., Castillo, D., Müller-Pérez, S., and Boada-Grau, J. (2021). Technostress of Chilean teachers in the context of the COVID-19 pandemic and teleworking. Int. J. Environ. Res. Public Health 18:5458.

Google Scholar

Ferziani, A., Rajagukguk, R. O., and Analya, P. (2018). “Types of technostress on employees of IT consulting company,” in 2018 international conference on orange technologies (ICOT) IEEE (New York, NY: IEEE), 1–15. doi: 10.1109/ICOT.2018.8705838

CrossRef Full Text | Google Scholar

Gabr, H. M., Soliman, S. S., Allam, H. K., and Raouf, S. Y. A. (2021). Effects of remote virtual work environment during COVID-19 pandemic on technostress among Menoufia University Staff, Egypt: A cross-sectional study. Environ. Sci. Pollut. Res. 28, 53746–53753. doi: 10.1007/s11356-021-14588-w

PubMed Abstract | CrossRef Full Text | Google Scholar

González-López, Ó. R., Buenadicha-Mateos, M., and Sánchez-Hernández, M. I. (2021). Overwhelmed by technostress? Sensitive archetypes and effects in times of forced digitalization. Int. J. Environ. Res. Public Health 18:4216. doi: 10.3390/ijerph18084216

PubMed Abstract | CrossRef Full Text | Google Scholar

Hinojosa López, J. I., Salas Rubio, M. I., and Reyna Castillo, M. Á (2021). Teletrabajo y tecnoestrés en organizaciones educativas: Aprendizajes ante la pandemia por la COVID-19 en México. Contaduría Administración 66, 1–25. doi: 10.22201/fca.24488410e.2021.3305

CrossRef Full Text | Google Scholar

Hutton, B., Salanti, G., Caldwell, D. M., Chaimani, A., Schmid, C. H., Cameron, C., et al. (2015). The PRISMA extension statement for reporting of systematic reviews incorporating network meta-analyses of health care interventions: Checklist and explanations. Ann. Internal Med. 162, 777–784. doi: 10.7326/M14-2385

PubMed Abstract | CrossRef Full Text | Google Scholar

Hwang, I., and Hu, S. (2020). The mitigation of information security related technostress and compliance intention. J. Inf. Syst. 29, 23–50. doi: 10.5859/KAIS.2020.29.1.23

CrossRef Full Text | Google Scholar

Hwang, I., Kim, S., and Rebman, C. (2022). Impact of regulatory focus on security technostress and organizational outcomes: The moderating effect of security technostress inhibitors. Inf. Technol. People 35, 2043–2074. doi: 10.1108/ITP-05-2019-0239

CrossRef Full Text | Google Scholar

Ju, H. E., and Sook, J. M. (2020). Effects of Nurses’ Technostress on Organizational Performance. 보건의료산업학회지 14, 15–30. doi: 10.12811/kshsm.2020.14.3.015

CrossRef Full Text | Google Scholar

Jung, Y. J., and Kim, J. S. (2020). 재택근무 제도강화와 테크노스트레스가 업무생산성에 미치는 영향에 관한 연구: 행동통제와 기술준비도의 조절효과를 중심으로. J. Inf. Technol. Appl. Manage. 27, 63–83.

Google Scholar

Kalischko, T., Fischer, T., and Riedl, R. (2020). Techno-unreliability: A pilot study in the field. Inf. Syst. Neurosci. NeuroIS Retreat 2019, 137–145. doi: 10.1007/978-3-030-28144-1_15

CrossRef Full Text | Google Scholar

Kaltenegger, H. C., Becker, L., Rohleder, N., Nowak, D., and Weigl, M. (2020). Association of working conditions including digital technology use and systemic inflammation among employees: Study protocol for a systematic review. Syst. Rev. 9, 1–11. doi: 10.1186/s13643-020-01463-x

PubMed Abstract | CrossRef Full Text | Google Scholar

Khedhaouria, A., and Cucchi, A. (2019). Technostress creators, personality traits, and job burnout: A fuzzy-set configurational analysis. J. Bus. Res. 101, 349–361. doi: 10.1016/j.jbusres.2019.04.029

CrossRef Full Text | Google Scholar

Kim, D., and Kang, S. (2020). The impact of technostress on counter-productivity |테크노스트레스가 반생산성에 미치는 영향. Manage. Inf. Syst. Rev. 2020, 1–15. doi: 10.29214/damis.2020.39.2.001

CrossRef Full Text | Google Scholar

Korzynski, P., Rook, C., Florent Treacy, E., and Kets de Vries, M. (2021). The impact of self-esteem, conscientiousness and pseudo-personality on technostress. Internet Res. 31, 59–79. doi: 10.1108/INTR-03-2020-0141

CrossRef Full Text | Google Scholar

La Torre, G., De Leonardis, V., and Chiappetta, M. (2020). Technostress: How does it affect the productivity and life of an individual? Results of an observational study. Public Health 189, 60–65. doi: 10.1016/j.puhe.2020.09.013

PubMed Abstract | CrossRef Full Text | Google Scholar

La Torre, G., Esposito, A., Sciarra, I., and Chiappetta, M. (2019). Definition, symptoms and risk of technostress: A systematic review. Int. Arch. Occupat. Environ. Health 92, 13–35. doi: 10.1007/s00420-018-1352-1

PubMed Abstract | CrossRef Full Text | Google Scholar

Lockwood, C., Porrit, K., Munn, Z., Rittenmeyer, L., Salmond, S., Bjerrum, M., et al. (2017). “Systematic reviews of qualitative evidence,” in JBI manual for evidence synthesis, eds E. Aromataris and Z. Munn (Adelaide, SA: The Joanna Briggs Institute), doi: 10.46658/JBIMES-20-03

CrossRef Full Text | Google Scholar

Luqman, A., Masood, A., Weng, Q., Ali, A., and Rasheed, M. I. (2020). Linking excessive SNS use, technological friction, strain, and discontinuance: The moderating role of guilt. Inf. Syst. Manage. 37, 94–112. doi: 10.1080/10580530.2020.1732527

CrossRef Full Text | Google Scholar

Martínez, L. M. (2020). Riesgos psicosociales y estrés laboral en tiempos de COVID-19: Instrumentos para su evaluación. Rev. Comun. Salud 10, 301–321. doi: 10.35669/rcys.2020.10(2).301-321

CrossRef Full Text | Google Scholar

Mojica-Crespo, R., and Morales-Crespo, M. M. (2020). Pandemia COVID-19, la nueva emergencia sanitaria de preocupación internacional: Una revisión. Med. Fam. Semergen 46, 65–77. doi: 10.1016/j.semerg.2020.05.010

PubMed Abstract | CrossRef Full Text | Google Scholar

Nasirpouri Shadbad, F., and Biros, D. (2022). Technostress and its influence on employee information security policy compliance. Inf. Technol. People 35, 119–141. doi: 10.1108/ITP-09-2020-0610

CrossRef Full Text | Google Scholar

Nimrod, G. (2022). Technostress in a hostile world: Older internet users before and during the COVID-19 pandemic. Aging Mental Health 26, 526–533. doi: 10.1080/13607863.2020.1861213

PubMed Abstract | CrossRef Full Text | Google Scholar

Nisafani, A. S., Kiely, G., and Mahony, C. (2020). Workers’ technostress: A review of its causes, strains, inhibitors, and impacts. J. Decis. Syst. 29, 243–258. doi: 10.1080/12460125.2020.1796286

CrossRef Full Text | Google Scholar

Nyland, J., Huffstutler, A., Faridi, J., Sachdeva, S., Nyland, M., and Caborn, D. (2020). Cruciate ligament healing and injury prevention in the age of regenerative medicine and technostress: Homeostasis revisited. Knee Surg. Sports Traumatol. Arthroscopy 28, 777–789. doi: 10.1007/s00167-019-05458-7

PubMed Abstract | CrossRef Full Text | Google Scholar

Oksanen, A., Oksa, R., Savela, N., Mantere, E., Savolainen, I., and Kaakinen, M. (2021). COVID-19 crisis and digital stressors at work: A longitudinal study on the Finnish working population. Comput. Hum. Behav. 122:106853. doi: 10.1016/j.chb.2021

CrossRef Full Text | Google Scholar

Pandey, N., and Pal, A. (2020). Impact of digital surge during Covid-19 pandemic: A viewpoint on research and practice. Int. J. Inf. Manage. 55:102171. doi: 10.1016/j.ijinfomgt.2020.102171

PubMed Abstract | CrossRef Full Text | Google Scholar

Panisoara, I. O., Lazar, I., Panisoara, G., Chirca, R., and Ursu, A. S. (2020). Motivation and continuance intention towards online instruction among teachers during the COVID-19 pandemic: The mediating effect of burnout and technostress. Int. J. Environ. Res. Public Health 17:8002. doi: 10.3390/ijerph17218002

PubMed Abstract | CrossRef Full Text | Google Scholar

Pfaffinger, K. F., Reif, J. A., and Spieß, E. (2022). When and why telepressure and technostress creators impair employee well-being. Int. J. Occupat. Saf. Ergon. 28, 958–973. doi: 10.1080/10803548.2020.1846376

PubMed Abstract | CrossRef Full Text | Google Scholar

Pflügner, K., Maier, C., Mattke, J., and Weitzel, T. (2021). Personality profiles that put users at risk of perceiving technostress: A qualitative comparative analysis with the big five personality traits. Bus. Inf. Syst. Eng. 63, 389–402. doi: 10.1007/s12599-020-00668-7

CrossRef Full Text | Google Scholar

Ploder, C., Spiess, T., Bernsteiner, R., Dilger, T., and Weichelt, R. (2021). A risk analysis on blockchain technology usage for electronic health records. Cloud Comput. Data Sci. 2, 20–35. doi: 10.37256/ccds.222021777

CrossRef Full Text | Google Scholar

Pullins, E., Tarafdar, M., and Pham, P. (2020). The dark side of sales technologies: How technostress affects sales professionals. J. Organ. Effect. People Performance 7, 297–320.

Google Scholar

Ramí,rez, B., Misol, C., Mdc, F. A., and Tizón, J. L. (2021). COVID-19 pandemic and mental health: Initial considerations from Spanish primary health care. Atención Primaria 53, 89–101. doi: 10.1016/j.aprim.2020.06.006

PubMed Abstract | CrossRef Full Text | Google Scholar

Salazar-Concha, C., Ficapal-Cusí, P., Boada-Grau, J., and Camacho, L. J. (2021). Analyzing the evolution of technostress: A science mapping approach. Heliyon 7:e06726. doi: 10.1016/j.heliyon.2021.e06726

PubMed Abstract | CrossRef Full Text | Google Scholar

Schünemann, H. J., Cuello, C., Akl, E. A., Mustafa, R. A., Meerpohl, J. J., Thayer, K., et al. (2019). GRADE guidelines: 18. How ROBINS-I and other tools to assess risk of bias in nonrandomized studies should be used to rate the certainty of a body of evidence. J. Clin. Epidemiol. 111, 105–114. doi: 10.1016/j.jclinepi.2018.01.012

PubMed Abstract | CrossRef Full Text | Google Scholar

Sinha, S., Verma, A., and Tiwari, P. (2021). Technology: Saving and enriching life during COVID-19. Front. Psychol. 12:647681. doi: 10.3389/fpsyg.2021.647681

PubMed Abstract | CrossRef Full Text | Google Scholar

Soror, A., Steelman, Z. R., and Turel, O. (2022). Exhaustion and dependency: A habituation–sensitization perspective on the duality of habit in social media use. Inf. Technol. People 35, 67–95. doi: 10.1108/ITP-11-2019-0603

CrossRef Full Text | Google Scholar

Spagnoli, P., Molino, M., Molinaro, D., Giancaspro, M. L., Manuti, A., and Ghislieri, C. (2020). Workaholism and technostress during the COVID-19 emergency: The crucial role of the leaders on remote working. Front. Psychol. 11:620310. doi: 10.3389/fpsyg.2020.620310

PubMed Abstract | CrossRef Full Text | Google Scholar

Tarafdar, M., and Gordon, S. R. (2007). Understanding the influence of information systems competencies on process innovation: A resource-based view. J. Strat. Inf. Syst. 16, 353–392. doi: 10.2753/MIS0742-1222240109

CrossRef Full Text | Google Scholar

Tarafdar, M., Bolman Pullins, E., and Ragu-Nathan, T. S. (2014). Examining impacts of technostress on the professional salesperson’s behavioural performance. J. Pers. Selling Sales Manage. 34, 51–69. doi: 10.1080/08853134.2013.870184

CrossRef Full Text | Google Scholar

Tarafdar, M., Tu, Q., and Ragu-Nathan, T. S. (2010). Impact of technostress on end-user satisfaction and performance. J. Manage. Inf. Syst. 27, 303–334. doi: 10.2753/MIS0742-1222270311

CrossRef Full Text | Google Scholar

Taser, D., Aydin, E., Torgaloz, A. O., and Rofcanin, Y. (2022). An examination of remote e-working and flow experience: The role of technostress and loneliness. Comput. Hum. Behav. 127:107020. doi: 10.1016/j.chb.2021.107020

CrossRef Full Text | Google Scholar

Tiwari, V. (2021). Countering effects of technostress on productivity: Moderating role of proactive personality. Benchmark. Int. J. 28, 636–651. doi: 10.1108/BIJ-06-2020-0313

CrossRef Full Text | Google Scholar

Torres, C. C. (2021). Adaptation and validation of technostress creators and technostress inhibitors inventories in a Spanish-speaking Latin American country. Technol. Soc. 66:101660. doi: 10.1016/j.techsoc.2021.101660

CrossRef Full Text | Google Scholar

Toscano, F., and Zappalà, S. (2020). Social isolation and stress as predictors of productivity perception and remote work satisfaction during the COVID-19 pandemic: The role of concern about the virus in a moderated double mediation. Sustainability 12:9804. doi: 10.3390/su12239804

CrossRef Full Text | Google Scholar

Tuan, L. T. (2022). Employee mindfulness and proactive coping for technostress in the COVID-19 outbreak: The roles of regulatory foci, technostress, and job insecurity. Comput. Hum. Behav. 129:107148. doi: 10.1016/j.chb.2021.107148

PubMed Abstract | CrossRef Full Text | Google Scholar

Turel, O., and Gaudioso, F. (2018). Techno-stressors, distress and strain: The roles of leadership and competitive climates. Cogn. Technol. Work 20, 309–324. doi: 10.1007/s10111-018-0461-7

CrossRef Full Text | Google Scholar

Vaziri, H., Casper, W. J., Wayne, J. H., and Matthews, R. A. (2020). Changes to the work–family interface during the COVID-19 pandemic: Examining predictors and implications using latent transition analysis. J. Appl. Psychol. 105:1073. doi: 10.1037/apl0000819

PubMed Abstract | CrossRef Full Text | Google Scholar

Wang, K., and Shu, Q. (2008). “The moderating impact of perceived organizational support on the relationship between technostress and role stress,” in 2008 19th international workshop on database and expert systems applications IEEE, (New York, NY: IEEE), 420–424. doi: 10.1109/DEXA.2008.67

CrossRef Full Text | Google Scholar

Zhao, X., Xia, Q., and Huang, W. (2020). Impact of technostress on productivity from the theoretical perspective of appraisal and coping processes. Inf. Manage. 57:103265. doi: 10.1016/j.im.2020.103265

CrossRef Full Text | Google Scholar

Zito, M., Ingusci, E., Cortese, C. G., Giancaspro, M. L., Manuti, A., Molino, M., et al. (2021). Does the end justify the means? The role of organizational communication among work-from-home employees during the COVID-19 pandemic. Int. J. Environ. Res. Public Health 18:3933. doi: 10.3390/ijerph18083933

PubMed Abstract | CrossRef Full Text | Google Scholar

Keywords: psychological stress, information technology, occupational hazards, COVID-19, technostress, home-office, telecommuting, remote work

Citation: Bahamondes-Rosado ME, Cerdá-Suárez LM, Dodero Ortiz de Zevallos GF and Espinosa-Cristia JF (2023) Technostress at work during the COVID-19 lockdown phase (2020–2021): a systematic review of the literature. Front. Psychol. 14:1173425. doi: 10.3389/fpsyg.2023.1173425

Received: 24 February 2023; Accepted: 29 March 2023;
Published: 25 April 2023.

Edited by:

Silvia Lopes, Universidade de Lisboa, Portugal

Reviewed by:

Živile Stankeviciute, Kaunas University of Technology, Lithuania
Leda Marino, University of Naples Federico II, Italy
Anabela Rodrigues, Catholic University of Portugal, Portugal

Copyright © 2023 Bahamondes-Rosado, Cerdá-Suárez, Dodero Ortiz de Zevallos and Espinosa-Cristia. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

*Correspondence: Juan Felipe Espinosa-Cristia, anVhbi5lc3Bpbm9zYWNyQHVzbS5jbA==

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