Help
Cart
Skip main navigation

Available Issues

April 10, 2013 - April 2, 2026

Available Issues

April 10, 2013 - April 2, 2026

Stress from Digital Work: Toward a Unified View of Digital Hindrance Stressors

Published Online:17 Jul 2024https://doi.org/10.1287/isre.2022.0691

References

  • Adam MTP, Gimpel H, Mädche A, Riedl R (2017) Design blueprint for stress-sensitive adaptive enterprise systems. Bus. Inform. Systems Engrg. 59(4):277–291.CrossrefGoogle Scholar
  • Aiello JR, Kolb KJ (1995) Electronic performance monitoring and social context: Impact on productivity and stress. J. Appl. Psych. 80(3):339–353.CrossrefGoogle Scholar
  • Allen AP, Kennedy PJ, Dockray S, Cryan JF, Dinan TG, Clarke G (2017) The Trier Social Stress Test: Principles and practice. Neurobiologica Stress 6:113–126.CrossrefGoogle Scholar
  • Ayyagari R, Grover V, Purvis R (2011) Technostress: Technological antecedents and implications. Management Inform. Systems Quart. 35(4):831–858.CrossrefGoogle Scholar
  • Beehr TA, Walsh JT, Taber TD (1976) Relationships of stress to individually and organizationally valued states: Higher order needs as a moderator. J. Appl. Psych. 61(1):41–47.CrossrefGoogle Scholar
  • Benlian A (2020) A daily field investigation of technology-driven spillovers from work to home. Management Inform. Systems Quart. 44(3):1259–1300.CrossrefGoogle Scholar
  • Benlian A (2022) Sprint zeal or sprint fatigue? The benefits and burdens of agile ISD practices use for developer well-being. Inform. Systems Res. 33(2):557–578.LinkGoogle Scholar
  • Bessière K, Newhagen JE, Robinson JP, Shneiderman B (2006) A model for computer frustration: The role of instrumental and dispositional factors on incident, session, and post-session frustration and mood. Comput. Human Behav. 22(6):941–961.CrossrefGoogle Scholar
  • Best SJ, Krueger BS, Ladewig J (2006) Privacy in the information age. Internat. J. Public Opinion Quart. 70(3):375–401.CrossrefGoogle Scholar
  • Bharadwaj A, El Sawy OA, Pavlou PA, Venkatraman N (2013) Digital business strategy: Toward a next generation of insights. Management Inform. Systems Quart. 37(2):471–482.CrossrefGoogle Scholar
  • Bliese PD, Edwards JR, Sonnentag S (2017) Stress and well-being at work: A century of empirical trends reflecting theoretical and societal influences. J. Appl. Psych. 102(3):389–402.CrossrefGoogle Scholar
  • Brod C (1982) Managing technostress: Optimizing the use of computer technology. Personality J. 61(10):753–757.Google Scholar
  • Brod C (1984) Technostress: The Human Cost of the Computer Revolution (Addison-Wesley, Reading, MA).Google Scholar
  • Brown R, Duck J, Jimmieson N (2014) Email in the workplace: The role of stress appraisals and normative response pressure in the relationship between email stressors and employee strain. Internat. J. Stress Management 21(4):325–347.CrossrefGoogle Scholar
  • Califf CB, Sarker S, Sarker S (2020) The bright and dark sides of technostress: A mixed-methods study involving healthcare IT. Management Inform. Systems Quart. 44(2):809–856.CrossrefGoogle Scholar
  • Cavanaugh MA, Boswell WR, Roehling MV, Boudreau JW (2000) An empirical examination of self-reported work stress among U.S. managers. J. Appl. Psych. 85(1):65–74.CrossrefGoogle Scholar
  • Chen X, Wei S (2019) Enterprise social media use and overload: A curvilinear relationship. J. Inform. Tech. 34(1):22–38.CrossrefGoogle Scholar
  • Chiappetta M (2017) The technostress: Definition, symptoms and risk prevention. Senses Sci. 4(1):358–361.Google Scholar
  • Cho S, Kim S, Chin SW, Ahmad U (2020) Daily effects of continuous ICT demands on work-family conflict: Negative spillover and role conflict. Stress Health 36(4):533–545.CrossrefGoogle Scholar
  • Colbert A, Yee N, George G (2016) The digital workforce and the workplace of the future. Acad. Management J. 59(3):731–739.CrossrefGoogle Scholar
  • Compeau D, Correia J, Thatcher JB (2022) When constructs become obsolete: A systematic approach to evaluating and updating constructs for information systems research. Management Inform. Systems Quart. 46(2):679–711.CrossrefGoogle Scholar
  • D’Arcy J, Herath T, Shoss MK (2014) Understanding employee responses to stressful information security requirements: A coping perspective. J. Management Inform. Systems 31(2):285–318.CrossrefGoogle Scholar
  • Day A, Paquet S, Scott N, Hambley L (2012) Perceived information and communication technology (ICT) demands on employee outcomes: The moderating effect of organizational ICT support. J. Occupational Health Psych. 17(4):473–491.CrossrefGoogle Scholar
  • Dickerson SS, Mycek PJ, Zaldivar F (2008) Negative social evaluation, but not mere social presence, elicits cortisol responses to a laboratory stressor task. Health Psych. 27(1):116–121.CrossrefGoogle Scholar
  • Edwards JR (2001) Multidimensional constructs in organizational behavior research: An integrative analytical framework. Organ. Res. Methods 4(2):144–192.CrossrefGoogle Scholar
  • Fernet C, Austin S (2014) Self-determination and job stress. Gagné M, ed. Oxford Library of Psychology. The Oxford Handbook of Work Engagement, Motivation, and Self-Determination Theory (Oxford University Press, Oxford, UK), 231–244.Google Scholar
  • Fischer T, Riedl R (2015) Theorizing technostress in organizations: A cybernetic approach. Thomas O, Teuteberg F, eds. Proc. 12th Internat. Conf. Wirtschaftsinformatik (Osnabrück, Germany), 1453–1467.Google Scholar
  • Fischer T, Reuter M, Riedl R (2021) The digital stressors scale: Development and validation of a new survey instrument to measure digital stress perceptions in the workplace context. Frontiers Psych. 12:607598.CrossrefGoogle Scholar
  • Galluch PS, Grover V, Thatcher JB (2015) Interrupting the workplace: Examining stressors in an information technology context. J. Assoc. Inform. Systems 16(1):1–47.Google Scholar
  • Gefen D, Straub DW, Boudreau M-C (2000) Structural equation modeling and regression: Guidelines for research practice. Comm. Assoc. Inform. Systems 4(1):7.Google Scholar
  • Goodhue DL, Thompson RL (1995) Task-technology fit and individual performance. Management Inform. Systems Quart. 19(2):213?236.Google Scholar
  • Grawitch MJ, Werth PM, Palmer SN, Erb KR, Lavigne KN (2018) Self-imposed pressure or organizational norms? Further examination of the construct of workplace telepressure. Stress Health 34(2):306–319.CrossrefGoogle Scholar
  • Gregor S (2006) The nature of theory in information systems. Management Inform. Systems Quart. 30(3):611–642.CrossrefGoogle Scholar
  • Hargrove MB, Nelson DL, Cooper CL (2013) Generating eustress by challenging employees. Organ. Dynamics 42(1):61–69.CrossrefGoogle Scholar
  • Häusser JA, Mojzisch A, Niesel M, Schulz-Hardt S (2010) Ten years on: A review of recent research on the job demand-control (-support) model and psychological well-being. Work Stress 24(1):1–35.CrossrefGoogle Scholar
  • Hayton JC, Allen DG, Scarpello V (2004) Factor retention decisions in exploratory factor analysis: A tutorial on parallel analysis. Organ. Res. Methods 7(2):191–205.CrossrefGoogle Scholar
  • Hinkin TR (1998) A brief tutorial on the development of measures for use in survey questionnaires. Organ. Res. Methods 1(1):104–121.CrossrefGoogle Scholar
  • Hu L, Bentler PM (1999) Cutoff criteria for fit indexes in covariance structure analysis: Conventional criteria vs. new alternatives. Structural Equation Model 6(1):1–55.CrossrefGoogle Scholar
  • Jiang JJ, Klein G, Carr CL (2002) Measuring information system service quality: SERVQUAL from the other side. Management Inform. Systems Quart. 26(2):145.CrossrefGoogle Scholar
  • Kahn RL, Quinn RP (1970) Role stress: A framework for analysis. McLean A, ed. Mental Health and Work Organizations (Rand McNally, Chicago), 50–115.Google Scholar
  • Kahn RL, Wolfe DM, Quinn RP, Snoek JD, Rosenthal RA (1964) Organizational Stress: Studies in Role Conflict and Ambiguity (Wiley, New York).Google Scholar
  • Karasek R, Theorell T (1990) Healthy Work: Stress, Productivity, and the Reconstruction of Working Life (Basic Books, New York).Google Scholar
  • Körner U, Müller-Thur K, Lunau T, Dragano N, Angerer P, Buchner A (2019) Perceived stress in human-machine interaction in modern manufacturing environments: Results of a qualitative interview study. Stress Health 35(2):187–199.CrossrefGoogle Scholar
  • Kupfer J (1987) Privacy, autonomy, and self-concept. Amer. Philosophical Quart. 24(1):81–89.Google Scholar
  • Lazarus RS, Folkman S (1984) Stress, Appraisal, and Coping (Springer Publishing Company, Berlin).Google Scholar
  • Legner C, Eymann T, Hess T, Matt C, Böhmann T, Drews P, Mädche A, Urbach N, et al. (2017) Digitalization: Opportunity and challenge for the business and information systems engineering community. Bus. Inform. Systems Engrg. 59(4):301–308.CrossrefGoogle Scholar
  • Lei P-W, Wu Q (2007) Introduction to structural equation modeling: Issues and practical considerations. Edu. Measures 26(3):33–43.CrossrefGoogle Scholar
  • Loup P, Maurice J, Rodhain F (2021) When nomadic technologies simultaneously influence well-being and stress at work. Systèmes Inform. Management 25(3):9–49.Google Scholar
  • Lowry PB, D’Arcy J, Hammer B, Moody GD (2016) “Cargo cult” science in traditional organization and information systems survey research: A case for using nontraditional methods of data collection, including mechanical turk and online panels. J. Strategic Inform. Systems 25(3):232–240.CrossrefGoogle Scholar
  • MacKenzie SB, Podsakoff PM, Podsakoff NP (2011) Construct measurement and validation procedures in MIS and behavioral research: Integrating new and existing techniques. Management Inform. Systems Quart. 35(2):293–334.CrossrefGoogle Scholar
  • Maier C, Laumer S, Thatcher JB, Wirth J, Weitzel T (2022) Trial-period technostress: A conceptual definition and mixed-methods investigation. Inform. Systems Res. 33(2):489–514.Google Scholar
  • Maslach C, Jackson SE (1986) The Maslach Burnout Inventory Manual (Consulting Psychologists Press, Palo Alto, CA).Google Scholar
  • McGrath JE (1976) Stress and behavior in organizations. Dunnette MD, ed. Handbook of Industrial and Organizational Psychology (Rand McNally, Chicago), 1351–1395.Google Scholar
  • Meijman TF, Mulder G (1998) Psychological aspects of workload. de Wolff CJ, Drenth PHD, Thierry H, eds. A Handbook of Work and Organizational Psychology: Volume 2: Work Psychology (Psychology Press, London, UK), 5–33.Google Scholar
  • Morrissette AM, Kisamore JL (2020) A meta-analysis of the relationship between role stress and organizational commitment: The moderating effects of occupational type and culture. Occupational Health Sci. 4(1–2):23–42.CrossrefGoogle Scholar
  • Naruz B, Capraro RM, Bicer A, Capraro MM (2015) A review of higher-order factor analysis interpretation strategies. J. Measurement Evaluation Edu. Psych. 6(1):72–94.Google Scholar
  • Nastjuk I, Trang S, Grummeck-Braamt J-V, Adam MTP, Tarafdar M (2023) Integrating and synthesising technostress research: A meta-analysis on technostress creators, outcomes, and IS usage contexts. Eur. J. Inform. Systems 33(3):361–382.Google Scholar
  • Ortiz de Guinea A (2016) A pragmatic multi-method investigation of discrepant technological events: Coping, attributions, and ‘accidental’ learning. Inform. Management 53(6):787–802.CrossrefGoogle Scholar
  • Parviainen P, Tihinen M, Kääriäinen J, Teppola S (2017) Tackling the digitalization challenge: How to benefit from digitalization in practice. Internat. J. Inform. Systems Project Management 5(1):63–77.Google Scholar
  • Petter S, Straub DW, Rai A (2007) Specifying formative constructs in information systems research. Management Inform. Systems Quart. 31(4):623.CrossrefGoogle Scholar
  • Polites GL, Roberts N, Thatcher JB (2012) Conceptualizing models using multidimensional constructs: A review and guidelines for their use. Eur. J. Inform. Systems 21(1):22–48.CrossrefGoogle Scholar
  • Popper K (2005) The Logic of Scientific Discovery (Routledge, London).CrossrefGoogle Scholar
  • Ragu-Nathan TS, Tarafdar M, Ragu-Nathan BS, Tu Q (2008) The consequences of technostress for end users in organizations: Conceptual development and empirical validation. Inform. Systems Res. 19(4):417–433.LinkGoogle Scholar
  • Ravid DM, White JC, Tomczak DL, Miles AF, Behrend TS (2023) A meta‐analysis of the effects of electronic performance monitoring on work outcomes. Personality Psych. 76(1):5–40.CrossrefGoogle Scholar
  • Regalado A (2011) Who coined ‘Cloud computing’? Accessed June 24, 2024, https://www.technologyreview.com/2011/10/31/257406/who-coined-cloud-computing/#:∼:text=The%20notion% 20of%20network%2Dbased,term%20to%20an%20industry%20 conference.Google Scholar
  • Rindskopf D, Rose T (1988) Some theory and applications of confirmatory second-order factor analysis. Multivariate Behav. Res. 23(1):51–67.CrossrefGoogle Scholar
  • Rizzo JR, House RJ, Lirtzman SI (1970) Role conflict and ambiguity in complex organizations. Admin. Sci. Quart. 15(2):150.CrossrefGoogle Scholar
  • Rosen PH, Wischniewski S (2019) Scoping review on job control and occupational health in the manufacturing context. Internat. J. Adv. Manufacturing Tech. 102(5–8):2285–2296.CrossrefGoogle Scholar
  • Ryan RM, Deci EL (2008) Self-determination theory and the role of basic psychological needs in personality and the organization of behavior. John OP, Robins RW, Pervin LA, eds. Handbook of Personality: Theory and Research, 3rd ed. (Guilford Press, New York), 654–678.Google Scholar
  • Salo M, Pirkkalainen H, Chua CEH, Koskelainen T (2022) Formation and mitigation of technostress in the personal use of IT. Management Inform. Systems Quart. 46(2):1073–1108.CrossrefGoogle Scholar
  • Sonnentag S, Fritz C (2015) Recovery from job stress: The stressor-detachment model as an integrative framework. J. Organ. Behav. 36(S1):S72–S103.CrossrefGoogle Scholar
  • Soucek R, Moser K (2010) Coping with information overload in email communication: Evaluation of a training intervention. Comput. Human Behav. 26(6):1458–1466.CrossrefGoogle Scholar
  • Sprigg CA, Jackson PR (2006) Call centers as lean service environments: Job-related strain and the mediating role of work design. J. Occupational Health Psych. 11(2):197–212.CrossrefGoogle Scholar
  • Tams S, Thatcher JB, Grover V (2018) Concentration, competence, confidence, and capture: An experimental study of age, interruption-based technostress, and task performance. J. Assoc. Inform. Systems 19(9):857–908.Google Scholar
  • Tams S, Ahuja M, Thatcher JB, Grover V (2020) Worker stress in the age of mobile technology: The combined effects of perceived interruption overload and worker control. J. Strategic Inform. Systems 29(1):101595.CrossrefGoogle Scholar
  • Tarafdar M, Cooper CL, Stich J-F (2019) The technostress trifecta: Techno eustress, techno distress and design: Theoretical directions and an agenda for research. Inform. Systems J. 29(1):6–42.CrossrefGoogle Scholar
  • Tarafdar M, Tu Q, Ragu-Nathan BS, Ragu-Nathan TS (2007) The impact of technostress on role stress and productivity. J. Management Inform. Systems 24(1):301–328.CrossrefGoogle Scholar
  • Tarafdar M, Tu Q, Ragu-Nathan TS, Ragu-Nathan BS (2011) Crossing to the dark side: Examining creators, outcomes, and inhibitors of technostress. Comm. ACM 54(9):113–120.CrossrefGoogle Scholar
  • Tashakkori A, Teddlie C (1998) Mixed Methodology: Combining Qualitative and Quantitative Approaches (Sage Publications, Thousand Oaks, CA).Google Scholar
  • van den Broeck A, Vansteenkiste M, de Witte H, Lens W (2008) Explaining the relationships between job characteristics, burnout, and engagement: The role of basic psychological need satisfaction. Work Stress 22(3):277–294.CrossrefGoogle Scholar
  • Vaziri H, Casper WJ, Wayne JH, Matthews RA (2020) Changes to the work-family interface during the COVID-19 pandemic: Examining predictors and implications using latent transition analysis. J. Appl. Psych. 105(10):1073–1087.CrossrefGoogle Scholar
  • Venkatesh V, Brown SA, Bala H (2013) Bridging the qualitative-quantitative divide: Guidelines for conducting mixed methods research in information systems. Management Inform. Systems Quart. 37(1):21–54.CrossrefGoogle Scholar
  • Venkatesh V, Brown SA, Sullivan YW (2016) Guidelines for conducting mixed-methods research: An extension and illustration. J. Assoc. Inform. Systems 17(7):435–494.Google Scholar
  • Watkins ER (2008) Constructive and unconstructive repetitive thought. Psych. Bull. 134(2):163–206.CrossrefGoogle Scholar
  • Watkins ER, Roberts H (2020) Reflecting on rumination: Consequences, causes, mechanisms and treatment of rumination. Behav. Res. Therapy 127:103573.CrossrefGoogle Scholar
  • Weber R (2012) Evaluating and developing theories in the information systems discipline. J. Assoc. Inform. Systems 13(1):1–30.Google Scholar
  • Weinstein N, Ryan RM (2011) A self‐determination theory approach to understanding stress incursion and responses. Stress Health 27(1):4–17.CrossrefGoogle Scholar
  • Yu L, Chen Y, Gong M (2023) The duality of ICT-mediated overload: Its nature and consequences. Inform. Management 60(8):103864.CrossrefGoogle Scholar
  • Zinke J, Vahle-Hinz T, Hoppe A (2024) A longitudinal study on ICT workload in the extended stressor-detachment model: Testing moderated mediation models for extended work availability and workplace telepressure. Work Stress 38(1):73–89.CrossrefGoogle Scholar
Previous
Back to Top
Next
INFORMS site uses cookies to store information on your computer. Some are essential to make our site work; Others help us improve the user experience. By using this site, you consent to the placement of these cookies. Please read our Privacy Statement to learn more.
Agree