OBJECTIVES: Burnout is a state of exhaustion resulting from prolonged and excessive workplace stress. We sought to examine biological underpinnings of burnout, focussing on mechanisms and physical consequences. METHODS: We searched the literature on burnout and evaluated studies examining biological parameters in patient populations (i.e. 'clinical' burnout) as well as in individuals from the general population judged as having some degree of burnout evaluated using a dimensional approach. RESULTS: Findings suggest that burnout is associated with sustained activation of the autonomic nervous system and dysfunction of the sympathetic adrenal medullary axis, with alterations in cortisol levels. Limited studies have also shown altered immune function and changes in other endocrine systems. Consequences of burnout include increased allostatic load, structural and functional brain changes, excito-toxicity, systemic inflammation, immunosuppression, metabolic syndrome, cardiovascular disease and premature death. Limitations of studies include variability in study populations, low specificity of burnout measures, and mostly cross-sectional studies precluding examination of changes across the course of burnout. CONCLUSIONS: Further examination of biological mechanisms of burnout would benefit from more homogeneous clinical samples, challenge tests and prospective studies. This would assist in differentiation from conditions such as depression and aid with development of specific treatment targets for burnout.
OBJECTIVES: Burnout is a state of exhaustion resulting from prolonged and excessive workplace stress. We sought to examine biological underpinnings of burnout, focussing on mechanisms and physical consequences. METHODS: We searched the literature on burnout and evaluated studies examining biological parameters in patient populations (i.e. 'clinical' burnout) as well as in individuals from the general population judged as having some degree of burnout evaluated using a dimensional approach. RESULTS: Findings suggest that burnout is associated with sustained activation of the autonomic nervous system and dysfunction of the sympathetic adrenal medullary axis, with alterations in cortisol levels. Limited studies have also shown altered immune function and changes in other endocrine systems. Consequences of burnout include increased allostatic load, structural and functional brain changes, excito-toxicity, systemic inflammation, immunosuppression, metabolic syndrome, cardiovascular disease and premature death. Limitations of studies include variability in study populations, low specificity of burnout measures, and mostly cross-sectional studies precluding examination of changes across the course of burnout. CONCLUSIONS: Further examination of biological mechanisms of burnout would benefit from more homogeneous clinical samples, challenge tests and prospective studies. This would assist in differentiation from conditions such as depression and aid with development of specific treatment targets for burnout.
Authors: Irene N Torres-Vences; Eduardo Pérez-Campos Mayoral; Miguel Mayoral; Eduardo Lorenzo Pérez-Campos; Margarito Martínez-Cruz; Iban Torres-Bravo; Juan Alpuche Journal: Int J Environ Res Public Health Date: 2022-05-03 Impact factor: 4.614
Authors: Holly Wei; Julia Aucoin; Gabrielle R Kuntapay; Amber Justice; Abigail Jones; Chongben Zhang; Hudson P Santos; Lynne A Hall Journal: PLoS One Date: 2022-03-16 Impact factor: 3.240
Authors: Christian Moretti Anfossi; Magdalena Ahumada Muñoz; Christian Tobar Fredes; Felipe Pérez Rojas; Jamie Ross; Jenny Head; Annie Britton Journal: Ann Work Expo Health Date: 2022-07-02 Impact factor: 2.779
Authors: Nicholas D Thomas; Shannon C Montgomery; Benjamin Behers; Eduardo Reyes; Thomas Ledermann; Joseph G Grzywacz Journal: Brain Behav Immun Health Date: 2022-09-19
Authors: Andrea M Vinueza-Solórzano; Cecilia Alexandra Portalanza-Chavarría; Clarissa P P de Freitas; Wilmar B Schaufeli; Hans De Witte; Claudio S Hutz; Ana Claudia Souza Vazquez Journal: Int J Environ Res Public Health Date: 2021-07-02 Impact factor: 3.390