Stuart Cathcart scite author profile

This study examined the role of schools' psychosocial safety climate (PSC) in teachers' psychological outcomes. We proposed that PSC would moderate the effects of teachers' daily job demands on their fatigue and work engagement, and also the effects of teachers' daily recovery on fatigue and engagement. Sixty‐one Australian school teachers completed a diary that was repeated three times over the course of approximately 8 months. Each diary ran for five consecutive days, measuring daily self‐reports of job demands, recovery, fatigue, and engagement (N = 915 data points), while perceived PSC was measured once per diary. Multilevel analyses indicated that PSC moderated the relationships between job demands and fatigue, as well as job demands and engagement. This suggests that perceived PSC could act as a buffer against deleterious impacts of daily job demands. PSC also moderated the relationships between recovery and fatigue, and recovery and engagement. This indicates that higher levels of perceived PSC in schools could amplify the benefits of daily recovery for teachers. PSC also exerted a main effect on both fatigue and engagement. These results offer insight into the mechanisms by which PSC may act as a buffer to protect worker mental health, and highlight the importance for school management to promote PSC within their organization. Practitioner points Psychosocial safety climate in organizations may buffer workers from the negative psychological outcomes associated with job demands. Psychosocial safety climate in organizations may boost the psychological benefits that workers gain from achieving good daily recovery outside of work.

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Schizophrenia-like psychosis following traumatic brain injury: a chart-based descriptive and case–control study

Sachdev

2001

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The effects of elevated pain inhibition on endurance exercise performance

Flood

Waddington

Keegan

et al. 2017

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BackgroundThe ergogenic effects of analgesic substances suggest that pain perception is an important regulator of work-rate during fatiguing exercise. Recent research has shown that endogenous inhibitory responses, which act to attenuate nociceptive input and reduce perceived pain, can be increased following transcranial direct current stimulation of the hand motor cortex. Using high-definition transcranial direct current stimulation (HD-tDCS; 2 mA, 20 min), the current study aimed to examine the effects of elevated pain inhibitory capacity on endurance exercise performance. It was hypothesised that HD-tDCS would enhance the efficiency of the endogenous pain inhibitory response and improve endurance exercise performance.MethodsTwelve healthy males between 18 and 40 years of age (M = 24.42 ± 3.85) were recruited for participation. Endogenous pain inhibitory capacity and exercise performance were assessed before and after both active and sham (placebo) stimulation. The conditioned pain modulation protocol was used for the measurement of pain inhibition. Exercise performance assessment consisted of both maximal voluntary contraction (MVC) and submaximal muscular endurance performance trials using isometric contractions of the non-dominant leg extensors.ResultsActive HD-tDCS (pre-tDCS, −.32 ± 1.33 kg; post-tDCS, −1.23 ± 1.21 kg) significantly increased pain inhibitory responses relative to the effects of sham HD-tDCS (pre-tDCS, −.91 ± .92 kg; post-tDCS, −.26 ± .92 kg; p = .046). Irrespective of condition, peak MVC force and muscular endurance was reduced from pre- to post-stimulation. HD-tDCS did not significantly influence this reduction in maximal force (active: pre-tDCS, 264.89 ± 66.87 Nm; post-tDCS, 236.33 ± 66.51 Nm; sham: pre-tDCS, 249.25 ± 88.56 Nm; post-tDCS, 239.63 ± 67.53 Nm) or muscular endurance (active: pre-tDCS, 104.65 ± 42.36 s; post-tDCS, 93.07 ± 33.73 s; sham: pre-tDCS, 123.42 ± 72.48 s; post-tDCS, 100.27 ± 44.25 s).DiscussionDespite increasing pain inhibitory capacity relative to sham stimulation, active HD-tDCS did not significantly elevate maximal force production or muscular endurance. These findings question the role of endogenous pain inhibitory networks in the regulation of exercise performance.

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Stuart Cathcart

Reliability of Temporal Summation and Diffuse Noxious Inhibitory Control

Psychosocial safety climate moderating the effects of daily job demands and recovery on fatigue and work engagement

Schizophrenia-like psychosis following traumatic brain injury: a chart-based descriptive and case–control study

The effects of elevated pain inhibition on endurance exercise performance

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