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This study investigates the relations between working environment and teachers' job satisfaction, perceived work‐related stress, as well as work‐related self‐efficacy. The sample consisted of 226 mathematics teachers from German secondary schools. About 55% were female and they had been teaching for 13 years on average. We used self‐reported measures to assess how teachers perceived their working environment (regarding autonomy, feedback, and social support by colleagues), administrative leadership and teachers' work‐related self‐efficacy, as well as job satisfaction and work‐related stress. Structural equation modeling demonstrates that teachers' job satisfaction and stress were significantly associated with self‐efficacy (moderate to large effects) and an administrative leadership at the corresponding schools (small to moderate effects). The effect of social support on teachers' job satisfaction and stress was fully mediated by teachers' self‐efficacy. Our findings underscore the importance of self‐efficacy and a positive working environment for teachers' job satisfaction and stress.
Abstract
Background
In the present study, we investigated the association between sensory processing sensitivity (SPS) and telomere length (TL), which is considered a biomarker of cellular aging. SPS is an individual characteristic describing increased perception and procession of inner or outer stimuli, and is positively related to self‐perceived stress.
Methods
We recruited 82 healthy adolescents aged 13–16 from secondary schools in Germany. SPS was measured with the Highly Sensitive Person Scale, and TL was determined by a multiplex quantitative PCR method.
Results
Our results show that students with higher values of SPS are likely to have shorter telomeres (β = 0.337, p = .001), when adjusting for sex, socioeconomic status, age, and body mass index. These findings are also independent of the negative impact of stress students might have perceived shortly before data collection.
Conclusions
Our analysis suggests that students who struggle with low sensory threshold are likely to have shorter telomeres.