Briana D. Cassetta scite author profile

Objective: Fear-avoidance and endurance behavior are well-established maladaptive coping styles in several chronic health conditions. There is also emerging evidence that both fear-avoidance and endurance coping are associated with poor outcome from mild traumatic brain injury (mTBI). The current study sought to characterize the early trajectories of avoidance and endurance behavior and confirm their association with disability outcomes. Method: Adults with mTBI (N = 88) completed measures of avoidance, endurance, and postconcussive symptoms at clinic intake (M = 40.2 days since injury). Avoidance and endurance measures were readministered 1 month later (N = 79), and a measure of perceived functional disability (World Health Organization Disability Assessment Schedule 2.0) was completed 3 months after clinic intake (N = 69). Results: Avoidance and endurance coping were weakly positively correlated with each other at intake (r = .28) and at 1 month postintake (r = .28). Change scores on these two measures over time were not significantly correlated (r = .04). Avoidance coping tended to decrease over time (95% CI [0.6, 2.5]; p = .002), whereas changes in endurance coping were variable. In generalized linear modeling, higher avoidance and endurance at clinic intake and increasing (or less rapidly decreasing) levels of these coping styles over 1 month was associated with greater perceived disability ratings at 3 months, even after controlling for postconcussion symptom severity at intake. Conclusion: These findings suggest that avoidance and endurance behavior are distinct coping styles with unique trajectories during the subacute recovery period. The results also support the need for psychologically informed early interventions that target specific profiles of maladaptive coping to mitigate risk for poor outcomes post-mTBI.

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Working memory and processing speed training in schizophrenia: study protocol for a randomized controlled trial

Cassetta

Goghari

2016

Trials

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BackgroundIn most domains of cognition, individuals with schizophrenia are generally found to be one standard deviation below the mean of the controls. As a result, examining the impact of cognitive remediation in individuals with schizophrenia has been a burgeoning area of research. However, the state of the literature remains unclear as to which domains of cognition should be targeted to produce the most widespread and durable benefits for individuals with schizophrenia. One suggestion is that targeting lower-level cognitive processes that are important for higher-level and more complex aspects of cognition may produce the most widespread benefits in cognition and everyday functioning. Relatively few studies have examined the effects of working memory or processing speed training in schizophrenia, as most studies examine broad-based remediation programs. Thus, a need exists for targeted working memory and processing speed training studies to better understand the mechanisms of cognitive enhancement in patients. This study aims to 1) investigate near-transfer gains (that is, the transfer of learning to related contexts) associated with working memory and processing speed training in schizophrenia patients; 2) investigate far-transfer gains (that is, the transfer of learning to new contexts) associated with working memory and processing speed training (that is, gains in other neurocognitive domains and social cognition); and 3) investigate real-world gains associated with training (that is, gains in daily functioning).Methods/DesignA double-blind randomized controlled trial with a three parallel group design will be conducted. A random sample of 81 patients with schizophrenia or schizoaffective disorder will be recruited through outpatient clinics at Foothills Hospital and community support programs in Calgary, Alberta. Participants will be randomly assigned using a computer-generated program in a 1:1:1 ratio to a working memory-training group, a processing speed-training group, or a no-training control group. Training will be completed at home for 30 minutes per day, 5 days per week, for a total of 10 weeks. Neurocognitive, social cognitive, and daily functioning measures will be administered both pre- and post-training to detect training-related gains. The primary outcome measures will include working memory and processing speed (near-transfer measures), as well as fluid intelligence (far-transfer measure).Trial registrationCurrent controlled trials NCT02478827 (ClinicalTrials.gov, registered on 15 June 2015).Electronic supplementary materialThe online version of this article (doi:10.1186/s13063-016-1188-5) contains supplementary material, which is available to authorized users.

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A randomized controlled trial of working memory and processing speed training in schizophrenia

2018

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BackgroundAlthough prior research has shown that cognitive training may improve cognition for schizophrenia patients, it is currently unclear which domains of cognition should be targeted in training. One suggestion is to target low- or mid-level cognitive processes. In particular, working memory (WM) and processing speed (PS) have been named as two key areas of impairment in schizophrenia, and two domains of cognition that are linked to higher-order cognition and daily functioning. This study aimed to investigate the near-transfer (transfer of gains to related contexts), far-transfer (transfer of gains to unrelated contexts), and real-world gains associated with WM and PS training in schizophrenia.MethodsEighty-three participants with schizophrenia were recruited and randomly assigned to computerized WM training, PS training, or a no-training control group. Outcome measures included WM, PS, fluid intelligence, executive functioning, social cognition, and daily functioning and symptoms.ResultsPS training led to significant gains in untrained PS tasks, as well as gains in far-transfer tasks that required speed of processing. WM training did not lead to gains in untrained WM tasks and showed inconsistent effects on some far-transfer tasks.ConclusionsThese results suggest some benefit of domain-specific cognitive training, specifically PS training, in schizophrenia. Far-transfer of gains to other cognitive domains and to real-world functioning may not occur after targeted WM or PS training, though non-specific effects (e.g. through behavioral activation, increased motivation) may lead to improvements in some tasks. Future studies should continue to investigate the mechanisms by which cognitive training may enhance cognition and functioning in schizophrenia.

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