ABSTRACT
Objective@#There are reports that cognitive training improves cognitive performance in patients with mild cognitive impairment and dementia. However, the research on the effects of cognitive training in the community-dwelling elderly is insufficient. This study aimed to verify the effectiveness of cognitive training in the community-dwelling elderly. @*Methods@#The participants were community-dwelling elderly aged 60 years or over. We collected demographic data and assessed Korean Version of Montreal Cognitive Assessment (MoCA-K), The Short form of the Geriatric Depression Scale-Korean (SGDS-K), and Geriatric Quality of Life-Dementia (GQOL-D). Cognitive training consisted of performing tasks for multi-cognitive domains. It was a paper- and group-based program, conducted 15 sessions each 60 minute. After the intervention, clinical characteristics were reassessed. Paired t-test, pearson correlation, analysis of covariance (ANCOVA) were performed using R version 3.6.1. @*Results@#There were 206 participants. 162 participants completed the intervention, and were eligible for analyses. After the cognitive intervention, MoCA-K was improved 2.10±0.61 which was statistically significant (p<0.001). SGDS-K was decreased 0.57± 0.46 (p=0.003). GQOL-D was increased 1.65±1.64 (p=0.048). ANCOVA showed that the score change in MoCA-K was not in-fluenced by baseline SGDS-K or baseline GQOL-D score. @*Conclusion@#Group-and paper-based cognitive training could improve MoCA-K, SGDS-K, and GQOL-D for the communitydwelling elderly. Baseline SGDS-K and GQOL-D scores were not associated with cognitive training effects in the community-dwelling elderly.
ABSTRACT
Objective@#There are reports that cognitive training improves cognitive performance in patients with mild cognitive impairment and dementia. However, the research on the effects of cognitive training in the community-dwelling elderly is insufficient. This study aimed to verify the effectiveness of cognitive training in the community-dwelling elderly. @*Methods@#The participants were community-dwelling elderly aged 60 years or over. We collected demographic data and assessed Korean Version of Montreal Cognitive Assessment (MoCA-K), The Short form of the Geriatric Depression Scale-Korean (SGDS-K), and Geriatric Quality of Life-Dementia (GQOL-D). Cognitive training consisted of performing tasks for multi-cognitive domains. It was a paper- and group-based program, conducted 15 sessions each 60 minute. After the intervention, clinical characteristics were reassessed. Paired t-test, pearson correlation, analysis of covariance (ANCOVA) were performed using R version 3.6.1. @*Results@#There were 206 participants. 162 participants completed the intervention, and were eligible for analyses. After the cognitive intervention, MoCA-K was improved 2.10±0.61 which was statistically significant (p<0.001). SGDS-K was decreased 0.57± 0.46 (p=0.003). GQOL-D was increased 1.65±1.64 (p=0.048). ANCOVA showed that the score change in MoCA-K was not in-fluenced by baseline SGDS-K or baseline GQOL-D score. @*Conclusion@#Group-and paper-based cognitive training could improve MoCA-K, SGDS-K, and GQOL-D for the communitydwelling elderly. Baseline SGDS-K and GQOL-D scores were not associated with cognitive training effects in the community-dwelling elderly.
ABSTRACT
OBJECTIVE: The purpose of this study was to develop a Brooding Scale (BS) and to confirm its psychometric properties. METHODS: A preliminary questionnaire was developed based on a literature review and face-to-face interviews with healthy subjects. To evaluate reliability and construct validity, a 15-item BS was administered to 124 healthy subjects. Convergent validity was tested by assessing the relationship between the BS and the Ruminative Response Scale (RRS). Discriminant validity was confirmed in 58 patients with schizophrenia. RESULTS: The internal consistency for the BS was excellent. An exploratory factor analysis yielded two factors: the emotional (six items) and cognitive (five items) domains, which explained 33.83% and 23.69% of the variance, respectively. The BS total score and scores for factors 1 and 2 showed significant positive correlations with the RRS. The total score and sub-factor scores of the BS were significantly higher in patients with schizophrenia than in healthy subjects. CONCLUSION: The BS can be used as a reliable and valid tool to assess brooding in healthy adults. In addition, it had good discriminant validity for patients with schizophrenia.
Subject(s)
Adult , Humans , Healthy Volunteers , Psychometrics , SchizophreniaABSTRACT
Using vacuous chewing movement(VCM) of rats as a possible animal model for tardive dyskinesia(TD), we tried to investigate the effects of haloperidol decanoate treatment on the rat brain: VCM(+) incidence, and morphological and neurochemical effect in the VCM(+) group. In our study, there were three treatment schedules of vehicle or haloperidol decanoate: 4, 7 or 9 total number of injections of vehicle or haloperidol decanoate were administered over 9, 18 or 24 weeks, respectively, with an injection given every 3 weeks. We rated VCM scores of rats at each injection time. Haloperidol groups were then further divided into VCM(-) rats and VCM(+) rats according to their VCM scores. Afterward, VCM(+) incidence was obtained in each haloperidol group. As time of neuroleptic treatment increased, the VCM scores and incidence of VCM(+) were found to be increased. All of the control, VCM(+) and VCM(-) rats were sacrificed to determine if treatments had morphological and neurochemical effects in the brain. Density of medium-sized neurons and levels of GABA in the striatum were reduced in the VCM(+) group 3 with total 9 injections given, compared to either VCM(-) group 3 or control group 3. These results suggest that hypofunction of GABAnergic neurons is associated with the development of VCM and possibly, TD.
Subject(s)
Animals , Rats , Appointments and Schedules , Brain , gamma-Aminobutyric Acid , Glutamic Acid , Haloperidol , Incidence , Mastication , Models, Animal , NeuronsABSTRACT
Using vacuous chewing movement(VCM) of rats as a possible animal model for tardive dyskinesia(TD), we tried to investigate the effects of haloperidol decanoate treatment on the rat brain: VCM(+) incidence, and morphological and neurochemical effect in the VCM(+) group. In our study, there were three treatment schedules of vehicle or haloperidol decanoate: 4, 7 or 9 total number of injections of vehicle or haloperidol decanoate were administered over 9, 18 or 24 weeks, respectively, with an injection given every 3 weeks. We rated VCM scores of rats at each injection time. Haloperidol groups were then further divided into VCM(-) rats and VCM(+) rats according to their VCM scores. Afterward, VCM(+) incidence was obtained in each haloperidol group. As time of neuroleptic treatment increased, the VCM scores and incidence of VCM(+) were found to be increased. All of the control, VCM(+) and VCM(-) rats were sacrificed to determine if treatments had morphological and neurochemical effects in the brain. Density of medium-sized neurons and levels of GABA in the striatum were reduced in the VCM(+) group 3 with total 9 injections given, compared to either VCM(-) group 3 or control group 3. These results suggest that hypofunction of GABAnergic neurons is associated with the development of VCM and possibly, TD.