Pictorial mood assessments reduce the barriers of age, culture, gender and language fluency in the course of psychiatric assessments. This study sought to validate the Ottawa Mood Scales, a pictorial form of mood assessment questionnaire among non-native English speaking young adults in Malaysia. Since the Ottawa Mood Scales has not been previously validated, the convergent validity of the Ottawa Mood Scales was measured against the Positive and Negative Affect Scale (PANAS), an established mood assessment instrument. A total of 129 young adults (aged 18-34) were recruited and completed an online survey with the Ottawa Mood Scales and PANAS questionnaires. Exploratory factor analysis indicated that the Ottawa Mood Scales has a one-dimensional structure and that a four-item model demonstrated higher reliability than the original 5-item model. Scores on the Ottawa Mood Scales items positively and significantly correlated with scores on the negative PANAS subscale, which supports the validity of the Ottawa Mood Scales in measuring the negative effect. The Cronbach's α was .793 for the four-item model of the Ottawa Mood Scales indicating acceptable reliability in this Malaysian young adult sample. It was concluded that the Ottawa Mood Scales could have utility in assessing mood disorder symptoms in young adults.
Objective. The therapeutic application of noninvasive brain stimulation modalities such as transcranial magnetic stimulation (TMS) has expanded in terms of indications and patient populations. Often neurodevelopmental and neurodegenerative changes are not considered in research studies and clinical applications. This study sought to examine TMS dosing across time points in the life cycle.Approach. TMS induced electric fields with a figure-of-eight coil was simulated at left dorsolateral prefrontal cortex regions and taken in vertex as a control region. Realistic magnetic resonance imaging-based head models (N= 48) were concurrently examined in a cross-sectional study of three different age groups (children, adults, and elderlies).Main results. Age had a negative correlation with electric field peaks in white matter, grey matter and cerebrospinal fluid (P< 0.001). Notably, the electric field map in children displayed the widest cortical surface spread of TMS induced electric fields.Significance. Age-related anatomical geometry beneath the coil stimulation site had a significant impact on the TMS induced electric fields for different age groups. Safety considerations for TMS applications and protocols in children are warranted based on the present electric field findings.