RESUMEN
The concept of race or ethnic concordance between health care provider and patient has emerged as a dimension of the patient-physician relationship that could influence health outcomes for patients from minoritized groups, particularly through differences in the way physicians communicate with patients based on race or ethnicity. However, two decades of study on concordance and physician-patient communication have produced contradictory results. Given the heightened societal awareness of racism and the persistence of health disparities, there is a need for a comprehensive review of the current state of knowledge. This review sets out to determine how communication patterns differ in race/ethnicity concordant versus discordant patient-physician medical encounters. Thirty-three studies employing a range of methodologies were identified. In most analyses, after accounting for covariates, no relationship was found between race/ethnicity concordance and communication variables. Race/ethnicity concordance with their physician does not appear to influence the quality of communication for most patients from minoritized groups. A number of methodological weaknesses were identified in existing research, among them: few studies investigated potential explanatory variables, the heterogeneity of ethnic and cultural experience was over-simplified, there was little consistency in operationalization of communication variables, and the physician-patient dynamic was inadequately conceptualized.
RESUMEN
Introduction: Clinical practice should be based on the highest quality of evidence available. Therefore, we aimed to classify publications in the field of pediatric cardiology in the year 2021 based on the level of scientific evidence. Materials and Methods: A PubMed search was performed to identify pediatric cardiology articles published in the calendar year 2021. The abstract or manuscript of each study was reviewed. Each study was categorized as high, medium, or low level of evidence based on the study design. Disease investigated, treatment studied, and country of publication were recorded. Randomized control trials (RCTs) in similar fields of neonatology and adult cardiology were identified for comparison. Descriptive statistics were performed on the level of evidence, type of disease, country of publication, and therapeutic intervention. Results: In 2021, 731 studies were identified. A decrease in prevalence for the level of evidence as a function of low, medium, and high was found (50.1%, 44.2%, and 5.8%, respectively). A low level of evidence studies was the majority for all types of cardiac disease identified, including acquired heart disease, arrhythmias, congenital heart disease, and heart failure, and for treatment modalities, including circulatory support, defibrillator, percutaneous intervention, medicine, and surgery. In a subgroup analysis, most high-level evidence studies were from the USA (31%), followed by China (26.2%) and India (14.3%). Comparing RCTs, 21 RCTs were identified in pediatric cardiology compared to 178 in neonatology and 413 in adult ischemic heart disease. Conclusions: There is a great need for the conduct of studies that offer a high level of evidence in the discipline of pediatric cardiology.
RESUMEN
Postural control integrates somatosensory, vestibular, and visual input to maintain balance. Age, dual-tasking (DT), and varying surfaces may impact postural control and lead to falls. Research suggests smartphone use is a growing safety hazard, as it reduces situational awareness while increasing dual-task costs (DTCs). Therefore, we examined postural control using a modern, motor-cognitive, dual-task paradigm and examined DTCs associated with age, surface characteristic, and type of DT. Younger (n=24) and older (n=26) participants completed three 30- second trials of six different task conditions. Participants either stood quietly (single-task) or performed a secondary, word generation task (dual-task) that included verbally listing words (verbal) or typing words (texting) on a smartphone within a given category (e.g., vegetables) while on a firm, stable surface (level floor) or compliant, unstable surface (foam pad). Repeated-measures MANOVAs tested differences in postural sway (measured by sway angle, velocity, and acceleration) between age groups and task conditions. Results indicated poorer performance on the verbal DT than texting DT while standing on the level floor; performance was similar between the two DTs when standing on the foam pad. We also found poorer performance on the foam pad compared to level floor while texting; performance was similar between surfaces for the verbal DT. Younger adults generally had better performance than older adults within each task, particularly for texting on the level floor. In summary, older age, verbal tasks, and compliant, unstable surfaces have greater impact on postural control parameters compared to younger age, texting, and firm, stable surfaces.
Asunto(s)
Equilibrio Postural/fisiología , Desempeño Psicomotor/fisiología , Adulto , Factores de Edad , Anciano , Femenino , Humanos , Masculino , Persona de Mediana Edad , Adulto JovenRESUMEN
Cognitive-motor dual-tasking involves concurrent performance of two tasks with distinct cognitive and motor demands and is associated with increased fall risk. In this hypothesis-driven study, younger (18-30â¯years, nâ¯=â¯24) and older (60-75â¯years, nâ¯=â¯26) adults completed six walking tasks in triplicate. Participants walked forward and backward along a GAITRite mat, in isolation or while performing a verbal fluency task. Verbal fluency tasks involved verbally listing or typing on a smartphone as many words as possible within a given category (e.g., clothes). Using repeated measures MANOVA models, we examined how age, method of fluency task (verbal or texting), and direction of walking altered dual-task performance. Given that tasks like texting and backward walking require greater cognitive resources than verbal and forward walking tasks, respectively, we hypothesized older adults would show higher dual-task costs (DTCs) than younger adults across different task types and walking directions, with degree of impairment more apparent in texting dual-task trials compared to verbal dual-task trials. We also hypothesized that both age groups would have greater DTCs while walking backward than while walking forward, regardless of task. Independent of age group, velocity and stride length were reduced for texting compared to the verbal task during both forward and backward walking; cadence and velocity were reduced while walking forward compared to walking backward for the texting task; and stride length was reduced for forward walking compared to backward walking during the verbal task. Younger adults performed better than older adults on all tasks with the most pronounced differences seen in velocity and stride length during forward-texting and backward-texting. Interaction effects for velocity and stride length while walking forward indicated younger adults performed better than older adults for the texting task but similarly during the verbal task. An interaction for cadence during the verbal task indicated younger adults performed better than older adults while walking backward but similarly while walking forward. In summary, older adults experienced greater gait decrement for all dual-task conditions. The greater declines in velocity and stride length in combination with cadence being stable suggest reductions in velocity during texting were due to shorter strides rather than a reduced rate of stepping. Contrary to our hypotheses, we found greater DTCs while walking forward rather than backward, which may be due to reduced gait performance during single-task backward walking; thus, further decrements with dual-tasking are unlikely. These findings underscore the need for further research investigating fall risk potential associated with texting and walking among aging populations and how interventions targeting stride length during dual-task circumstances may improve performance.