81 research outputs found
Applying a Team Performance Framework to better Understand the Handoff Process: Part 2
In healthcare, handoffs are crucial when it comes to transitioning care of patients from one provider to another. Handoffs are communication events between providers that include the background and treatment plan, as well as all pertinent information involving the patient (Paterson, 2010). There are many factors that influence the reliability and transfer of the information being passed during a handoff. In order to understand the way these factors influence and change the handoff process, they were organized according to the input - mediator - output – input (IMOI) model. The IMOI model claims that the productivity and effectiveness of interactions between team members can be influenced by cognitive, affective, and external factors (Weaver, Feitosa, Salas, Seddon, & Vozenilek, 2013). The IMOI also clarifies that the output affects the performance of the team in the future through a feedback loop. This paper focuses specifically on the Output – Input stages, as well as future implications that come from understanding handoffs within the IMOI model
Applying a Team Performance Framework to better Understand the Handoff Process: Part 1
Handoffs require critical information transfers that are clear, comprehensible, and correct from receiver to sender. There are many factors that influence the reliability of the information in a handoff procedure, and impact the subsequent choices that are made that affect patient care. Using the Input – Mediator – Output – Input model multiple factors that influence the information transfer process have been identified to better handoff communication and in turn, lead to better patient care. The IMOI model is a recently developed theory that claims the productivity and value of interaction among team members can be influenced by cognitive, affective, and external factors (Weaver et al., 2013). This clarifies that the output affects the future performance of a group through a feedback loop, as well as reflects variability in mediational influences. This paper focuses on the first two parts of the IMOI model; input and mediators. Individual characteristics affect the handoff process for both the sender and receiver, including attitudes, expertise, experience, expectations, and fitness for duty. The inputs of a handoff are the individual characteristics of the providers and the patient case, where mediation is the shared process to develop an outcome. The attitudes, expertise, experience, and fitness for duty influence the composition of the team, but are moderated by factors such as interventions, communication, resources, team monitoring, and team orientation. By understanding these factors, providers can create a safer environment and provide safer patient care
Relatedness in Gaming: The Effect in‑Game Touch Has on Player Connection
With the number of individuals becoming gamers on the rise, it has become ever so important to understand the underlying motivations and social interactions that occur within this video game medium. Research has revealed that player motivation and relatedness within a game setting can be affected by the interpersonal relationships that develop from in game social interactions. This specific study was interested in how interpersonal touch and relatedness gestures, more specifically positive or negative touch conditions within a gameplay experience, can impact both player motivations, as well as inter-player impressions. Additionally, observational data measuring the quality of interaction between the participant in the study and a research confederate, with whom they were playing an online game was collected. A positive relationship was found between player relatedness and positive touch between avatars
Future requirements for and supply of ophthalmologists for an aging population in Singapore
#### Background
Singapore’s population, as that of many other countries, is aging; this is likely to lead to an increase in eye diseases and the demand for eye care. Since ophthalmologist training is long and expensive, early planning is essential. This paper forecasts workforce and training requirements for Singapore up to the year 2040 under several plausible future scenarios.
#### Methods
The Singapore Eye Care Workforce Model was created as a continuous time compartment model with explicit workforce stocks using system dynamics. The model has three modules: prevalence of eye disease, demand, and workforce requirements. The model is used to simulate the prevalence of eye diseases, patient visits, and workforce requirements for the public sector under different scenarios in order to determine training requirements.
#### Results
Four scenarios were constructed. Under the baseline business-as-usual scenario, the required number of ophthalmologists is projected to increase by 117% from 2015 to 2040.
Under the current policy scenario (assuming an increase of service uptake due to increased awareness, availability, and accessibility of eye care services), the increase will be 175%, while under the new model of care scenario (considering the additional effect of providing some services by non-ophthalmologists) the increase will only be 150%. The moderated workload scenario (assuming in addition a reduction of the clinical workload) projects an increase in the required number of ophthalmologists of 192% by 2040.
Considering the uncertainties in the projected demand for eye care services, under the business-as-usual scenario, a residency intake of 8–22 residents per year is required, 17–21 under the current policy scenario, 14–18 under the new model of care scenario, and, under the moderated workload scenario, an intake of 18–23 residents per year is required.
#### Conclusions
The results show that under all scenarios considered, Singapore’s aging and growing population will result in an almost doubling of the number of Singaporeans with eye conditions, a significant increase in public sector eye care demand and, consequently, a greater requirement for ophthalmologists
Genetic diversity of Anaplasma species major surface proteins and implications for anaplasmosis serodiagnosis and vaccine development
The genus Anaplasma (Rickettsiales: Anaplasmataceae) includes several pathogens of veterinary and human medical importance. An understanding of the diversity of Anaplasma major surface proteins (MSPs), including those MSPs that modulate infection, development of persistent infections, and transmission of pathogens by ticks, is derived in part, by characterization and phylogenetic analyses of geographic strains. Information concerning the genetic diversity of Anaplasma spp. MSPs will likely influence the development of serodiagnostic assays and vaccine strategies for the control of anaplasmosi
A multilab study of bilingual infants: Exploring the preference for infant-directed speech
From the earliest months of life, infants prefer listening to and learn better from infant-directed speech (IDS) compared with adult-directed speech (ADS). Yet IDS differs within communities, across languages, and across cultures, both in form and in prevalence. This large-scale, multisite study used the diversity of bilingual infant experiences to explore the impact of different types of linguistic experience on infants’ IDS preference. As part of the multilab ManyBabies 1 project, we compared preference for North American English (NAE) IDS in lab-matched samples of 333 bilingual and 384 monolingual infants tested in 17 labs in seven countries. The tested infants were in two age groups: 6 to 9 months and 12 to 15 months. We found that bilingual and monolingual infants both preferred IDS to ADS, and the two groups did not differ in terms of the overall magnitude of this preference. However, among bilingual infants who were acquiring NAE as a native language, greater exposure to NAE was associated with a stronger IDS preference. These findings extend the previous finding from ManyBabies 1 that monolinguals learning NAE as a native language showed a stronger IDS preference than infants unexposed to NAE. Together, our findings indicate that IDS preference likely makes similar contributions to monolingual and bilingual development, and that infants are exquisitely sensitive to the nature and frequency of different types of language input in their early environments
The genetic architecture of the human cerebral cortex
The cerebral cortex underlies our complex cognitive capabilities, yet little is known about the specific genetic loci that influence human cortical structure. To identify genetic variants that affect cortical structure, we conducted a genome-wide association meta-analysis of brain magnetic resonance imaging data from 51,665 individuals. We analyzed the surface area and average thickness of the whole cortex and 34 regions with known functional specializations. We identified 199 significant loci and found significant enrichment for loci influencing total surface area within regulatory elements that are active during prenatal cortical development, supporting the radial unit hypothesis. Loci that affect regional surface area cluster near genes in Wnt signaling pathways, which influence progenitor expansion and areal identity. Variation in cortical structure is genetically correlated with cognitive function, Parkinson's disease, insomnia, depression, neuroticism, and attention deficit hyperactivity disorder
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