Phoenix College

About: Phoenix College is a education organization based out in Phoenix, Arizona, United States. It is known for research contribution in the topics: Poison control & Population. The organization has 49 authors who have published 65 publications receiving 4542 citations. The organization is also known as: PC & Phoenix Community College.

Understanding activist intentions: An extension of the theory of planned behavior

Abstract: The current study used the Theory of Planned Behavior (TPB) to examine multiple structural models of low-risk and high-risk activist intentions (Ajzen, 1991). Results indicated a good model fit for both a traditional TPB model (CFI = .96; RMSEA = .06; SRMR = .05; χ2(125) = 283.28, p < .001) and an identity TPB model (CFI = .95; RMSEA = .06; SRMR = .05; χ2 (194) = 434.20, p < .001). The identity TPB model, which included activist identity as a mediator for the TPB variables, accounted for notably more variance in both low-risk activist intentions (44.2% in comparison to 20.1%) and high-risk activist intentions (27.3% in comparison to 12.2%) than the traditional TPB model. The current study increases our understanding of factors that may contribute to low-risk and high-risk activist intentions and highlights the importance of an activist identity to both. The merits of each of the structural models and the practical implications for practice and research are discussed.

Direct and glia-mediated effects of GABA on development of central olfactory neurons.

Abstract: Previously studied for its role in processing olfactory information in the antennal lobe, GABA also may shape development of the olfactory pathway, acting either through or on glial cells. Early in development, the dendrites of GABAergic neurons extend to the glial border that surrounds the nascent olfactory lobe neuropil. These neuropil glia express both GABAA and GABAB receptors, about half of the glia in acute cultures responded to GABA with small outward currents, and about a third responded with small transient increases in intracellular calcium. The neuronal classes that express GABA in vivo, the local interneurons and a subset of projection neurons, also do so in culture. Exposure to GABA in culture increased the size and complexity of local interneurons, but had no effect on glial morphology. The presence of glia alone did not affect neuronal morphology, but in the presence of both glia and GABA, the growth-enhancing effects of GABA on cultured antennal lobe neurons were eliminated. Contact between the glial cells and the neurons was not necessary. Operating in vivo, these antagonistic effects, one direct and one glia mediated, could help to sculpt the densely branched, tufted arbors that are characteristic of neurons innervating olfactory glomeruli.