16 research outputs found
Barriers for user acceptance of Mobile Health applications for Diabetic patients: Applying the UTAUT model
The literature illustrates that technology will widen health disparity
if its use is restricted to patients who are already motivated and demonstrate
good self-management behaviours. Additionally, despite the availability of free
mobile health (m-health) applications for diabetes self-management, usage is
low. There are also limited studies of m-health acceptance in South Africa. This
research is delineated to the Western Cape, South Africa. The populace suffers
from increasing numbers of diabetic patients. Segments of the population also
suffer from technological forms of exclusion, such as limited internet access.
Therefore, the objective of this study was to identify challenges for user
acceptance that discourages the use of m-health applications. This study analysed 130 semi-structured interviews, using thematic content analysi
The Lages diatremes: mineral composition and petrological implications
Chemical data of heavy minerals from Lages diatremes in southern Brazil have been studied with the aim of characterizing the sample source(s). Three groups of minerals are recognized: I) aluminian-chromian pyroxene, pyrope garnet and chromian spinel, which represent disaggregated fragments of spinel, spinel+garnet and garnet facies peridotite; II) low-Cr aluminian pyroxene that occurs as megacrysts are high pressure phases (7-12 kb) being crystallized from an alkaline-like evolving magma; III) low-Cr aluminian diopside of crustal origin. Evidence of carbonatitic cryptic metasomatic enrichment is shown by clinopyroxenes of Groups I and II. The data do not support a kimberlitic affinity as it has been suggested for the diatremes. Rather, they are interpreted as vents related to the alkaline magmatism affecting the area in Late Cretaceous. The alkaline parental magma of the pyroxene megacrysts was generated from a metasomatized mantle at garnet facies that incorporated fragments of the surrounding still fertile mantle. Presumably at spinel-facies level the magma began to fractionate the megacrysts, whose crystallization proceeded over a large range of falling pressure and temperature. The chemical similarities between Group III clinopyroxenes and those from the differentiated lithotypes indicate that the magma carried this mineral phase on its evolution, at crustal conditions, towards a more evolved alkaline composition. Still, a non-cognate origin for the Group III clinopyroxenes cannot be discarded.<br>Dados químicos de minerais pesados dos diatremas de Lages no sul do Brasil foram estudados com o propósito de caracterizar as fontes das rochas. Três grupos de minerais são reconhecidos: I) piroxênio aluminoso-cromífero, granada piropo e espinélio cromífero, representando fragmentos desagregados de espinélio, espinélio+granada e granada da fácies peridotito; II) piroxênio aluminoso com baixo Cr, correspondendo a megacristais, com as fases de alta pressão (7-12 kb) cristalizadas a partir de magma alcalino em evolução; III) diopsídio aluminoso com baixo Cr e origem crustal. Clinopiroxênios dos Grupos I e II mostram evidências de enriquecimento metassomático críptico de natureza carbonatítica. Os dados não confirmam a afinidade kimberlítica sugerida para esses diatremas. Ao contrário, eles são interpretados como condutos relacionados ao magmatismo alcalino que afetou a área no Cretáceo Superior. O magma parental alcalino dos megacristais de piroxênio foi originado a partir de um manto metassomatizado na fácies granada que aprisionou fragmentos do ainda fértil manto adjacente. Presumivelmente na fácies espinélio teve início o fracionamento dos megacristais, cuja cristalização se deu em condições de pressão e temperatura decrescentes. As similaridades entre os clinopiroxênios do Grupo III e aqueles dos litotipos mais diferenciados sugere que essa fase mineral foi transportada pelo magma no curso de sua evolução, em condições crustais, para uma composição alcalina mais evoluída. Ainda, uma formação não-cogenética para os clinopiroxênios do Grupo III não pode ser descartada