43 research outputs found
Societal-level versus individual-level predictions of ethical behavior: a 48-society study of collectivism and individualism
Is the societal-level of analysis sufficient today to understand the values of those in the global workforce? Or are individual-level analyses more appropriate for assessing the influence of values on ethical behaviors across country workforces? Using multi-level analyses for a 48-society sample, we test the utility of both the societal-level and individual-level dimensions of collectivism and individualism values for predicting ethical behaviors of business professionals. Our values-based behavioral analysis indicates that values at the individual-level make a more significant contribution to explaining variance in ethical behaviors than do values at the societal-level. Implicitly, our findings question the soundness of using societal-level values measures. Implications for international business research are discussed
Glutamate regulation of calcium and IP3 oscillating and pulsating dynamics in astrocytes
Recent years have witnessed an increasing interest in neuron-glia
communication. This interest stems from the realization that glia participates
in cognitive functions and information processing and is involved in many brain
disorders and neurodegenerative diseases. An important process in neuron-glia
communications is astrocyte encoding of synaptic information transfer: the
modulation of intracellular calcium dynamics in astrocytes in response to
synaptic activity. Here, we derive and investigate a concise mathematical model
for glutamate-induced astrocytic intracellular Ca2+ dynamics that captures the
essential biochemical features of the regulatory pathway of inositol
1,4,5-trisphosphate (IP3). Starting from the well-known two-state Li-Rinzel
model for calcium-induced-calcium release, we incorporate the regulation of the
IP3 production and phosphorylation. Doing so we extended it to a three-state
model (referred as the G-ChI model), that could account for Ca2+ oscillations
triggered by endogenous IP3 metabolism as well as by IP3 production by external
glutamate signals. Compared to previous similar models, our three-state models
include a more realistic description of the IP3 production and degradation
pathways, lumping together their essential nonlinearities within a concise
formulation. Using bifurcation analysis and time simulations, we demonstrate
the existence of new putative dynamical features. The cross-couplings between
IP3 and Ca2+ pathways endows the system with self-consistent oscillator
properties and favor mixed frequency-amplitude encoding modes over pure
amplitude modulation ones. These and additional results of our model are in
general agreement with available experimental data and may have important
implications on the role of astrocytes in the synaptic transfer of information.Comment: 42 pages, 16 figures, 1 table. Figure filenames mirror figure order
in the paper. Ending "S" in figure filenames stands for "Supplementary
Figure". This article was selected by the Faculty of 1000 Biology: "Genevieve
Dupont: Faculty of 1000 Biology, 4 Sep 2009" at
http://www.f1000biology.com/article/id/1163674/evaluatio
Supply chain sustainability performance measurement of small and medium sized enterprises using structural equation modeling
Sustainability of small and medium sized enterprises (SMEs) is significant as SMEs contribute to GDP substantially in every economy. This research develops an innovative sustainable supply chain performance measurement model for SMEs. Prior researches predominantly use balanced score card (BSC) approach that presume causal relationship of criteria and Data Envelopment Analysis (DEA), which derive efficiency of units from a few input and output criteria. While DEA is effective for policymakers, BSC is more suitable for individual SME. The proposed method that uses structural equation modeling (SEM) approach to derive the relationship of criteria and criteria weights formulates regression-type models for a specific region as well as for specific SME. The SEM-based supply chain sustainability performance measurement model is beneficial to policymakers as they can determine means for improvement at a regional level. The proposed method could also facilitate managers/owners of individual SMEs with measures for improving their supply chain sustainability performance. The method has been applied to three varied geographical locations in the UK, France and India in order to demonstrate its effectiveness
Clinical applications of composite intramembranous bone grafts.
The aim of this article is to introduce the composite intramembranous bone graft mixed with demineralized bone matrix to the clinician and to demonstrate its various clinical applications in the field of clinical orthodontics in the form of case reports. Understanding the mechanism of healing of this composite bone graft provides sound experimental precedent that allows this graft material to become a predictable part of our future orthodontic management. The cases highlighted here took advantage of the several properties of the composite intramembranous demineralized bone matrix graft. An accidental loss of the buccal plate of bone occurred during extraction of a buccally placed premolar for orthodontic purposes. The defect was repaired using chin bone mixed with demineralized bone matrix, and the teeth were successfully moved into the grafted area. A 5-year follow-up showed a stable gingival condition at the grafted area. In this report, ridge augmentation with intramembranous demineralized bone matrix as an adjunct to orthodontic treatment allowed successful placement of endosseous implants. In conclusion, the same graft material was successfully used in the repair of a massive alveolar cleft. Long-term follow-up of these cases showed that this graft is a promising graft material that could be integrated into our orthodontic practice.link_to_subscribed_fulltex
Cells involved in the healing of intramembranous bone mixed with demineralized intramembranous bone matrix
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Neovascularization of composite demineralized intramembranous and endochondral bone grafts
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Healing of autogenous intramembranous bone in the presence and absence of homologous demineralized intramembranous bone.
This study was designed to examine the osteogenecity of demineralized bone matrix (DBM) prepared from intramembranous (IM) bone and to quantitatively assess the amount of new bone formed by IM autogenous bone grafts with or without DBM(IM). Forty-two defects were created in 42 New Zealand White rabbits. Twenty-one defects were grafted with IM bone alone, and the other 21 defects were grafted with composite IM-DBM(IM). Eleven rabbits, 22 defects were used as controls, where 11 defects were left empty (passive control) and the other 11 defects were filled with rabbit skin collagen (active control). Tissues were retrieved on days 1, 2, 3, 4, 5, 6, 7, and 14 for qualitative and quantitative analysis. Cells involved in the healing of composite IM and IM-DBM(IM) bone grafts were identified. No cartilage cells were detected during the healing of either grafts. Appearance of small blood vessels into the newly formed matrix was seen on day 5 in IM bone grafts and on day 4 in composite IM-DBM(IM) bone graft. Quantitative analysis was performed by means of image analysis on 100 sections of tissues retrieved after 14 days. Approximately 204% more new bone was formed in defects grafted with composite IM-DBM(IM) than in those grafted with IM bone alone (P <.0001). No bone was formed across the defects in either active or passive controls. In conclusion, DBM(IM) significantly increases the osteogenicity of IM bone grafts.link_to_subscribed_fulltex
Healing of autogenous intramembranous bone in the presence and absence of homologous demineralizede intramembranous bone
This study was designed to examine the osteogenecity of demineralized bone matrix (DBM) prepared from intramembranous (IM) bone and to quantitatively assess the amount of new bone formed by IM autogenous bone grafts with or without DBM(IM). Forty-two defects were created in 42 New Zealand White rabbits. Twenty-one defects were grafted with IM bone alone, and the other 21 defects were grafted with composite IM-DBM(IM). Eleven rabbits, 22 defects were used as controls, where 11 defects were left empty (passive control) and the other 11 defects were filled with rabbit skin collagen (active control). Tissues were retrieved on days 1, 2, 3, 4, 5, 6, 7, and 14 for qualitative and quantitative analysis. Cells involved in the healing of composite IM and IM-DBM(IM) bone grafts were identified. No cartilage cells were detected during the healing of either grafts. Appearance of small blood vessels into the newly formed matrix was seen on day 5 in IM bone grafts and on day 4 in composite IM-DBM(IM) bone graft. Quantitative analysis was performed by means of image analysis on 100 sections of tissues retrieved after 14 days. Approximately 204% more new bone was formed in defects grafted with composite IM-DBM(IM) than in those grafted with IM bone alone (P <.0001). No bone was formed across the defects in either active or passive controls. In conclusion, DBM(IM) significantly increases the osteogenicity of IM bone grafts.link_to_subscribed_fulltex