Food trade issues and food purchasing decisions by consumers in china

Fan, Saina

21 September 2010

This research includes two areas, with the first area focusing on supermarket food purchasing decisions by consumers in China. A probit model, using consumer food survey data indicates that supermarket food purchases are related to shopping habits, supermarket and food attributes, and demographics. This information should be helpful for those businesses attempting to market food within the Chinese supermarket supply chain. The second part of the study attempts to identify and analyze non-tariff barriers for food and agriculture, with a focus on China. These can include for example, import regulations, such as food safety regulations, food standards, labeling requirements, inspections, import licenses, and SPS (sanitary and phytosanitary conditions), and they are sometimes used by food importing countries to restrict imports. These results show that there are a number of significant non-tariff barriers regarding China – Canada food trade.

Supermarket

Food trade issues

Non tariff trade barriers

SOFT TISSUE STIFFNESS INFLUENCES EARLY COMMITMENT OF MOUSE EMBRYONIC STEM CELLS TOWARDS ENDODERMAL LINEAGE

Karamil, Seda

January 2015

Chronic obstructive pulmonary disease (COPD) is one of the most common lung diseases and the third leading cause of death in the US, estimated to increase in magnitude in the future. Current treatment approaches are palliative in nature and restricted to controlling symptoms and reducing the risk of complications. Lung transplantation is an option for certain patients, but this option is limited by the shortage of donor organs and the possibility of rejection and the need for life-long immune-suppression. Therefore, current studies focus on cell based therapies for lung repair and regeneration. In addressing the issue of cell sourcing for such approaches, I tested the hypothesis that the efficiency of directed pulmonary differentiation of mouse embryonic stem cells (mESC) can be enhanced by employing certain micro-environmental cues, found in the developing lung. Such micro-environmental cues will provide appropriate physicochemical signals at the right time during the embryonic development and thus modulate fate decisions of progenitor cells during tissue assembly and maturation. In this study, I explored the effects of matrix stiffness on cell fate decisions in mESC, first into definitive endoderm and then into lung alveolar epithelial cells. I engineered bio-activated polyacrylamide (PA) gels with varying elastic moduli, mimicking those of physiologic tissues, and covalently modified the surfaces with fibronectin to provide optimal stem cell adhesion. My studies demonstrated, for the first time, a biphasic stiffness-dependent enhancement of endodermal differentiation of mESCs, with an optimum at ~ 20 kPa. This effect was qualitatively similar in three different mESC lines. By contrast, increasing matrix stiffness favored mESC differentiation towards a mesodermal phenotype. The enhanced endodermal differentiation of mESCs was abolished in the presence of a specific inhibitor of ROCK, suggesting that this process is mediated through cytoskeletal signaling. The subsequent differentiation of mESC-derived endodermal cells towards pulmonary epithelial cells was no longer dependent on the stiffness of the matrix. In this dissertation I demonstrate for the first time the feasibility of utilizing developmental and physiological / physicochemical cues, such as matrix stiffness, to selectively modulate and enhance mESC differentiation towards endodermal and pulmonary lineages. The impact of the results will be relevant for optimizing cell-based lung therapies and for effectively engineering lung and other endoderm-derived organs. / Bioengineering

Engineering, Biomedical

Definitive Endoderm

Embryonic Stem Cells

Fate Desicions

Lung

Martix Stiffness

Mechanotransduction