Filtering by
- All Subjects: risk
- Creators: Economics Program in CLAS
- Creators: Appel, Christy
- Resource Type: Text
The objective of this thesis was to establish protocols and a valid experimental design for testing whether dietary mushrooms could, in fact, be protective against CVD risk. Specifically, a case-study approach was used to validate this experimental method to test white button mushrooms and their impact on blood lipid levels and the inflammatory response. This dietary study involved preparation of two soups: a placebo, broth-based soup and one with one cup of white button mushrooms per cup of soup to provide one and a half cups of soup (and mushrooms) per day to each participant. The soup was prepared in The Kitchen Café at the ASU Downtown Campus (Phoenix, AZ).
After preparing the soup, the next goal was recruitment through listserv, local advertisements, flyers, and word of mouth of participants to test the overall plan. Over fifteen people responded; however, only one candidate met the inclusion criteria of someone at high risk of developing CVD and agreed to participate in the study. The participant visited the nutrition laboratory in downtown Phoenix (550 N. 5th Street). Anthropometric data and an initial blood draw were completed, and fourteen 1.5 cup containers of mushroom soup were dispensed to the participant. After two weeks, the individual returned and the same procedures were executed to include anthropometry and blood analysis. Even though the subject did not show changes in blood markers of CVD risk (lipids and inflammatory markers), the hypothesis for the thesis that the study design would be effective was accepted. Thus, the procedure was successful and validated and will be used in the future study.
This paper examines infrastructure spending in a model economy. Infrastructure is subdivided into two types: one that makes future production more efficient, and another that decreases the risk of devastation to the future economy. We call the first type base infrastructure, and the second type risk-reducing infrastructure. Our model assumes that a single representative individual makes all the decisions within a society and optimizes their own total utility over the present and future. We then calibrate an aggregate economic, two-period model to identify the optimal allocation of today’s output into consumption, base infrastructure, and risk-reducing infrastructure. This model finds that many governments can make substantive improvements to the happiness of their citizens by investing significantly more into risk-reducing infrastructure.