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Development and application of an in vitro physicochemical upper gastrointestinal system (IPUGS) simulating the human digestive processes

Increased and combined knowledge of food processing, molecular biology, health and nutrition has triggered production of many different types of functional foods and pharmaceutics recently. The efficacy and safety of such products are being assessed prior to marketing by in vivo and/or in vitro studies. Traditional in vivo studies require excessive time, cost and labour, as well as ethical approvals with subject to humans or animals in some instances. Therefore excessive number of runs may be avoided if reliable in vitro system is available. During the course of this study, an in vitro physicochemical upper gastrointestinal tract system (IPUGS), the first of its kind in literature, has been developed to simulate the relevant conditions of the gastrointestinal tract (GIT) as closely as possible to the human physiology with multi-disciplinary approach, combining biology, physiology, gastroenterology, process technology, chemical engineering and automation. The IPUGS is aimed at having a high predictive capability towards the real digestion processes occurring in the human upper GIT which allows for examining of the bioavailability of nutrients and drugs, drug-nutrient interactions, viability of probiotics and case studies of gastrointestinal disorders. Digestion of rice and baby foods have been studied with the IPUGS by UV-spectrophotometer, HPLC, light microscope and pH meter under the conditions of normal state and common gastric disorders, such as gastroparesis, dumping syndrome, Zollinger-Ellison syndrome and hypochlorhydria. By comparing the data from many physiological and clinical sources in the literature, it would seem that the IPUGS was able to generate more reliable data compared to the existing in vitro digestion (mechanical) models in the literature. In future, computer-controlled and computer-recorded data by possibly designing a new software or equations would be desirable to implicate a better understanding of the digestive processes.

Identiferoai:union.ndltd.org:ADTP/241767
Date January 2009
CreatorsYoo, Ji Yeon
PublisherMonash University. Faculty of Engineering. Department of Chemical Engineering
Source SetsAustraliasian Digital Theses Program
LanguageEnglish
Detected LanguageEnglish
RightsOpen access and full embargo: full embargo to thesis full text for 3 years after 2009., This thesis is protected by copyright. Copyright in the thesis remains with the author. The Monash University Arrow Repository has a non-exclusive licence to publish and communicate this thesis online.

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