Suchergebnis: Katalogdaten im Herbstsemester 2017
Lebensmittelwissenschaft Master | ||||||
Vertiefung in Food Processing | ||||||
Disziplinäre Fächer | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
---|---|---|---|---|---|---|
752-3103-00L | Food Rheology I | W+ | 3 KP | 2V | P. A. Fischer | |
Kurzbeschreibung | Rheology is the science of flow and deformation of matter such as polymers, dispersions (emulsions, foams, suspensions), and colloidal systems. The fluid dynamical basis, measuring techniques (rheometry), and the flow properties of different fluids (Newtonian, non-Newtonian, viscoelastic) are introduced and discussed. | |||||
Lernziel | The course provides an introduction on the link between flow and structural properties of flowing material. Rheometrical techniques and appropriate measuring protocols for the characterization of complex fluids will be discussed. The concept of rheological constitutive equations and the application to different material classes are established. | |||||
Inhalt | Lectures will be given on general introduction (4h), fluid dynamics (2h), complex flow behavior (4h), influence of temperature (2h), rheometers (4h), rheological tests (6h) and structure and rheology of complex fluids (4h). | |||||
Skript | Notes will be handed out during the lectures. | |||||
Literatur | Provided in the lecture notes. | |||||
752-2003-00L | Selected Topics in Food Technology | W+ | 3 KP | 2V | S. Palzer, R. Stadler | |
Kurzbeschreibung | ||||||
Lernziel | ||||||
752-2314-00L | Physics of Food Colloids | W+ | 3 KP | 2V | P. A. Fischer, R. Mezzenga | |
Kurzbeschreibung | In Physics of Food Colloids the principles of colloid science will applied to the aggregation of food materials based on proteins, polysaccharides, and emulsifiers. Mixtures of such raw material determine the appearance and performance of our daily food. In a number of examples, colloidal laws are linked to food science and the manufacturing and processing of food. | |||||
Lernziel | The aggregation of food material determines the appearance and performance of complex food system as well as nutritional aspects. The underlying colloidal laws reflect the structure of the individual raw material (length scale, time scale, and interacting forces). Once these concepts are appreciated the aggregation of most food systems falls into recognizable patterns that can be used to modify and structure exiting food or to design new products. The application and use of these concepts are discussed in light of common food production. | |||||
Inhalt | Lectures include interfacial tension (4h), protein aggregation in bulk and interfaces (4h), Pickering emulsions (2h), gels (2h), aggregation of complex mixtures (4h), and the use of light scattering in investigation complex food structures (8h). Most chapters include some hand-ons examples of the gain knowledge to common food products. | |||||
Skript | Notes will be handed out during the lectures. | |||||
Literatur | Provided in the lecture notes. | |||||
752-3021-00L | Food Process Design and Optimization | W+ | 4 KP | 2G | E. J. Windhab | |
Kurzbeschreibung | S-PRO2 scheme and quantitative understanding of process-structure functions. Process characterisation by dimension analysis. Optimization aspects/criteria for stirring, mixing, dispersing, spraying and extrusion flow processes of multiphase multi-scale structured food systems. Up- and down-scaling and industrial applications. Training by case studies from research and industrial production. | |||||
Lernziel | Quantitative process analysis and derivation of process-structure functions for complex liquid or semi-liquid food systems with non-Newtonial flow properties. Handling of optimisation and up-/down-scaling procedures. | |||||
Inhalt | S-PRO2 scheme, reverse engineering approach, dimension analysis, Metzner-Otto and Rieger Novack design schemes of stirred reactors for non-Newtonian fluid processing, mixing/mixing statistics, mixing characteristics, power charac-teristics, dispersing characteristics, dispersing processes in rotor/ stator and membrane devices, spray processing, extrusion processing, diverse case studies for design and scaling of processes for food structure processing | |||||
Skript | printed handouts (ca. 180) | |||||
Literatur | List of ca. 30 papers and 5 books given in course | |||||
Voraussetzungen / Besonderes | VT I-III | |||||
752-3023-00L | Process Measurements and Automation | W+ | 3 KP | 2G | E. J. Windhab | |
Kurzbeschreibung | Overview on Process Automation, Information Management in processes, process data handling and analysis, In-line measurements of complex food systems, Process control schemes, Overview of sensors and sensor principles, integrated process control case studies | |||||
Lernziel | Understanding the interplay of in-line measurements of complex food properties in processes, process data handling and data analysis as well as building blocks for process control. | |||||
Inhalt | Overview Process Automation, Process Control and process data management, Industrial design of automated/controlled processes, overview on sensors/sensor principles, case studies of in-line measurements and control in/of food production processes | |||||
Skript | Printed script (120 pages, 80 figures), diverse publications | |||||
Literatur | List of publications and books given in course | |||||
Voraussetzungen / Besonderes | VT I-III | |||||
752-3201-00L | Emerging Thermal and Non Thermal Food Processing | W | 3 KP | 2V | A. Mathys | |
Kurzbeschreibung | This course is built on the holistic approach in sustainable food processing via the consideration of the total value chain. Selected mechanical, biotechnological, thermal and non-thermal techniques for best biomass and energy use efficiency will be investigated. Focused technologies are new thermal processes, high pressure techniques, electroporation and different radiation based sources. | |||||
Lernziel | Understanding of selected emerging food processing concepts with focus on lower process intensity for healthy and high quality food production, waste reduction as well as biomass and energy use efficiency. Updates from academia and industry around new trends in food process development | |||||
Inhalt | Emerging combined processes based on mechanical, thermal and non-thermal techniques, Multi hurdle technology concept for preservation, Extreme high temperature-short time processes, high pressure techniques, electroporation, radiation, Biorefineries based on emerging process elements, Ongoing industry initiatives | |||||
Skript | Script will be distributed before the lecture via eDoz. | |||||
Literatur | Selected References, will be extented: Kessler, H. G. (2002). Food and Bio Process Engineering - Im Verlag A. Kessler., Freising. Bhattacharya, S. (2014). Conventional and Advanced Food Processing Technologies. John Wiley & Sons, Ltd. Online ISBN: 9781118406281. Knorr, D. (1999). Novel approaches in food-processing technology: new technologies for preserving foods and modifying function. Current Opinions in Biotechnology, 10, 485-491. Toepfl, S., Mathys, A., Heinz, V. & Knorr, D. (2006). Review: Potential of emerging technologies for energy efficient and environmentally friendly food processing. Food Reviews International, 22(4), 405 - 423. Mathys, A., Ph.D. Thesis. TU Berlin. Link Toepfl, S., Ph.D. Thesis. TU Berlin. Link M. E. G. Hendrickx & D. Knorr. Ultra high pressure treatments of foods (pp. 77-114). Kluwer Academic/ Plenum Publishers, New York. | |||||
Voraussetzungen / Besonderes | It is recommended to complete the course Sustainable Food Processing (Spring Semester, 752-3200-00L) before. | |||||
Methodische Fächer | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
401-0625-01L | Applied Analysis of Variance and Experimental Design | W+ | 5 KP | 2V + 1U | L. Meier | |
Kurzbeschreibung | Principles of experimental design, one-way analysis of variance, contrasts and multiple comparisons, multi-factor designs and analysis of variance, complete block designs, Latin square designs, random effects and mixed effects models, split-plot designs, incomplete block designs, two-series factorials and fractional designs, power. | |||||
Lernziel | Participants will be able to plan and analyze efficient experiments in the fields of natural sciences. They will gain practical experience by using the software R. | |||||
Inhalt | Principles of experimental design, one-way analysis of variance, contrasts and multiple comparisons, multi-factor designs and analysis of variance, complete block designs, Latin square designs, random effects and mixed effects models, split-plot designs, incomplete block designs, two-series factorials and fractional designs, power. | |||||
Literatur | G. Oehlert: A First Course in Design and Analysis of Experiments, W.H. Freeman and Company, New York, 2000. | |||||
Voraussetzungen / Besonderes | The exercises, but also the classes will be based on procedures from the freely available, open-source statistical software R, for which an introduction will be held. | |||||
401-0649-00L | Applied Statistical Regression | W+ | 5 KP | 2V + 1U | M. Dettling | |
Kurzbeschreibung | This course offers a practically oriented introduction into regression modeling methods. The basic concepts and some mathematical background are included, with the emphasis lying in learning "good practice" that can be applied in every student's own projects and daily work life. A special focus will be laid in the use of the statistical software package R for regression analysis. | |||||
Lernziel | The students acquire advanced practical skills in linear regression analysis and are also familiar with its extensions to generalized linear modeling. | |||||
Inhalt | The course starts with the basics of linear modeling, and then proceeds to parameter estimation, tests, confidence intervals, residual analysis, model choice, and prediction. More rarely touched but practically relevant topics that will be covered include variable transformations, multicollinearity problems and model interpretation, as well as general modeling strategies. The last third of the course is dedicated to an introduction to generalized linear models: this includes the generalized additive model, logistic regression for binary response variables, binomial regression for grouped data and poisson regression for count data. | |||||
Skript | A script will be available. | |||||
Literatur | Faraway (2005): Linear Models with R Faraway (2006): Extending the Linear Model with R Draper & Smith (1998): Applied Regression Analysis Fox (2008): Applied Regression Analysis and GLMs Montgomery et al. (2006): Introduction to Linear Regression Analysis | |||||
Voraussetzungen / Besonderes | The exercises, but also the classes will be based on procedures from the freely available, open-source statistical software package R, for which an introduction will be held. In the Mathematics Bachelor and Master programmes, the two course units 401-0649-00L "Applied Statistical Regression" and 401-3622-00L "Regression" are mutually exclusive. Registration for the examination of one of these two course units is only allowed if you have not registered for the examination of the other course unit. | |||||
Optionale Fächer | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
752-3105-00L | Physiology Guided Food Structure and Process Design | W | 3 KP | 2V | E. J. Windhab, B. Le Révérend, T. Wooster | |
Kurzbeschreibung | A “cook-and look” approach to process design is no longer applicable in the current environmental, nutritional and competitive constraints. The modern R&D chemical/food engineer should have a clear focus on the desired structure that needs to be achieved to design a process line or a processing equipment, coupled with in depth knowledge of the processed materials. | |||||
Lernziel | The objective of this course is to highlight the intimate links between human physiology and product sensory and nutritional functions. To optimize these functions, an understanding of the physiological functions that interact and encode the actions of those product structures must be well understood. Therefore the objective of this course is for students to be equipped with a skill set that will encompass basic digestion and sensory physiology knowledge and food structures. The students will be exposed to this interplay all along the GI tract, including taste, aroma and texture perception, swallowing mechanics and gastro intestinal digestion with an engineering or physical sciences angle. | |||||
Vertiefung in Food Quality and Safety | ||||||
Disziplinäre Fächer | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
752-0801-00L | Lebensmittelrecht | W+ | 1 KP | 1V | C. Spinner, E. Zbinden Kaessner | |
Kurzbeschreibung | Grundsätze des schweizerischen Lebensmittelrechts, Einführung in die Grundbegriffe der EU, internationale Organisationen und internationale Verträge. | |||||
Lernziel | Übersicht über Grundsätze, Abläufe und Institutionen des Vollzugs sowie über den Aufbau der Lebensmittelgesetzgebung und der wichtigsten Bestimmungen des schweizerischen Lebensmittelrechts; Kenntnisse der Grundbegriffe und der Struktur der EU allgemein und im Bereich der Lebensmittelsicherheit, Überblick über die relevanten bilateralen Abkommen CH-EU sowie weiterer relevanter internationaler Organisationen (z.B. Codex und WTO) und deren Einfluss auf das nationale Lebensmittelrecht. | |||||
Inhalt | Einführung in die EU (allgemein) und im Rahmen der Lebensmittelsicherheit (Generaldirektion SANCO und Rahmenverordnung zur Lebensmittelsicherheit, Rechtsetzungsverfahren in der EU, Einführung in die relevanten bilateralen Abkommen Schweiz-EU, Einführung in die internationale Organisationen (insbesondere Codex Alimentarius), Aufbau des Rechts in der Schweiz, Übersicht über den Inhalt des Lebensmittelgesetzes und der wichtigsten Verordnungen sowie deren Umsetzung in der Praxis, wichtigste Verfahren, Rechtsetzung und Vollzug. | |||||
Skript | Es werden Kopien der Präsentationen abgegeben. | |||||
Literatur | Unterlagen über Codex Alimentarius, EU Rahmenverordnung sowie Lebensmittelgesetz und einige Verordnungen werden im Rahmen der Vorlesung abgegeben. | |||||
Voraussetzungen / Besonderes | Voraussetzungen: Allgemeine Kenntnisse der Lebensmittelwissenschaften. Die Vorlesung wird in Deutsch gehalten, Unterlagen Deutsch und Englisch oder Französisch. | |||||
752-1021-00L | Food Enzymology | W+ | 3 KP | 2G | L. Nyström | |
Kurzbeschreibung | The course covers the fundamentals of food enzymology, application of endogenous and exogenous enzymes in food processing, as well as use of enzymes in analytics. | |||||
Lernziel | Students can describe what enzymes are and can explain their use and functions in food and food products. Students can argue why and how enzymes are used in food processing and analysis. Students execute a research project independently and defend their findings during a presentation to peer students and an expert panel. | |||||
Inhalt | Enzymes in foods: the use of added enzymes in food processing, control and/or utilization of endogenous enzymes, production of enzyme preparations for food use, and chemical analysis of food components by enzymatic methods. Course contains lectures and a practical group work. | |||||
Skript | The lectures are supplemented with handouts. | |||||
Voraussetzungen / Besonderes | Course prerequisites: Food Chemistry I/II and Food Analysis I/II (or equivalent) | |||||
752-4009-00L | Molecular Biology of Foodborne Pathogens | W+ | 3 KP | 2V | M. Loessner, M. Schuppler | |
Kurzbeschreibung | The course offers detailed information on selected foodborne pathogens and toxin producing organisms; the focus lies on relevant molecular biological aspects of pathogenicity and virulence, as well as on the occurrence and survival of these organisms in foods. | |||||
Lernziel | Detailed and current status of research and insights into the molecular basis of foodborne diseases, with focus on interactions of the microorganism or the toxins they produce with the human system. Understanding the relationship between specific types of food and the associated pathogens and microbial risks. Another focus lies on the currently available methods and techniques useful for the various purposes, i.e., detection, differentiation (typing), and antimicrobial agents. | |||||
Inhalt | Molecular biology of infectious foodborne pathogens (Listeria, Vibrio, E. coli, Campylobacter, etc) and toxin-producing organisms (Bacillus, Clostridium, Staphylococcus). How and under which conditions will toxins and virulence factors be produced, and how do they work? How is the interaction between the human host and the microbial pathogen? What are the roles of food and the environment ? What can be done to interfere with the potential risks? Which methods are best suited for what approach? Last, but not least, the role of bacteriophages in microbial pathogenicity will be highlighted, in addition to various applications of bacteriophage for both diagnostics and antimicrobial intervention. | |||||
Skript | Electronic copies of the presentation slides (PDF) and additional material will be made available for download to registered students. | |||||
Literatur | Recommendations will be given in the first lecture | |||||
Voraussetzungen / Besonderes | Lectures (2 hours) will be held as a single session of approximately 60+ minutes (10:15 until approx. 11:15 h), without break ! | |||||
752-5103-00L | Functional Microorganisms in Foods | W+ | 3 KP | 2G | C. Lacroix, A. Geirnaert, L. Meile, C. Schwab | |
Kurzbeschreibung | This integration course will discuss new applications of microorganisms with functional properties in food and functional food products. Selected topics will be used to illustrate the rapid development but also limits of basic knowledge for applications of functional microorganisms to produce food with high quality, safety and potential health benefits for consumers. | |||||
Lernziel | To understand the principles, roles and mechanisms of microorganisms with metabolic activities of high potential for application in traditional and functional foods utilization with high quality, safety and potential health benefits for the consumers. This course will integrate basic knowledge in food microbiology, microbial physiology, biochemistry, and technology. | |||||
Inhalt | This course will address selected and current topics on new applications of microorganisms with functional properties in food and functional food products and characterization of functionality and safety of food bacteria. Specialists from the Laboratory of Food Biotechnology, as well as invited speakers from the industry will contribute to the selected topics as follows: - Probiotics and Prebiotics: Probiotics, functional foods and health, towards understanding molecular modes of probiotic action; Challenges for the production and addition of probiotics to foods; Prebiotics and other microbial substrates for gut functionality. - Bioprotective Cultures and Antimicrobial Metabolites: Antifungal cultures and applications in foods; Antimicrobial peptide-producing cultures (bacteriocins) for enhancing food quality and safety; Development of new protective cultures, the long path from research to industry. - Legal and Protection Issues Related Functional Foods - Industrial Biotechnology of Flavor and Taste Development - Safety of Food Starter Cultures and Probiotics Students will be required to complete a group project on food products and ingredients with of from functional bacteria. The project will involve information research and analysis followed by an oral presentation and short writen report. | |||||
Skript | Copy of the power point slides from lectures will be provided. | |||||
Literatur | A list of references will be given at the beginning of the course for the different topics presented during this course. | |||||
752-1301-00L | Special Topics in Toxicology | W | 2 KP | 2G | S. J. Sturla, K. Hecht | |
Kurzbeschreibung | Journal-club style course involving student presentations and active discussion and critique of recent publications and modern experimental strategies. The focus is on chemical, biochemical, and nutritional aspects of selected topics in Toxicology, with a new group of topics addressed each semester | |||||
Lernziel | -to stimulate student interest and provide advanced knowledge of current research in Toxicology and its related sciences - to develop skills in critical evaluation of scientific literature, oral presentation and questioning - to understand modern experimental techniques and research approaches relevant in toxicology | |||||
Inhalt | Im "journal club" diskutieren wir aktuelle Veröffentlichungen auf dem Gebiet der Toxikologie mit einem chemischen, biochemischen oder ernährungswissenschaftlichen Hintergrund. Der Kurs beinhaltet Vorträge, in denen Studenten eine Veröffentlichung vorstellen, gefolgt von einer anschliessender Diskussion durch alle Teilnehmer. | |||||
Literatur | A selection of approximately 20 papers from recent primary scientific literature. | |||||
Voraussetzungen / Besonderes | The course is open to Masters or PhD level students. For Masters level participants, a strict prerequisite is (a) previously taken and passed "Introduction to Molecular Toxicology" (752-1300) and/or (b) previous courses supporting equivalent knowledge plus permission from the instructor. Please contact the instructor before the start of the class, explaining the basis of your previous knowledge other than the Introduction course, to request special permission. If you would like to take "Special Topics in Toxicology", do not register at the same time for "Advanced Topics in Toxicology". It is only possible to take one, and it is only possible to take the advanced level after completing this course. | |||||
Methodische Fächer | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
401-0625-01L | Applied Analysis of Variance and Experimental Design | W+ | 5 KP | 2V + 1U | L. Meier | |
Kurzbeschreibung | Principles of experimental design, one-way analysis of variance, contrasts and multiple comparisons, multi-factor designs and analysis of variance, complete block designs, Latin square designs, random effects and mixed effects models, split-plot designs, incomplete block designs, two-series factorials and fractional designs, power. | |||||
Lernziel | Participants will be able to plan and analyze efficient experiments in the fields of natural sciences. They will gain practical experience by using the software R. | |||||
Inhalt | Principles of experimental design, one-way analysis of variance, contrasts and multiple comparisons, multi-factor designs and analysis of variance, complete block designs, Latin square designs, random effects and mixed effects models, split-plot designs, incomplete block designs, two-series factorials and fractional designs, power. | |||||
Literatur | G. Oehlert: A First Course in Design and Analysis of Experiments, W.H. Freeman and Company, New York, 2000. | |||||
Voraussetzungen / Besonderes | The exercises, but also the classes will be based on procedures from the freely available, open-source statistical software R, for which an introduction will be held. | |||||
401-0649-00L | Applied Statistical Regression | W+ | 5 KP | 2V + 1U | M. Dettling | |
Kurzbeschreibung | This course offers a practically oriented introduction into regression modeling methods. The basic concepts and some mathematical background are included, with the emphasis lying in learning "good practice" that can be applied in every student's own projects and daily work life. A special focus will be laid in the use of the statistical software package R for regression analysis. | |||||
Lernziel | The students acquire advanced practical skills in linear regression analysis and are also familiar with its extensions to generalized linear modeling. | |||||
Inhalt | The course starts with the basics of linear modeling, and then proceeds to parameter estimation, tests, confidence intervals, residual analysis, model choice, and prediction. More rarely touched but practically relevant topics that will be covered include variable transformations, multicollinearity problems and model interpretation, as well as general modeling strategies. The last third of the course is dedicated to an introduction to generalized linear models: this includes the generalized additive model, logistic regression for binary response variables, binomial regression for grouped data and poisson regression for count data. | |||||
Skript | A script will be available. | |||||
Literatur | Faraway (2005): Linear Models with R Faraway (2006): Extending the Linear Model with R Draper & Smith (1998): Applied Regression Analysis Fox (2008): Applied Regression Analysis and GLMs Montgomery et al. (2006): Introduction to Linear Regression Analysis | |||||
Voraussetzungen / Besonderes | The exercises, but also the classes will be based on procedures from the freely available, open-source statistical software package R, for which an introduction will be held. In the Mathematics Bachelor and Master programmes, the two course units 401-0649-00L "Applied Statistical Regression" and 401-3622-00L "Regression" are mutually exclusive. Registration for the examination of one of these two course units is only allowed if you have not registered for the examination of the other course unit. | |||||
Optionale Fächer | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
752-5111-00L | Gene Technology in Foods | W+ | 3 KP | 2V | L. Meile | |
Kurzbeschreibung | This course will increase basic knowledge on biotechnological constructions and application of genetically modified organisms (GMO) which are used worldwide in food production systems. The course discusses health issues, the legislation frame and food safety aspects of GMO applications in agriculture, food production and consumption in Switzerland and EU-countries. | |||||
Lernziel | This course will provide knowledge and biological background on genetically modified organisms (GMO) and food produced with the help of GMO, especially on the molecular basis of GMO constructions with emphasis on genetically modified food in Switzerland and the EU. Criteria of rationale food safety and health assessment in agriculture and food consumption will be elaborated. | |||||
Inhalt | Overview on application in gene technology, the gene transfer potential of bacteria, plants and other organisms and the mostly used transgenes in food as well as on GMO used for food production and their detection technologies in food; food safety assessment of GMO food; information on the legislation in Switzerland and EU-countries | |||||
Skript | Copies of slides from lectures will be provided | |||||
Literatur | Actual publications from literature will be provided | |||||
Voraussetzungen / Besonderes | Good knowledge in biology, especially in microbiology and molecular biology are prerequisites. Some contents will be provided by registred students who will individually or as a group present an actual publication. | |||||
752-1302-00L | Advanced Topics in Toxicology | W | 2 KP | 2G | S. J. Sturla | |
Kurzbeschreibung | Journal-club style course that involves student presentations of selected topics in Toxicology on the basis of current primary research and review papers. | |||||
Lernziel | The goals are to stimulate student interest and provide advanced knowledge of current research in the interdisciplinary area of Food and Nutrition Toxicology and its related sciences. The student should develop skills in the critical evaluation of scientific literature, oral presentation and questioning, and understanding modern experimental techniques in Molecular Toxicology. | |||||
Inhalt | Diskussion von neusten Fachpublikationen. Der Schwerpunkt liegt bei chemischen und biochemischen Aspekten ausgewählter Themen im Bereich Toxikologie. Teilnehmer sind vorwiegend Studierende auf Masterstufe oder Doktorierende in verwandten Bereichen (Chemie, Pharmazie, etc.). Vertiefte Kenntnisse in organischer Chemie und Biochemie werden vorausgesetzt. Selected course topics change every semester. | |||||
Voraussetzungen / Besonderes | Participants are required to have completed previously "Special Topics in Toxicology" (752-1301-00L). Both courses are run concurrently every semester. It is only possible to register for one course at a time. Do not register for "Advanced Topics in Toxicology" until after you have completed "Special Topics in Toxicology" | |||||
Vertiefung in Nutrition and Health | ||||||
Disziplinäre Fächer | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
752-2307-00L | Nutritional Aspects of Food Composition and Processing | W+ | 3 KP | 2V | B. E. Baumer, J. M. Sych | |
Kurzbeschreibung | Lecture type course with an interdisciplinary approach for the evaluation of nutritional aspects of changes in food composition due to processing. | |||||
Lernziel | Students should be able to - describe and compare the major concepts /criteria used for the evaluation of the nutritional quality of food - apply these criteria when assessing the effects of selected processing technologies on nutritional quality. - evaluate recent formulation strategies aimed to achieve additional physiological benefits for targeted population groups (i.e. functional foods). | |||||
Inhalt | The course gives inputs on compositional changes in food due to processing (with focus on thermal/chilling, enzymatic, chemical, emerging technologies) or new formulation strategies. Possible evaluation methods for these changes (e.g. nutritional profile) will be addressed. | |||||
Skript | There is no script. Powerpoint presentations and relevant scientific articles will be available on-line for students. A selection of recommended readings will be given at the beginning of the course. | |||||
Voraussetzungen / Besonderes | The course is open to Master and MAS students in food and science and nutrition or related. Basic knowledge of food chemistry and nutrition is expected, as well as an understanding of food processing. | |||||
752-6101-00L | Dietary Etiologies of Chronic Disease | W+ | 3 KP | 2V | M. B. Zimmermann | |
Kurzbeschreibung | To have the student gain understanding of the links between the diet and the etiology and progression of chronic diseases, including diabetes, gastrointestinal diseases, kidney disease, cardiovascular disease, arthritis and food allergies. | |||||
Lernziel | To examine and understand the protective effect of foods and food ingredients in the maintenance of health and the prevention of chronic disease, as well as the progression of complications of the chronic diseases. | |||||
Inhalt | The course evaluates food and food ingredients in relation to primary and secondary prevention of chronic diseases including diabetes, gastrointestinal diseases, kidney disease, cardiovascular disease, arthritis and food allergies. | |||||
Skript | There is no script. Powerpoint presentations will be made available on-line to students. | |||||
Literatur | To be provided by the individual lecturers, at their discretion. | |||||
Voraussetzungen / Besonderes | No compulsory prerequisites, but prior completion of Introduction to Nutritional Science and Advanced Topics in Nutritional Science is strongly advised. |
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