Speaker Biography

Ozlem Tokusoglu

Celal Bayar University,Turkey

Title: Food By-Products Based Functional Food Powders and Nutraceuticals

Ozlem Tokusoglu
Biography:

Ozlem Tokusoglu has completed her PhD at Ege University Engineering Faculty, Dept of Food Engineering at 2001. She is currently working as Associate Professor Dr  faculty member  in Celal Bayar University  Engineering Faculty Department of Food Engineering. TokuÅŸoÄŸlu performed a visiting scholar at the Food Science and Nutrition Department /University of Florida, Gainesville-Florida-USA during 1999-2000 and  as visiting professor at the School of Food Science, Washington State University, Pullman, Washington,USA during  April-May 2010.  She has published many papers in peer reviewed journals and serving as an editorial board member of selected journals. TokuÅŸoÄŸlu published the scientific edited two international book entitled Fruit and Cereal Bioactives: Chemistry, Sources and Applications  and entitled Improved Food Quality with Novel Food Processing by CRC Press, Taylor & Francis,USA Publisher,and  third book Food By-Product Based Functional Food Powders by CRC Press,too; Dr Tokusoglu also published three national books entitled Cacao and Chocolate Science and Technology ,  Special Fruit Olive: Chemistry, Quality and Technology and Frying Oils Science and Technology.  She organized and/or  administered as Conference Chair  at many conferences and congress in various parts of USA and Europe. 

 

Abstract:

Functional foods are foods that include an ingredient that gives that food health-promoting properties over and above  its usual  nutritional value. Bioactive compounds potentially extractable from the aimed plant food by-products contain majorly phytochemicals, fibers, natural flavor constituents, sugars, polysaccharides, ethanol, and proteins and its derivatives.  The massive by-product, often named as ‘’pomace’’ or  ‘’waste’’, is obtained by fruit or vegetable pressing and can include pulp, peels, seeds and, stones. Major food by-product derivatives from the drink industry (26%), followed by the dairy and ice cream industry (21.3%), the manufacturing and preservation of fruits and vegetables (14.8%), the production of grain and starch products (12.9%), the manufacturing, processing and preservation of meat products (8%), the production of vegetable and animal oils and fats (3.9%), the manufacturing and preservation of fish and fish products (0.4%).

The processing of fruits and vegetables results in high levels of waste materials including peels, seeds, stones, and oilseed meals.  In the innovative technologies, new aspects regarding the utilizing of above-mentioned wastes as by-products for further exploitation on the manufacturing of high-value products, food additives or supplements with high nutritional value.  Especially stone fruits including apple, pear, citrus fruits, grape, tomato, tropical fruits including mango, aggregate fruits including pomegranate, berry fruits, olive and coffee, red beet, artichoke, asparagus, celery, endive, chicory, cucumber, broccoli are important fruit and vegetable sources that are given efficient by-products. By-products of fruit and vegetable as a sources of majorly phenolics and dietary fibre and minerals that have a wide range of action which includes antitumoral, antiviral, antibacterial, cardioprotective and antimutagenic activities.

               The meat by-products contain wastes from bred animals, wastes from seafood, and wastes from dairy processing as thirdly. The recovered biomolecules and by-products can be used to produce functional foods or as adjuvants in food processing or in medicinal and pharmaceutical preparations. It is determined that many organ meats contain more polyunsaturated fatty acids (PUFAs) than lean tissue while brain, chitterlings, heart, kidney, liver and lungs contain lowest level of monounsaturated fatty acids (MUFA)  and the highest level of polyunsaturated fatty acids (PUFA). Bioactive peptides generally includes between 3-20 amino acid  residues and various bioactives peptides have very healthy owing to to their determined health benefits to the consumers like antihypertensive activity.  Meanwhile collagen and gelatine are unique proteins and collagen is rich in non-polar amino acids (above 80%)  containing  glycine (Gly), alanine (Ala), valine (Val), proline (Pro) aminoacids whereas gelatine geerally contains glycine unites, proline and 4-hydroxyproline residues Antioxidant peptides anserine and carnosine are especially bioactive functional ingredient for functional food manufacturing process gained from meat wastes.  It is reported that the major components of fish waste products are tongue, cheeks, stomach, liver from fish. These organs includes protein bioactives as residual, bioactive lipid components (omega 3,6, DHA,EPA), fish skin, carotenoid bioactives.  Chitinous materials from shellfish products, gut enzymes, flavor products, anti-freeze  proteins from seafood blood are crucial. Astaxanthin (3,3-dihydroxy-β,β-carotene-4,4-dione) from seafood by-products is a ketocarotenoid oxidized from β-carotene, that  plays biological roles and have a number of special properties for food and medical applications due to their natural ketocarotenoid structure, and liposoluble property, besides has superior antioxidant characteristics and has biological functions as vitamin A precursor.  It is stated that main by-products of dairy industry are whey, buttermilk, and sometimes skim milk. It is reported that whey protein hydrolysates enriched in free amino acids (AAs) and hydrophilic peptides could have been responsible for the rised insulinotropic response of BRIN-BD11 cells. In this context, the potential utilization of whey protein hydrolysates and peptides can be performed as natural complementary approaches in dietary intervention and food-drug therapies for type 2 diabete management by inhibiting DPP IV activity and increasing the half-life of incretin hormones.

            From the nutrition perspective of view, food by-product based functional food powder gaining and nutraceutical manufacturing generate the alternative technologies for healthy and safe bioactive constituent utilization.