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Comparative physico-chemical study of fermented and unfermented cocoa beans from Côte d’Ivoire

By: Patricia Amenan Kouadio, Barthélemy Koffi Attioua, Faustin Aka Kabran, Brise Amian Kassi, Rosmonde Affoué Yao, Herman Kouamé Yeboue, Marcel N’dri Kasse, Ernest Kouakou Amoikon

Key Words: Cocoa almond, Fermentation, Nutrition

Int. J. Biosci. 16(1), 355-362, January 2020.

DOI: http://dx.doi.org/10.12692/ijb/16.1.355-362

Certification: ijb 2020 0099 [Generate Certificate]

Abstract

Theobroma cacao (Cocoa) is a shrub whose cultivation is widespread in some tropical countries. This study on almonds from cocoa was intended to establish their physicochemical characteristics before and after fermentation and to evaluate their antiradical activities. Standard methods for physicochemical dosing, phytomolecule dosing and determination of antiradical activity (DPPH) were used. Results indicate that fermentation increases carbohydrate, total sugars and fiber. On the other hand, the contents of lipids, proteins and phenolic compounds decrease after fermentation. The best antiradical activity is observed with the methanolic extract of the fermented and dried almond (CF). This study as confirmed that cocoa bean almond can be proposed as a food additive to protect against oxidative damage.

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Comparative physico-chemical study of fermented and unfermented cocoa beans from Côte d’Ivoire

Adeyeye EI. 2016. Proximate, mineral and antinutrient compositions of natural cocoa cake, cocoa liquor and alkalized cocoa powders sourced in Nigeria. Pharmaceutical science and technology 1(28), 2328-0182.

Afoakwa E, Kongor J, Takram J, Budu A. 2013. Changes and nib acidification and biochemical composition during fermentation of pulp preconditioned cocoa (Theobroma cocoa) beans. International Food Research Journal 20(4), 1843-1853.

Afoakwa EO, Paterson A, Fowler M, Ryan A. 2008. Formation des arômes et caractère dans le cacao et le chocolat: un examen critique. Critical Reviews in Food Science and Nutrition 48(9), 840-857.

Afoakwa EO, Quao J, Takrama J, Agnes SBAS, Firibu KSFK. 2011. Chemical composition and physical quality characteristics of Ghanaian cocoa beans as affected by pulp pre-conditioning and fermentation. Journal of Food Science and Technology 50(6), 1-9.

Ajala AS, Ojewande KO. 2014. Study on drying of fermented cocoa beans (Theobroma cacao), International journal of innovation and applied studies 9(2), 931-936.

Amaiz L, Carmen MD, Guitierrezn R, Perez E, Alvarez C. 2012. Effect of roasting process on physical and physicochemical properties, proximate composition and fatty acid profile of the cocoa bean from Miranda state Venezuela. Revista Cientifica Agricola 2, 439-446.

AOAC. 1975. Official methods of analysis. 12th ed. Association of Official Analytical Chemists. Washington DC.

Ba K, Tine E, Destain J, Cissé N, Thonart P. 2010. Etude comparative des composés polyphénoliques, du pouvoir antioxydant de différentes variétés de sorgho sénégalais et des enzymes amylolytiques de leur malt. Biotecnology Agronomy Social and envioronmental Sciences 14, 131-139.

Cinquanta L, Cesareb CD, Manonic R, Pianod A, Robertid P, Salvatori G. 2016. Mineral essential elements for nutrition in different chocolate products. International Journal of Food Sciences and Nutrition 67(7), 773-778.

Day RA, Underwood AL. 1986. Qualitative Analysis, 5th Ed. Prentice-Hall Publications, New Delhi, India, p.701.de Lumen, B.O., Becker, R., Reyes, P.S., 1986. Legumes and a cereal with high methionine/cystine contents. Journal of Agriculture Food Chemistry 34, 361-364.

Dillinger TL, Barriga P, Escarcega S, Jimenez M, Lowe DS Grivetti LE. 2000. Food of the Gods: Cure for humanity? A cultural history of the medecinal and ritual use of chocolate. Journal of Nutrition 130(8), 2057-2072.

Djikeng TF, Womeni HM, Anjaneyulu E, Boungo TG, Karuna MSL, Prasad RBN, Linder M. 2017. Performance of Green Tea leaves methanolic extract in stabilizing refined, bleached and deodorized palm olein during storage at frying temperature, European Journal of Nutrition Food Safety 7, 144-154.

Dubois M, Gilles KA, Hamilton JK, Roben FA, Smith F. 1956. Méthode colorimétrique pour la détermination des sucres et substances apparentées. Analytical Chemistry 28, 350-356.

Erdman JW. 1979. Oilseed phytates : nutritional implications. Journal of American Oil Chemists Society 56, 736-741.

Francisco A, Tomas-barbera ÄN, Cienfuegos-Jovellanos E. 2007. A New Process to Develop a Cocoa Powder with Higher Flavonoid Monomer Content and Enhanced Bioavailability in Healthy Humans. Journal of Agriculture and Food Chemistry 55, 3926-3935.

Guehi TG, Zahouli IB, Ban-Koffi L, Fae MA, Nemlin JG. 2010. Performance of different drying methods and their effects on the chemical quality attributes of raw cocoa material. International Journal of Food Science and Technology 45, 1564-1571.

Hütz-Adams F, Huber C, Knoke I, Morazán P, Mürlebach M. 2016. Strengthening the competitiveness of cocoa production and improving the income of cocoa producers in West and Central Africa. Sudwind eV: Bonn: 156.

ICCO. 20018. “Cocoa Year 2017/18”, Quaterly Bulletin of Cocoa Statistics, XXVIII: 3, pp10.

Koffi O, Samagaci L, Goualie B, Niamke S. 2017. Diversity of Yeasts Involved in Cocoa Fermentation of Six Major Cocoa-Producing Regions in Ivory Coast. European Scientific Journal 13(30), 1857-7881.

Mastroiacovo D, Kwik-Uribe C, Grassi D, Necozione S, Raffaele A, Pistacchio L. 2014. Cocoa flavanol consumption improves cognitive function, blood pressure control, and metabolic profile in elderly subjects: the Cocoa, Cognition, and Aging (CoCoA) Study-a randomized controlled trial. American Journal of Clinical Nutrition 101(3), 538-548.

Mbugua SK. 1988. The nutritional and fermentation characteristics of uji produced from dry milled flour (unyabaridi) and whole wet milled maize. Chemistry Microbiology Technology Lebensme 10, 154–161.

Meda A, Lamien CF, Ronito M, Milogo J, Nacoulma OG. 2005. Determination of total phenolic, flavonoids and proline contents in Burkina Faso honeys as well as their radical scavenging activity. Food Chemistry 91, 571-577.

Molyneux P. 2004. The use of the stable free radical diphenylpicryl-hydrazyl (DPPH) for estimating antioxidant activity. Songklanakarin J. Sci. Technol 26, 211-219.

Ndife J, Bolaji P, Atoyebi D, Umezuruike C. 2013. Production and quality evaluation of cocoa products (plain cocoa powder and chocolate). American Journal of Food and Nutrition Print 2157-0167.

Othman A, Ismail A, Abdul-Ghani N, Adenan I. 2007. Antioxidant capacity and phenolic content of cocoa beans. Food Chemistry 100, 1523-1530.

Popovici J, Moreira LA, Poinsignon A, Iturbe-Or-maetxe I, McNaughton D, O’Neill SL. 2010. Assessing key safety concerns of a Wolbachia-based strategy to control dengue transmission by Aedesmosquitoes. Mem. Inst. Oswaldo Cruz 105, 957-964.

Portillo E, Portillo A. 2012. Cocoa production in the state of zulia: Socieconomic impact on cocoa famers on the ̏ chocolate routeʺ [la production de cacao en el estado Zulia: impacto socioecomico en los cacaocultures ̏ ruta del chocolateʺ]. Opcion  28(68), 303-323

Singleton VL, Orthofer R, Lamuela-Raventos RM. 1999. Analysis of total phenols and other oxydant substrates and antioxydants by means of Folin-Ciocalteu reagent. Methods enzymol 299, 152-178.

Torres-Moreno M, Torrescasana E, Sales-Salvado, Blanch C. 2014. Nutritional and fatty acids profile in cocoa beans and chocolates with different geographical origin and processing conditions. Journal of Food chemistry 166, 125-132.

Van Soest PS. 1963. Usage de detergents dans l’analyse de fibres alimentaires – Une méthode rapide de détermination des fibres et lignines. Association of Official Analytical Chemists (AOAC) 46, 829-835.

Verter N. 2016. Cocoa export performance in the world’s largest producer. Bulgarian Journal of Agricultural Science 22(5), 713-721.

Zoulo ME, Djessou SP. 2006. Détermination de la teneur en sels minéraux et oligo-élément du cacao de côte d’ivoire pris bord champs. Thèse de Doctorat de l’Université Felix Houphouët-Boigny, Abidjan, Côte d’Ivoire. 156p.

Patricia Amenan Kouadio, Barthélemy Koffi Attioua, Faustin Aka Kabran, Brise Amian Kassi, Rosmonde Affoué Yao, Herman Kouamé Yeboue, Marcel N’dri Kasse, Ernest Kouakou Amoikon.
Comparative physico-chemical study of fermented and unfermented cocoa beans from Côte d’Ivoire.
Int. J. Biosci. 16(1), 355-362, January 2020.
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