17Mar 2020

EFFECT OF TEMPERATURE ON THE DEGRADATION OF ASCORBIC ACID (VITAMIN C) CONTAINED IN INFANT SUPPLEMENT FLOURS DURING THE PREPARATION OF PORRIDGES

  • Universite de Lome, Faculte des Sciences, Laboratoire de Biochimie, Nutrition, 01 BP 1515 Lome 01, Togo.
  • Institut Togolais de Recherche Agronomique (ITRA) 01 BP 1163 Agoe Cacaveli, Togo.
  • Universite de Lome, Faculte des Sciences, laboratoire de toxicologie et de pharmacologie, 01 BP 1515 Lome 01, Togo.
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This work concerns the incorporation of Parkia biglobosa pulp and Adansonia digitata pulp (baobab) into infant flours produced by the Togolese Institute for Agricultural Research (ITRA) in order to increase their micronutrient and especially vitamin C content. The 2,6-dichlorophenol-indophenol (DIP) method is then used to determine vitamin C in the prepared porridges of these enriched flours to study the effect of heat or temperature on the degradation of this vitamin C. The results show that the highest destruction of ascorbic acid or vitamin C occurs at temperatures between 85 and 95°C, especially after 10 minutes of cooking time. The initial value of 66.67 mg for 10Nx10 enriched flour decreases to 2.64 mg after 2 minutes cooking time and becomes practically zero after 20 minutes (0.50 mg). As for the enriched 10Ne10 flour, its initial vitamin C value decreases from 67.74 mg to 3.04 mg after 2 minutes of cooking time and then to 0.40 mg after 20 minutes. The study ofthe degradation of vitamin C through a gradual decrease of temperature by cooling the porridges, shows a slightly degradation after 10 minutes cooling at the temperatures between 60 and 80°C. The initial values of 10Nx10 and 10Ne10 flours decrease from 66.67 mg to 52.20 mg and from 67.74 mg to 60.30 mg respectively. From these results, we can conclude that heat destroys almost all the vitamin C contained in the flours during the preparation of the porridges at the temperatures between 80 and 95°C. It becomes necessary to incorporate the baobab pulp rich in vitamin C after the cooking and cooling of the porridges between 60 and 80°C to avoid a total destruction of the vitamin C.


  1. Abioye, A.O., Abioye, V.F., Ade-Omowaye, B.I.O., Adedeji, A.A., 2013. Kinetic modeling of ascorbic acid loss in baobab drink at pasteurization and storage temperatures. IOSR J. Environ. Sci. Toxicol. Food Technol. IOSR-JESTFT 7, 17?23.
  2. Bouka Goto, C.E., Bangana, A., Sidi-Toure, S., 2015. Fortification of baby with local foodstuffs, in: Grains for Feeding the World. Presented at the EXPO MILANO 2015, Le Universit? per expo 2015, Comitato Scientifico Del Comune Di Milano, Milan, Italie, pp. 29?34.
  3. Diouf, S., Folquet, M., Mbofung, K., Ndiaye, O., Brou, K., Dupont, C., Ndri, D., Vuillerod, M., Aza?s-Braesco, V., Tetanye, E., 2015.Prevalence et determinants de lanemie chez le jeune enfant en Afrique francophone ? Implication de la carence en fer. /data/revues/0929693X/v22i11/S0929693X15003267/.
  4. Donkor, A.-M., Tei, M., Suurbaar, J., Yakubu, A., Addae, D., 2014. Stability evaluation and degradation kinetics of ascorbic acid in baobab fruit pulp formulated with the seed oil.
  5. FAO, 2019. State of food security and nutrition in the world 2019: safeguarding against economic slowdowns... and downturns. FOOD & AGRICULTURE ORG, S.l.
  6. Fellers, P.J., 1988. Shelf life and quality of freshly squeezed, unpasteurized, polyethylene-bottled citrus juice. J. Food Sci. 53(6), 1699?1702.
  7. Fennema, O., 1977. Loss of vitamins in fresh and frozen foods. FoodTechnology 31(12), 32 ? 38.
  8. Gordon, L.R., Samaniego-Esguerra, M.C., 1990. Effect of soluble solids and temperature on ascorbic acid degradation in lemon juice stored in glass bottles. J. Food Qual. 13, 361?374.
  9. Huelin, F.E., 1953. Studies on the anaerobic decomposition of ascorbic acid. Food Res. 18, 633 ? 639.
  10. Johnson, J.R., Braddock, R.J., Chen, C.S., 1995. Kinetics of ascorbic acid loss and nonenzymatic browning in orange juice serum: Experimental rate constants. J. Food Sci. 60(3), 502?505.
  11. Lee, H.S., Coates, G.A., 1999. Vitamin C in frozen, fresh squeezed, unpasteurized, polyethylene-bottled orange juice: A storage study. Food Chem. 65, 165 ?168.
  12. Lee, H.S., Nagy, S., 1988. Quality changes and nonenzymatic browning intermediates in grapefruit juice during storage. J. Food Sci. 53(1), 168?171.
  13. MS, Ministere de la Sante, 2012. Le Plan Strategique National pour lAlimentation et la Nutrition (PSNAN) https://www.afro.who.int/fr/news/le-plan-strategique-national-pour-lalimentation-et-la-nutrition-psnan-valide (accessed 9.19.19).
  14. Nicoleti, J.F., Silveira-J?nior, V., Telis-Romero, J., Telis, V.R.N., 2007. Influence of drying conditions on ascorbic acid during convective drying of whole persimmons. Dry. Technol. Int. J. 25(5), 691 ? 899.
  15. Nour, A.A., 1980. Chemical composition of baobab fruit (Adansoniadigitata L.). Trop Sci 22, 383?388.
  16. Nutrition W.P., 1998. Complementary feeding of young children in developing countries : a review of current scientific knowledge.
  17. Robertson, G.L., Samaniego, C.M.L., 1986. Effect of initial dissolved oxygen levels on the degradation of ascorbic acid and the browning of lemon juice during storage. J. Food Sci. 51(1), 184 ?187.
  18. Smith, G.C., Clegg, M.S., Keen, C.L., Grivetti, L.E., 1996. Mineral values of selected plant foods common to southern Burkina Faso and to Niamey, Niger, West Africa. Int. J. Food Sci. Nutr. 47, 41?53.
  19. Solomon, O., Svanberg, U., Sahlstr?m, A., 1995. Effect of oxygen and fluorescent light on the quality of orange juice during storage at 8 oC. Food Chem. 53, 363?368.
  20. SUN, 2017. Annual Progress Report 2017. The Scaling Up Nutrition (SUN) Movement.
  21. Sunetra, R., 2018. Vitamins, in: Food Science and Nutrition. New Delhi, India, pp. 297?310.

[Paka Essodolom, Bouka Ekpetsi Chantal, Melila Mamatchi and Amouzou Kousanta (2020); EFFECT OF TEMPERATURE ON THE DEGRADATION OF ASCORBIC ACID (VITAMIN C) CONTAINED IN INFANT SUPPLEMENT FLOURS DURING THE PREPARATION OF PORRIDGES Int. J. of Adv. Res. 8 (Mar). 116-121] (ISSN 2320-5407). www.journalijar.com


PAKA Essodolom
Biochemistry and Nutrition

DOI:


Article DOI: 10.21474/IJAR01/10605      
DOI URL: https://dx.doi.org/10.21474/IJAR01/10605