Effect of commercial processing on fumonisin concentrations of maize-based foods

被引：16

作者：

Piñeiro M. ^{[1
]}

Miller J. ^{[2
]}

Silva G. ^{[1
]}

Musser S. ^{[3
]}

机构：

[1] Mycotoxin Department, Laboratorio Tecnológico Del Uruguay (LATU), Ave. Italia 6201, Montevideo

[2] Department of Chemistry, Carleton University, Ottawa

[3] Instrumentation and Biophysics Branch, Food and Drug Administration, Center for Food Safety and Nutrition, 200 C St. S.W., Washington

来源：

Mycotoxin Research | 1999年 / 15卷 / 1期

关键词：

Mycotoxin Research; Fusarium Moniliforme; Maize Flour; Thermal Degradation; Maize Meal;

D O I：

10.1007/BF02945209

中图分类号：

学科分类号：

摘要：

Fumonisin-contaminated maize was used to study the effect of three cooking and food processing methods and residual contamination of the food product. Frying, autoclaving and extrusion were examined with naturally-contaminated maize meal, maize flour and sweet maize kernels, all at two fumonisin concentrations. High Pressure Liquid Chromatography determination of fumonisins B1 and B2 and hydrolized fumonisin B1 (AP1) were performed in unprocessed materials and at the end of the experimental runs. Reductions of fumonisins concentration in processed products were obtained for fried polenta and from one of the two runs of extruded maize batter. These reductions were consistent with previous studies of the thermal degradation of fumonisins. Autoclaving sweet maize kernels apparently resulted in reductions of fumonisin concentrations that were highly temperature dependent, but this needs further study. The unexpectedly large reduction in fumonisin concentrations in the extrusion processing of batter with high initial concentrations also needs further investigation. There was no evidence that AP1 was formed under any of the conditions tested.

引用

页码：2 / 12

页数：10

共 39 条

[1]

O'Donnell, K., Cigelnik, E., Nirenberg, H.I., Molecular systematics and phylogeography of Gibberellafujikuroi species complex (1998) Mycologica, 90, pp. 465-493

[2]

Marasas, W.F.O., Miller, J.D., Riley, R.T., Visconti, A., Fumonisins-occurrence, toxicology, metabolism and risk assessment (1998) Phytopathology, , in press

[3]

De Leon, C., Pandey, S., Improvement of resistance to ear and stalk rots and agronomic traits in tropical maize gene pools (1989) Crop Sci, 29, pp. 12-17

[4]

Miller, J.D., Fungi and mycotoxins in grain: Implications for stored product research (1995) J Stored Prod Res, 31, pp. 1-16

[5]

Ramirez, M.L., Pascale, M., Chulze, S., Reynoso, M.M., March, G., Visconti, A., Natural occurrence of fumonisins and their correlation to Fusarium contamination in commercial corn hybrids growth in Argentina (1996) Mycopathologia, 135, pp. 29-34

[6]

Martinez, A., Microbiótica fúngica y niveles de aflatoxinas y fumonisinas en oleaginosas y cereales en Venezuela (anos 1981-1996) (1997) Proceedings of the 2 Latinamerican Mycotoxicological Congress, p. 92. , Maracay, Venezuela, 14-18 July 1997

[7]

Sydenham, E.W., Marasas, W.F.O., Shepard, G.S., Thiel, P.G., Hirooka, E.Y., Fumonisins concentrations in Brazilians feeds associated with field outbreaks of confirmed and suspected animal mycotoxicoses (1992) J Agric Fd Chem, 40, pp. 994-997

[8]

Sydenham, E.W., Shephard, G.S., Thiel, P.G., Marasas, W.F.O., Rheeder, J.F., Sanhueza, C.E.P., Gonzalez, H.H.L., Resnick, S., Fumonisins in Argentinian field-trial corn (1993) J Agric Fd Chem, 41, pp. 891-895

[9]

(1993) Monograph 56: Some Naturally-occurring Substances: Some Food Items and Constituents, Heterocyclic Amines and Mycotoxins Lyon, , I ARC. France: International Agency for Research on Cancer

[10]

McA, M., Correa, B., Fischman, O., Gambale, W., Paula, C.R., Chacon-Reche, N.O., Pozzi, C.R., Mycoflora of the toxic feeds associated with equine leukoencephalomalacia (ELEM) outbreaks in Brazil (1994) Mycopathologia, 127, pp. 183-188

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