Advanced search
Publication Cover
International Journal of Food Properties Volume 19, 2016 - Issue 7
Submit an article Journal homepage
1,894
Views
22
CrossRef citations to date
0
Altmetric
Original Articles

Combined Effects of Gamma Irradiation and Blanching Process on Acrylamide Content in Fried Potato Strips

M. AbboudiDepartment of Radiation Technology, Atomic Energy Commission of Syria, Damascus, SyriaCorrespondence[email protected]
,
M. AL-BachirDepartment of Radiation Technology, Atomic Energy Commission of Syria, Damascus, Syria
,
Y. KoudsiFaculty of Science, University of Damascus, Damascus, Syria
&
H. JouharaRCUK Centre for Sustainable Energy Use in Food Chains (CSEF), Institute of Energy Futures, College of Engineering, Design and Physical Sciences, Brunel University, London, UK
Pages 1447-1454 | Received 09 Jul 2014, Accepted 20 Sep 2014, Published online: 07 Mar 2016

References

  • Vinci, R.M.; Mestdagh, F.; Meulenaer, B. Acrylamide formation in fried potato products, present and future, a critical review on mitigation strategies. Food Chemistry 2012, 133, 1138–1154.
  • Pedreschi, F. Acrylamide formation and reduction in fried potatoes. In Processing Effects Safety and Quality of Foods; CRC Press: Boca Raton, FL, 2009, 231–252.
  • Jin, C.; Wu, X.; Zhang, Y. Relationship between antioxidants and acrylamide formation: A review. Food Research International 2013, 51, 611–620.
  • Olmez, H.; Tuncay, F.; Ozcan, N.; Demirel, S. A survey of acrylamide levels in foods from the Turkish market. Journal of Food Composition and Analysis 2008, 21, 564–568.
  • Arisseto, A.P.; Toledo, M.C.F.; Fraselle, Y.G.S.; Degroodt, J.M.; Caroba, D.C.R. Contribution of selected foods to acrylamide intake by population Brazilian adolescents. Food Science and Technology 2009, 42, 207–211.
  • Gündüza, C.P.C.; Cengiza, M.F. Acrylamide conrents of commonly consumed bread type in Turkey. International Journal of Food Properties 2014. DOI:10.1080/10942912.2013.877028.
  • Svensson, K.; Abramsson, K.; Becker, W.; Glyn, A.; Hellena, K.E.; Lind,Y.; Rosen, J. Dietary intake of acrylamide in Sweden. Food and Chemical Toxicology 2003, 41, 1581–1586.
  • Beer, M.U.; Schlatter, J.; Dudler, V.; Zoller, O. Fried potatoes and human cancer. International Journal of Cancer 2004, 108, 634–635.
  • Kalita, D.; Jayanty, S.S. Reduction of acrylamide formation by vanadium salt in potato French fries and chips. Food Chemistry 2013, 138, 644–649.
  • Tuta, S.; Palazoglu, T.K.; Gokmen, V. Effect of microwave pre-thawing of frozen potato strips on acrylamide level and quality of French fries. Journal of Food Engineering 2010, 97, 261–266.
  • Chen, M.J.; Hsu, H.T.; Lin, C.L.; Ju, W.Y. A statistical regression model for the estimation of acrylamide concentrations in French fries for excess lifetime cancer risk assessment. Food and Chemical Toxicology 2012, 50, 3867–3876.
  • Williams, J.S.E. Influence of variety and processing conditions on acrylamide levels in fried potato crisps. Food Chemistry 2005, 90, 875–881.
  • Viklund, G.A.I.; Olsson, K.M.; Sjoholm, I.M.; Skog, K.I. Acrylamide in crisps: Effect of blanching studied on long-term stored potato clones. Journal of Food Composition and Analysis 2010, 23, 194–198.
  • Kaura, A.; Singha, N.; Ezekielb, R. Quality parameters of potato chips from different potato cultivars: Effect of prior storage and frying temperatures. International Journal of Food Properties 2008, 11, 791–803.
  • Mestdagh, F.; Maertens, J.; Cucu, T.; Delporte, K.; Peteghem, C.V.; Meulenaer, B. Impact of additives to lower the formation of acrylamide in a potato model system through pH reduction and other mechanisms. Food Chemistry 2008b, 107, 26–31.
  • Ou, S.; Lin, Q.; Zhang, Y.; Huang, C.; Sun, X.; Fu, L. Reduction of acrylamide formation by selected agents in fried potato crisps on industrial scale. Innovative Food Science and Emerging Technology 2008, 9, 116–121.
  • Mestdagh, F.; Wilde, T.; Delporte, K.; Peteghem, C.V.; Meulenaer, B. Impact of chemical pre-treatments on the acrylamide formation and sensorial quality of potato crisps. Food Chemistry 2008, 106, 914–922.
  • Sobukola, O.P.; Awonorin, S.O.; Sanni, L.O.; Bamiro, F.O. Optimization of blanching conditions prior to deep fat frying of yam slices. International Journal of Food Properties 2008, 11, 379–391.
  • Afify, A.M.M.R.; El-Beltagi, H.S.; A-Aly, A.; El-Ansary, A.E. Antioxidant enzyme activities and lipid peroxidation as biomarker compounds for potato tuber stored by gamma radiation. Asian Pacific Journal of Tropical Biomedicine 2012, 2, S1548–S1555.
  • Braghini, R.; Pozzi, C.R.; Aquino, S.; Rocha, L.O.; Correa, B. Effects of gamma radiation on the fungus Alternaria alternate in artificially inoculated cereal samples. Applied Radiation and Isotopes. 2009, 67, 1622–1628.
  • Yusof, N.; Ramli, R.A.A.; Ali, F. Chemical, sensory, and microbiological changes of gamma irradiated coconut cream powder. Radiation Physics and Chemistry 2007, 76, 1882–1884.
  • AL-Bachir, M. Effect of gamma irradiation on microbiological, chemical, and sensory characteristics of aniseed (Anisum vulgare). Bioresearch Technology 2007, 98, 1871–1876.
  • Thomas, P. Radiation preservation of foods of plant origin. Part 1. Potato and other tuber crops. CRC Critical Reviews in Food Science and Nutrition 1984, 19, 327–379.
  • Sharma. A.; Madhusoodanan, P. Techno-commercial aspects of food irradiation in India. Radiation Physics and Chemistry 2012, 81, 1208–1210.
  • WHO. Wholesomeness of Irradiated Food. Report of a Joint FAO/IAEA WHO Expert Committee, Technical Report Series No. 659, World Health Organization, Geneva, 1981.
  • IAEA. International Atomic Energy Agency: Food irradiation clearances database. http://nuclues.iaea.org/NUCLUES/Content/Applications/FICdb/DatabaseHome.jsp (accessed July 30, 2008).
  • SASMO. Syrian Arab Standard and Metrology Organization. Good Irradiation practices Code to control of the micro organisms and the insect pest in the plant condiment and herbs and spices. 3512/2010.ICS 17.240, 2010.
  • Mulla, M.Z.; Bharadwaj, V.R.; Annapure, U.S.; Variyar, P.S.; Sharma, A.; Singhal, R.S. Acrylamide content in fried chips prepared from irradiated and non-irradiated stored potatoes. Food Chemistry 2011, 127, 1668–1672.
  • Lu, Z.H.; Donner, E.; Yada, R.Y.; Liu, Q. Impact of c-irradiation, CIPC treatment, and storage conditions on physicochemical and nutritional properties of potato starches. Food Chemistry 2012, 133, 1188–1195.
  • Al-Bachir, M. Effect of gamma irradiation on fungal load, chemical, and sensory characteristics of walnuts (Juglansregia L.). Journal of Stored Products Research 2004, 40, 355–362.
  • AOAC. Official Methods of Analysis; 17th Ed; Association of Official Analytical Chemists: Washington, D.C., 2000.
  • Zeng, X.; Cheng, K.; Du, Y.; Kong, R.; Lo, C.; Chu, I.K.; Chen, F.; Wang, M. Activities of hydrocolloids as inhibitors of acrylamide formation in model systems and fried potato strips. Food Chemistry 2010, 121, 424–428.
  • Gokmen, V.; Senyuva, H.Z., Acar, J.; Sarıoglu, K. Determination of acrylamide in potato chips and crisps by high-performance liquid chromatography. Journal of Chromatography A. 2005, 1088, 193–199.
  • Egan, H.; Kirk, R.S.; Sawyer, R. Pearson’s Chemical Analysis of Foods; 8th Ed; Longman Scientific & Technical: Edinburgh, Churchill Livingstone UK, 1981; 185 pp.
  • Lee, J.H.; Sung, T.H.; Lee., K.T.; Kim, M.R. Effect of gamma irradiation on color, pungency, and volatiles of Korean red pepper. Journal of Food Science 2004, 69, 585–592.
  • Adamo, M.; Caoitani, D.; Mannina, L.; Cristinzio, M.; Ragni, P.; Tata, A.; Coppola, R. Truffles decontamination treatment by ionizing radiation. Radiation Physics and Chemistry 2004, 71, 165–168.
  • Brunton, N.P.; Gormley, R.; Butler, F.; Cummins, E.; Danaher, M.; Minihan, M.; O’Keeffe, M. A survey of acrylamide precursors in Irish ware potatoes and acrylamide levels in French fries. LWT- Food Science and Technology 2007, 40, 1601–1609.
  • Mestdagh, F.; Meulenaer, B.; Peteghem, C.V. Influence of oil degradation on the amounts of acrylamide generated in a model system and in French fries. Food Chemistry 2007, 100, 1153–1159.
  • Pedreschi, F.; Kaack, K.; Granby, K. The effect of asparaginase on acrylamide formation in French fries. Food Chemistry 2008, 109, 386–392.
  • Wang, J.; Chao, Y. Effect of gamma irradiation on quality of dried potato. Radiation Physics and Chemistry 2003, 66, 293–297.
  • Granvogl, M.; Jezussek, M.; Koehler, P.; Schieberle, P. Quantitation of 3-aminopropionamide in potatoes—a minor but potent precursor in acrylamide formation. Journal of Agriculture and Food Chemistry 2004, 52, 4751–4757.
  • Kiong, A.L.P.; Lai, G.A.; Hussein, S.; Harun, A.R. Physiological responses of Orthosiphon stamineus plants to gamma irradiation. American-Eurasian Journal of Sustainable Agriculture 2008, 2, 135–149.
  • Maity, J.P.; Chakraborty, S.; Kar, S.; Panja, J.S.; Samal, A.C; Chakraborty, A.; Santra, S.C. Effect of gamma irradiation on edible seed protein, amino acids, and genomic DNA during sterilization. Food Chemistry 2009, 114, 1237–1244.
  • Nam, K.C.; Ahn, D.U. Combination of aerobic and vacuum packaging to control lipid oxidation and off-odor volatiles of irradiated raw and cooked turkey breast. Meat Science 2003, 63, 389–395.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.