Protein value of two insects, subjected to various heat treatments, using growing rats and the protein digestibility-corrected amino acid score

Poelaert, C.; Francis, Frédéric; Alabi, Taofic; Caparros Megido, Rudy; Crahay, B.; Bindelle, Jérôme; Beckers, Yves

doi:10.3920/JIFF2017.0003

Article (Scientific journals)

Protein value of two insects, subjected to various heat treatments, using growing rats and the protein digestibility-corrected amino acid score

Poelaert, C.; Francis, Frédéric; Alabi, Taofic et al.

2018 • In Journal of Insects as Food and Feed, 4 (2), p. 77-87

Peer Reviewed verified by ORBi

Permalink
https://hdl.handle.net/2268/225976

DOI
10.3920/JIFF2017.0003

Files (1)Send to Details Statistics Bibliography Similar publications

Files

Full Text

jiff2017.0003.pdf

Publisher postprint (331.08 kB)

Request a copy

All documents in ORBi are protected by a user license.

Send to

RIS BibTex APA Chicago Permalink X Linkedin

Details

Keywords :

Acheta domesticus; Heat treatment; Protein quality evaluation; Tenebrio molitor

Abstract :

[en] To address the future challenge of food availability (9 billion people on earth by 2050), non-common sources of proteins need to be investigated. Insects are consumed mainly in Africa, Asia and South America, but entomophagy is now being increasingly promoted in Europe and North America. In addition to consumption in raw form, insects are often cooked, which represents an important guarantee for sanitation purposes. Little information is available on the influence of such treatment and its effect on the nutritional value of the resulting insect food. The aim of this study was to determine, depending on the heat treatment, the quality of the proteins of two edible insects, using the protein digestibility-corrected amino acid score (PDCAAS) and a rat bioassay. The insects were adult house crickets (Acheta domesticus) and the larvae of mealworms (Tenebrio molitor). Both insects, not heated or heat-treated by oven-cooking at 150 °C for 30 min or at 200 °C for 10 min and by autoclaving at 120 °C for 25 min, were fed to rats and evaluated for ingestion, digestibility and nitrogen retention and compared with a control casein diet. The growth performance of rats fed mealworm larvae, and to a lesser extent house crickets, was hampered by a deficiency in sulphur-containing amino acids (AA) in not heated insects. Then, the nitrogen retention of diets formulated with oven-cooked or autoclaved insects was reduced in rats because the AA profile was negatively modified by the heat treatment. Cooking insects at 200 °C for 10 min seemed the most appropriate for maintaining a high nutritive value in growing rats. However both tested insect-species are promising as human food ingredients because of (1) their high protein digestibility in the not heated state (84-92%) as well as after being heated (84-90%); and (2) their AA profile, which meets human dietary requirements (69-84% for PDCAAS). © 2018 Wageningen Academic Publishers.

Disciplines :

Animal production & animal husbandry

Author, co-author :

Poelaert, C.; Precision Livestock and Nutrition Unit, Gembloux Agro-Bio Tech, Terra Teaching and Research Centre, University of Liege, 2 Passage des Déportés, Gembloux, Belgium, Microbiology and Genomics Unit, Gembloux Agro-Bio Tech, Terra Teaching and Research Centre, University of Liege, 2 Passage des Déportés, Gembloux, Belgium

Francis, Frédéric ; Université de Liège - ULiège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Gestion durable des bio-agresseurs

Alabi, Taofic ; Université de Liège - ULiège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Gestion durable des bio-agresseurs

Caparros Megido, Rudy ; Université de Liège - ULiège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Gestion durable des bio-agresseurs

Crahay, B.; Precision Livestock and Nutrition Unit, Gembloux Agro-Bio Tech, Terra Teaching and Research Centre, University of Liege, 2 Passage des Déportés, Gembloux, Belgium

Bindelle, Jérôme ; Université de Liège - ULiège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Ingénierie des productions animales et nutrition

Beckers, Yves ; Université de Liège - ULiège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Ingénierie des productions animales et nutrition

Language :

English

Title :

Protein value of two insects, subjected to various heat treatments, using growing rats and the protein digestibility-corrected amino acid score

Publication date :

2018

Journal title :

Journal of Insects as Food and Feed

eISSN :

2352-4588

Publisher :

Wageningen Academic Publishers

Volume :

Issue :

Pages :

77-87

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 27 June 2018

Statistics

Number of views

238 (24 by ULiège)

Number of downloads

13 (8 by ULiège)

More statistics

Scopus citations^®

Scopus citations^®
without self-citations

OpenCitations

OpenAlex citations

Bibliography

Association of Official Analytical Chemists (AOAC), 1990. Official methods of analysis. AOAC, Washington, DC, USA
Barroso, F.G., De Haro, C., Sánchez-Muros, M.J., Venegas, E., Martínez-Sánchez, A. and Pérez-Bañón, C., 2014. The potential of various insect species for use as food for fish. Aquaculture 422: 193-201
Bax, M.L., Aubry, L., Ferreira, C., Daudin, J.D., Gatellier, P., Rémond, D. and Santé-Lhoutellier, V., 2012. Cooking temperature is a key determinant of in vitro meat protein digestion rate: investigation of underlying mechanisms. Journal of Agricultural and Food Chemistry 60: 2569-2576
Belluco, S., Losasso, C., Maggioletti, M., Alonzi, C.C., Paoletti, M.G. and Ricci, A., 2013. Edible insects in a food safety and nutritional perspective: a critical review. Comprehensive Reviews in Food Science and Food Safety 12: 296-313
Blásquez, J.R.E., Moreno, J.M.P. and Camacho, V.H.M., 2012. Could grasshoppers be a nutritive meal? Food and Nutrition Sciences 3: 164-175
Bukkens, S.G.F., 1997. The nutritional value of edible insects. Ecology of Food and Nutrition 36: 287-319
De Marco, M., Martínez, S., Hernandez, F., Madrid, J., Gai, F., Rotolo, L., Belforti, M., Bergero, D., Katz, H., Dabbou, S., Kovitvadhi, A., Zoccarato, I., Gasco, L. and Schiavone, A., 2015. Nutritional value of two insect larval meals (Tenebrio molitor and Hermetia illucens) for broiler chickens: apparent nutrient digestibility, apparent ileal amino acid digestibility and apparent metabolizable energy. Animal Feed Science and Technology 209: 211-218
DeFoliart, G.R., 1992. Insects as human food. Crop Protection 11: 395-399
Donoghue, S. and Langenberg, J., 1994. Clinical nutrition of exotic pets. Australian Veterinary Journal 71: 337-341
European Commission (EC), 2009. Commission Regulation EC No 152/2009 of 27 January 2009 laying down the methods of sampling and analysis for the official control of feed. Official Journal of the European Union L 54: 1-130
Food and Agriculture Organisation of the United Nations (FAO), 2013. Dietary protein quality evaluation in human nutrition. FAO, Rome, Italy. Available at: https://tinyurl.com/y7t76csu
Food and Agriculture Organisation of the United Nations / World Health Organisation (FAO/WHO), 1991. Protein quality evaluation: report of the joint FAO/WHO expert consultation. FAO, Rome, Italy. Available at: http://www.fao.org/docrep/013/t0501e/t0501e00.pdf
Finke, M.D., DeFoliart, G.R. and Benevenga, N.J., 1989. Use of a fourparameter logistic model to evaluate the quality of the protein from three insect species when fed to rats. Journal of Nutrition 119: 864-871
Finke, M.D., 2002. Complete nutrient composition of commercially raised invertebrates used as food for insectivores. Zoo Biology 21: 269-285
Finke, M.D., 2007. Estimate of chitin in raw whole insects. Zoo Biology 26: 105-115
Gatellier, P., Kondjoyan, A., Portanguen, S. and Santé-Lhoutellier, V., 2010. Effect of cooking on protein oxidation in n-3 polyunsaturated fatty acids enriched beef. Implication on nutritional quality. Meat Science 85: 645-650
Gilani, G.S., Xiao, C.W. and Cockell, K.A., 2012. Impact of antinutritional factors in food proteins on the digestibility of protein and the bioavailability of amino acids and on protein quality. British Journal of Nutrition 108: S315-S332
Hackler, L.R., Bodwell, C.E., Happich, M.L., Phillips, J.G., Derse, P.H., Elliott, J.G., Hartnagel, R.E., Hopkins, D.T., Kapiszka, E.L., Mitchell, G.V., Parsons, G.F., Prescher, E.E., Robaidek, E.S. and Womack, M., 1984. Protein efficiency ratio: AACC/ASTM collaborative study. Journal of the AOAC 67: 66-77
Harper, A.E., Benevenga, N.J. and Wohlhueter, R.M., 1970. Effects of ingestion of disproportionate amounts of amino acids. Physiological Reviews 50: 428-558
Heeley, N. and Blouet, C., 2016. Central amino acid sensing in the control of feeding behavior. Frontiers in Endocrinology 7: 148
Huang, F., Huang, M., Xu, X. and Zhou, G., 2011. Influence of heat on protein degradation, ultrastructure and eating quality indicators of pork. Journal of the Science of Food and Agriculture 91: 443-448
Kinyuru, J.N., Kenji, G.M., Njoroge, S.M. and Ayieko, M., 2009. Effect of processing methods on the in vitro protein digestibility and vitamin content of edible winged termite (Macrotermes subhylanus) and grasshopper (Ruspolia differens). Food and Bioprocess Technology 3: 778-782
Klunder, H.C., Wolkers-Rooijackers, J., Korpela, J.M. and Nout, M.J.R., 2012. Microbiological aspects of processing and storage of edible insects. Food Control 26: 628-631
Ljøkjel, K., Harstad, O.M. and Skrede, A., 2000. Effect of heat treatment of soybean meal and fish meal on amino acid digestibility in mink and dairy cows. Animal Feed Science and Technology 84: 83-95
Longvah, T., Mangthya, K. and Ramulu, P., 2011. Nutrient composition and protein quality evaluation of eri silkworm (Samia ricinii) prepupae and pupae. Food Chemistry 128: 400-403
Makkar, H.P.S., Tran, G., Heuzé, V. and Ankers, P., 2014. State-ofthe-art on use of insects as animal feed. Animal Feed Science and Technology 197: 1-33
National Research Council (NRC), 1995. Nutrient requirements of the laboratory rat. National Academies Press, Washington, DC, USA
Ramos-Elorduy, J., 2005. Insects: a hopeful food source. In: Paoletti, M.G. (ed.) Ecological implications of minilivestock: potential of insects, rodents, frogs and snails. Science Publishers, Enfield, MT, USA, pp. 263-291
Ramos-Elorduy, J., Moreno, J.M.P., Prado, E.E., Perez, M.A., Otero, J.L. and De Guevara, O.L., 1997. Nutritional value of edible insects from the State of Oaxaca, Mexico. Journal of Food Composition and Analysis 10: 142-157
Rodriguez-Estrada, M.T., Penazzi, G., Caboni, M.F., Bertacco, G. and Lercker, G., 1997. Effect of different cooking methods on some lipid and protein components of hamburgers. Meat Science 45: 365-375
Rumpold, B.A. and Schlüter, O.K., 2013. Potential and challenges of insects as an innovative source for food and feed production. Innovative Food Science and Emerging Technologies 17: 1-11
Sante-Lhoutellier, V., Aubry, L. and Gatellier, P., 2007. Effect of oxidation on in vitro digestibility of skeletal muscle myofibrillar proteins. Journal of Agricultural and Food Chemistry 55: 5343-5348
Sante-Lhoutellier, V., Astrijc, T., Marinova, P., Greve, E. and Gatellier, P., 2008. Effect of meat cooking on physicochemical state and in vitro digestibility of myofibrillar proteins. Journal of Agricultural and Food Chemistry 56: 1488-1494
Tornberg, E., 2005. Effects of heat on meat proteins-implications on structure and quality of meat products. Meat Science 70: 493-508
Trevisan, A.J.B., De Almeida Lima, D., Sampaio, G.R., Soares, R.A.M. and Bastos, D.H.M., 2016. Influence of home cooking conditions on Maillard reaction products in beef. Food Chemistry 196: 161-169
Van Soest, P.J., Robertson, J.B. and Lewis, B.A., 1991. Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. Journal of Dairy Science 74: 3583-3597
Verkerk, M.C., Tramper, J., Van Trijp, J.C.M. and Martens, D.E., 2007. Insect cells for human food. Biotechnology Advances 25: 198-202
Wathelet, B., 1999. Nutritional analyses for proteins and amino acids in beans (Phaseolus sp.). Biotechnologie, Agronomie, Société et Environnement 3: 197-200
World Health Organisation (WHO), 2007. Protein and amino acid requirements in human nutrition. WHO Technical Report Series, Geneva, Switzerland. Available at: https://tinyurl.com/z4f24x2
XiaoMing, C., Ying, F., Hong, Z. and ZhiYong, C., 2010. Review of the nutritive value of edible insects. In: Durst, P.B., Johnson, D.V., Leslie, R.N. and Shono, K. (eds.) Forest insects as food: humans bite back. Proceedings of a workshop on Asia-Pacific resources and their potential for development, February 19-21, 2008, Chiang Mai, Thailand, RAP Publication 2010/02. FAO, Bangkok, Thailand, pp. 85-92. Available at: http://www.fao.org/docrep/012/i1380e/ i1380e00.pdf