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Processing and utilization of spent hens

Published online by Cambridge University Press:  18 September 2007

N. Kondaiah
Affiliation:
Division of Livestock Products Technology, Indian Veterinary Research Institute, Izatnagar 243 122 U.P., India
B. Panda
Affiliation:
Division of Livestock Products Technology, Indian Veterinary Research Institute, Izatnagar 243 122 U.P., India
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Abstract

Although spent hens are economically important, they are considered a by-product of the egg industry and efforts are therefore needed if better quality meat and higher returns are to be achieved. This review has compiled information on various aspects of spent hen processing and utilization. Meat and fat yields depend on age and weight of the birds with heavy hens producing better yields and better quality products than light weight birds. Except for muscle tissue removed almost intact by filleting machines, hand deboned meat is superior to mechanically deboned meat. Toughness of spent hen meat is no obstacle to the production of a variety of comminuted products. Such by-products as skin, gizzard, heart, ova yolk and fat can be utilized in emulsion-based chicken and other meat products. The use of phosphates to produce better quality spent hen meat products has been demonstrated. Improved deboning techniques and modern methods of meat processing are capable of enhancing the quality and value of meat from spent hens leading to greater demand and better financial returns.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1992

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References

Amesbury, R.A. (1988) The automated deboning of poultry. In: Egg and Poultry Meat Processing (Eds Stadelman, W.J., Olson, V.M., Shemwell, G.A. and Pasch, S.), Ellis Horwood, Chichester, UK pp. 146160Google Scholar
Ande, C.F., Huffman, D.L. and Cordrary, J.C. (1984) Edible yield and characteristics of patties manufactured from two types of chicken carcases. Poultry Science 63: 21752180CrossRefGoogle Scholar
Angel, S., Hwang, J.W. and Kinsman, D.M. (1988) Upgrading spent layer meat by mechanical deboning and further processing. Journal of Food Quality 11: 213223CrossRefGoogle Scholar
Baker, R.C. and Darfler, J.M. (1967) The effect of added skin on the quality of chicken franks. Poultry Science 46: 1231 (Abstract)Google Scholar
Baker, R.C. and Darfler, J.M. (1968) A comparison of Leghorn fowl and fryers for precooked battered fried chicken. Poultry Science 47: 15501599CrossRefGoogle Scholar
Baker, R.C. and Darfler, J.M. (1981) The development of a poultry ham product. Poultry Science 60: 14291435CrossRefGoogle Scholar
Baker, R.C., Darfler, J.M. and Bourne, M.C. (1968) The effect of level of skin on the quality of chicken frankfurters. Poultry Science 47: 19891999CrossRefGoogle Scholar
Baker, R.C., Darfler, J.M. and Vadehra, D.V. (1969) Type and level of fat and amount of protein and their effect on the quality of chicken frankfurters. Food Technology 24: 808811Google Scholar
Baker, R.C., Darfler, J.M. and Vadehra, D.V. (1970a) Effect of pH on the quality of chicken frankfurters. Journal of Food Science 35: 693695CrossRefGoogle Scholar
Baker, R.C., Darfler, J.M. and Vadehra, D.V. (1970b) Effect of type, age and freezing of poultry meat before processing on the quality of chicken frankfurters. Poultry Science 49: 747751CrossRefGoogle Scholar
Baker, R.C., Darfler, J.M. and Vadehra, D.V. (1972a) Acceptability of frankfurters made from chicken, rabbit, beef and pork. Poultry Science 51: 12101214CrossRefGoogle Scholar
Baker, R.C., Darfler, J.M. and Vadehra, D.V. (1972b) Effect of selective additives on the acceptability of chicken frankfurters. Poultry Science 51: 16161619CrossRefGoogle Scholar
Bawa, A.S., Orr, H.L. and Usborne, W.R. (1981) Enzymatic tenderization of spent White Leghorn hens. Poultry Science 60: 744749CrossRefGoogle Scholar
Blackshear, D., Hudspeth, J.P. and May, K.N. (1966) Organoleptic properties of frankfurters made from giblet meats. Poultry Science 45: 733736CrossRefGoogle ScholarPubMed
Blankenship, L.C., Hudspeth, J.P. and Craven, S.E. (1982) Microbiology of ova harvested from commercially slaughtered mature chickens. Poultry Science 61: 395398CrossRefGoogle ScholarPubMed
Breclaw, E.W. and Dawson, L.E. (1970) Smoke flavoured chicken rolls. Journal of Food Science 35: 379381CrossRefGoogle Scholar
Broom, D.M. (1990) Effects of handling and transportation on laying hens. World's Poultry Science Journal 46: 4850CrossRefGoogle Scholar
Brown, P.B. and Bean, H.W. (1952) The yield of edible meat from different market classes of chickens. Poultry Science 32: 232234CrossRefGoogle Scholar
Bushway, A.A., Lecomte, N.B., Work, T.M. and True, R.H. (1988a) Characteristics of frankfurters prepared from mutton and fowl. Journal of Food Science 53: 6769CrossRefGoogle Scholar
Bushway, A.A., Stickney, M.R., Bergeron, D., True, R.H., Work, T.M. and Criner, G.K. (1988b) Formulation and characteristics of a fermented pepperoni using mutton and fowl. Canadian Institute of Food Science and Technology Journal 21: 415418CrossRefGoogle Scholar
Cantrell, D.F. and Hale, K.K. Jr. (1974) Influence of chilling methods and ageing time on yield and tenderness of fowl. Poultry Science 53: 17251727CrossRefGoogle Scholar
Chiang, W.C., and Brekke, C.J. (1982) Formulation and storage stability of a fabricated breakfast strip utilising cooked fowl. Poultry Science 61: 19821990CrossRefGoogle Scholar
Cunningham, F.E. and Tiede, L.M. (1981) Properties of selected poultry products treated with a tenderizing marinade. Poultry Science 60: 24752479CrossRefGoogle Scholar
De Vitre, H.A. and Cunningham, F.E. (1985) Tenderization of spent hen muscle using papain, bromelin or ficin alone and in combination with salts. Poultry Science 64: 14761483CrossRefGoogle Scholar
Ensor, S.A., Ernst, E.A., Sofos, J.N. and Schmidt, G.R. (1989) Quality characteristics of restructured turkey meat with variable alginate calcium lactate ratios. Journal of Food Science 54: 558560CrossRefGoogle Scholar
Freeman, B.M. (1984) Transportation of poultry. World's Poultry Science Journal 40: 1930CrossRefGoogle Scholar
Froning, G.W. (1973) Effect of chilling in the presence of polyphosphates on characteristics of mechanically deboned fowl meat. Poultry Science 52: 920923CrossRefGoogle Scholar
Froning, G.W. and Johnson, F. (1973) Improving the quality of mechanically deboned fowl meat by centrifugation. Journal of Food Science 38: 279281CrossRefGoogle Scholar
Froning, G.W., Cunningham, F.E., Suderman, D.R. and Sackett, B.M. (1981) Characteristics of bone particles and measurement of bone particle size from mechanically deboned poultry. Poultry Science 60: 14431447CrossRefGoogle Scholar
Fry, J.L., Waldroup, P.W., Ahmed, E.M. and Lydick, H. (1966) Enzymatic tenderization of poultry meat, Food Technology 20: 102103Google Scholar
Goodwin, T.L. and Waldroup, P.W. (1970) Tenderizing meat from broiler breeder males by papain injection and aging in slushice. Arkansas Farm Research 19: 7Google Scholar
Gregory, N.G. (1989) Stunning and slaughter. In: Processing of Poultry (Ed. Mead, G.C.), Elsevier Applied Science, London, pp. 3163Google Scholar
Grunden, L.P. and Macneil, J.H. (1973) Examination of bone content of mechanically deboned poultry meat by EDTA and atomic absorption spectrophotometric methods. Journal of Food Science 38: 712713CrossRefGoogle Scholar
Gupta, M. (1990) Studies on incorporation of whole egg liquid in mutton and mutton and chicken combination meat sausages. MVSc Thesis, Deemed University IVRI, India, p. 97Google Scholar
Hale, K.K. Jr. and Mayfield, T.L. (1976) The effects of chilling and non-chilling on further processed fowl. Poultry Science 55: 17981801CrossRefGoogle Scholar
Harris, N.D. and Lindsay, R.C. (1972) Flavour changes in reheated chicken. Journal of Food Science 37: 1922CrossRefGoogle Scholar
Hasiak, R.J. and Baker, R.C. (1969) The development of chicken steak from breast and thigh meat. Poultry Science 47: 15261531CrossRefGoogle Scholar
Hegarty, G.R. and Herring, H.K. (1973) The inhibition of warmed-over flavour in cooked meats. Journal of Food Science 38: 398403Google Scholar
Hudspeth, J.P. and May, K.N. (1967) A study of the emulsifying capacity of salt soluble protein of poultry meat. I. Light and dark meat tissues of turkeys, hens and broilers and dark meat tissues of ducks. Food Technology 21: 11411142Google Scholar
Hudspeth, J.P. and May, K.N. (1969) Emulsifying capacity of salt soluble proteins of poultry meat. II. Heart, gizzard and skin from broilers, turkeys, hens and ducks. Food Technology 23: 373374Google Scholar
Huffman, D.L., Palmer, A.Z., Carpenter, J.W. and Shirley, R.L. (1961) The effect of ante-mortem injection of papain on tenderness of chicken. Poultry Science 40: 16271630CrossRefGoogle Scholar
Huffman, D.L., Stanley, M.H. and Cordray, J.C. (1984) Frozen storage stability of chicken nuggets as affected by phosphates. Poultry Science 63: (Supplement 1) 1920 (Abstract)Google Scholar
Jones, J.M. (1986) Review: application of science and technology to poultry meat processing. Journal of Food Technology 21: 663681CrossRefGoogle Scholar
Khanna, N. and Panda, P.C. (1983) Percent yield of cut-up parts of poultry. Avian Research 67: 4857Google Scholar
Klose, A.A. (1980) Fluoride content of commercially prepared mechanically deboned poultry meat. Poultry Science 59: 25702573CrossRefGoogle Scholar
Kondaiah, N. and Panda, B. (1985) Yield and quality of meat from chicken intestines. Indian Journal of Poultry Science 20: 129131Google Scholar
Kondaiah, N. and Panda, B. (1987a) Physicochemical and functional properties of spent hen components. Journal of Food Science and Technology 24: 267269Google Scholar
Kondaiah, N. and Panda, B. (1987b) Effect of hot and cold boning of spent hens on carcase components and functional properties of the frozen meat. International Journal of Food Science and Technology 22: 413416CrossRefGoogle Scholar
Kondaiah, N. and Panda, B. (1988) Effect of live weight, dressed weight and age on the yields of carcase components from spent hens. Indian Journal of Animal Science 58: 246252Google Scholar
Kondaiah, N. and Panda, B. (1989) Effect of phosphate and spent hen yolk on the quality of chicken sausages from spent hens. Poultry Science 68: 393398CrossRefGoogle Scholar
Kondaiah, N., Panda, B. and Kowale, B.N. (1984) Effect of salt and phosphate on the quality of hot minced frozen spent layer chicken meat. Indian Journal of Poultry Science 19: 290292Google Scholar
Kondaiah, N., Panda, B. and Anjaneyulu, A.S.R. (1987a) Meat yields and quality characteristics of meat from spent hens of white Leghorn and Rhode Island red breeds. Journal of Food Science and Technology 24: 7881Google Scholar
Kondaiah, N., Panda, B. and Anjaneyulu, A.S.R. (1987b) Evaluation of type and level of fat in chicken sausage from spent hen meat. Indian Journal of Poultry Science 22: 3034Google Scholar
Kondaiah, N., Panda, B., Anjaneyulu, A.S.R. and Singh, R.P. (1988) Utilization of whole meat components from spent hens for chicken sausage production. Indian Journal of Poultry Science 23: 135141Google Scholar
Kondaiah, N., Anjaneyulu, A.S.R., Singh, R.P. and Panda, B. (1990) Incorporation of whole egg liquid and potato in chicken nuggets. Indian Journal of Poultry Science 25: 226228Google Scholar
Kondaiah, N., Anjaneyulu, A.S.R., Lakshmanan, V., Singh, R.P. and Panda, B. (1992) Meat and by-product yields from different commercial classes of chickens. Journal of Animal Sciences (in press)Google Scholar
Kotula, K.L. (1988) Electrical stimulation of poultry carcases: tenderness and palatability progression of rigor mortis and cold shortening. Dissertation Abstracts International B 49: 20112195Google Scholar
Lyon, B.G. and Klose, A.A. (1981) Effect of heat processing in cans and retort pouches on sensory properties of fowl meat. Journal of Food Science 46: 227230, 233CrossRefGoogle Scholar
Lyon, B.G., Lyon, C.E. and Cox, N.A. (1983) Effects of reprocessing precooked fowl meat patties into raw formulation on quality of finished product. Poultry Science 62: 631634CrossRefGoogle Scholar
Lyon, C.E. and Hamm, D. (1984) Comparison of hot cooked and chilled cooked spent fowl on yields and tenderness of breast muscle. Poultry Science 63 (Supplement 1): 23 (Abstract)Google Scholar
Mathusa, M.S. and Janky, D.M. (1984) Effects of salt brine chilling and hot boning on tenderness of canned fowl light meat. Poultry Science 63: 19301934CrossRefGoogle Scholar
Maurer, A.J. (1973) Emulsifying characteristics of mechanically and hand deboned poultry meat mixtures. Poultry Science 52: 2061Google Scholar
Maurer, A.J., and Baker, R.C. (1966) The relationship between collagen content and emulsifying capacity of poultry meat. Poultry Science 45: 13171321CrossRefGoogle Scholar
Maurer, A.J., Baker, R.C. and Vadehra, D.V. (1969) The influence of type of poultry and carcase part on the extractability and emulsifying capacity of salt soluble proteins. Poultry Science 48: 994997CrossRefGoogle Scholar
McCready, S.T. and Cunningham, F.E. (1971) Salt soluble proteins of poultry meat. I. Composition and emulsifying capacity. Poultry Science 50: 243248CrossRefGoogle Scholar
Salahuddin, Mir, Kondaiah, N., Anjaneyulu, A.S.R. and Bisht, G.S. (1988) Quality of kebabs from mutton and chicken. Indian Journal of Meat Science and Technology 1: 99104Google Scholar
Nakamura, R., Sekoguchi, S. and Sato, Y. (1975) The contribution of intramuscular collagen to the tenderness of meat from chickens with different ages. Poultry Science 54: 16041612CrossRefGoogle Scholar
Noble, J. (1973) Machine deboning turns poultry by-product into sausage ingredients. Food Product Development 7: 102Google Scholar
Palladino, D.K. and Ball, H.R. (1979) Effects of selected inorganic salts on certain tenderness characteristics of spent hen muscle. Journal of Food Science 44: 322326CrossRefGoogle Scholar
Panda, B. (1968) Processing, preservation and marketing of poultry products. Indian Farming 18: 6571Google Scholar
Peters, G.H. (1958) Slaughter experiments with poultry of different weights with special reference to various breeds of domestic fowl and types of poultry. Animal Breeding Abstracts 27: 1557Google Scholar
Randall, C.J. (1977) Use of mechanically deboned and manually deboned poultry meat in meat emulsions: a review. Canadian Institute of Food Science and Technology Journal 10: 147152CrossRefGoogle Scholar
Raymond, F.M., Miller, B.F. and Schmidt, G.R. (1983) Studies on pasteurized and commercially sterilised poultry meat bologna. Effects of chopping condition and type of meat. Journal of Food Science 48: 317321, 325Google Scholar
Roland, L.M., Seideman, S.C., Donnelly, L.S. and Quenzer, N.M. (1981) Physical and sensory properties of chicken patties made with varying proportions of white and dark spent fowl muscle. Journal of Food Science 46: 834837CrossRefGoogle Scholar
Rousselle, J.R., Seacat, K., Kieme, A.I. and Stadelman, W.J. (1984) Utilizing flakecut spent fowl meat in chicken patties. Poultry Science 63: 932937CrossRefGoogle Scholar
Schutt-Abraham, I., Wormuth, H.J. and Fessel, J. (1983) Electrical stunning of poultry in view of animal welfare and meat production. In: Stunning of Animals for Slaughter (Ed. Eikelenboom, G.), Martinus Nijhoff, Boston, pp. 187196Google Scholar
Seideman, S.C., Durland, P.R., Quenzer, N.M. and Michels, J.D. (1982a) Precooking and flake size effects on spent fowl restructured steaks. Journal of Food Production 45: 3840CrossRefGoogle ScholarPubMed
Seideman, S.C., Durland, P.R., Quenzer, N.M. and Carlson, C.W. (1982b) The effect of varying levels of raw and precooked spent fowl muscle in the manufacture of restructured steaks. Poultry Science 61: 885890CrossRefGoogle Scholar
Seideman, S.C., Durland, P.R., Quenzer, N.M. and Carlson, C.W. (1982c) Utilization of spent fowl muscle in the manufacture of restructured steaks. Poultry Science 61: 10871093CrossRefGoogle Scholar
Stadelman, W.J., Olson, V.M., Shemwell, G.A. and Pasch, S. (1988) Egg and Poultry Meat Processing, Ellis Horwood, Chichester, UK, pp. 123160Google Scholar
Sung, S.K. and Lee, S.H. (1989) Studies on utilization and functional characteristics of preblended and mechanically deboned meat of spent layers. II. Functional characteristics of preblends from mechanically deboned meat and textural properties of its emulsion. Korean Journal of Animal Science 31: 4246Google Scholar
Trojan, M., Kijowski, J., Niewiarowicz, A. and Pikul, J. (1977) Dissection and chemical compositions and technological characteristics of meat of hens. Gospodarka Miesna 29: 2022 (Poultry Abstracts 5: 12)Google Scholar
Uijttenboogaart, Th. G. (1981) Weight composition of chicken broiler and spent hen carcases. In: Proceedings of the Fifth European Symposium on Quality of Poultry Meat, Apeldoorn, Netherlands, Spelderholt Institute for Poultry Research, Beekbergen, Netherlands, pp. 4453Google Scholar
Veerkamp, C.H. and Elsinga, W. (1981) Preparation of useful byproducts from cooked fowl frames. In: Proceedings of the Fifth European Symposium on Quality of Poultry Meat, Apeldoorn, Netherlands, Spelderholt Institute for Poultry Research, Beekbergen, Netherlands, pp. 8087Google Scholar
Wabeck, C.J. (1972) Feed and water withdrawal time relationship to processing yield and potential fecal contamination of broilers. Poultry Science 51: 11191121CrossRefGoogle Scholar
Wangen, R.M. and Skala, J.H. (1968) Tenderness and maturity in relation to certain muscle components of White Leghorn fowl. Journal of Food Science 33: 613616CrossRefGoogle Scholar
Wathes, C.M. and Clark, J.A. (1981) Sensible heat transfer from the fowl: thermal resistance to the pelt. British Poultry Science 22: 175183CrossRefGoogle Scholar
Young, L.L. and Lyon, B.G. (1973) The use of heat treated meat in chicken frankfurters. Poultry Science 52: 18681875CrossRefGoogle Scholar
Zenoble, O.C., Bowers, J.A. and Cunningham, F.E. (1977) Eating quality and composition of spent hens processed with and without immersion chilling. Poultry Science 56: 9397CrossRefGoogle Scholar