Hostname: page-component-77c89778f8-rkxrd Total loading time: 0 Render date: 2024-07-17T12:48:20.932Z Has data issue: false hasContentIssue false
  • English
  • Français

The avian basophilic leukocyte: a review

Published online by Cambridge University Press:  18 September 2007

M.H. Maxwell  and
G.W. Robertson
M.H. Maxwell
Affiliation:
Roslin Institute (Edinburgh), Roslin, Midlothian EH25 9PS, UK
G.W. Robertson
Affiliation:
Roslin Institute (Edinburgh), Roslin, Midlothian EH25 9PS, UK
Get access

Abstract

This paper reviews the current state of knowledge of the avian basophilic leukocyte. It includes a description of the general morphology of the cell derived from light and electron microscopy. The relative and absolute counts of basophils in different species are described, including the current status of the cytochemical constituents in their characteristic granules. The role of the basophil during the acute inflammatory response following exposure to non-infectious and infectious agents is examined. In birds basophils appear to play an important role in early inflammatory and immediate hypersensitivity reactions, but differ from those in mammals by not contributing to delayed hypersensitivity. They are crucial participants in cutaneous basophilic hyper-sensitivity reactions and in passive cutaneous and systemic anaphylaxis. The role of the basophil in the stress response in birds is discussed. When some birds are exposed to severe stress a basophilia develops – a physiological response that may be unique to birds.

Keywords

Avesbasophilleukocytemorphologyphysiologypoultrystress
Type
Research Article
Information
World's Poultry Science Journal , Volume 51 , Issue 3 , November 1995 , pp. 307 - 325
Copyright
Copyright © Cambridge University Press 1995

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Allsep, T., Wiggins, M. and Birrenkott, G. (1990) Normal growth and white blood cell development in large white turkey embryos. Poultry Science 69: 20272034CrossRefGoogle ScholarPubMed
Anderson, J.C. (1971) Delayed type hypersensitivity to tuberculin in young germ-free fowls. Research in Veterinary Science 12: 312317CrossRefGoogle ScholarPubMed
Atwal, O.S. and McFarland, L.Z. (1966) A morphologic and cytochemical study of erythrocytes and leukocytes of Coturnix coturnix japonica. American Journal of Veterinary Research 27: 10591065Google ScholarPubMed
Atwal, O.S., McFarland, L.Z. and Wilson, W.O. (1964) Hematology of Coturnix from birth to maturity. Poultry Science 43: 13921401CrossRefGoogle Scholar
Awadhiya, R.P., Vegad, J.L. and Kolte, G.N. (1980a) Studies on acute inflammation in the chicken using mesentery as a test system. Research in Veterinary Science 29: 172180CrossRefGoogle ScholarPubMed
Awadhiya, R.P., Vegad, J.L. and Kolte, G.N. (1980b) A topographical study of increased vascular permeability in acute inflammatory reaction in the chicken skin. Research in Veterinary Science 29: 203210CrossRefGoogle ScholarPubMed
Awadhiya, R.P., Vegad, J.L. and Kolte, G.N. (1980c) Demonstration of the phagocytic activity of chicken thrombocytes using colloidal carbon. Research in Veterinary Science 29: 120122CrossRefGoogle ScholarPubMed
Awadhiya, R.P., Vegad, J.L. and Kolte, G.N. (1981a) Microscopic study of increased vascular permeability and leucocyte emigration in the chicken wing web. Research in Veterinary Science 31: 231235CrossRefGoogle ScholarPubMed
Awadhiya, R.P., Vegad, J.L. and Kolte, G.N. (1981b) A microscopic study of increased vascular permeability and leucocyte emigration in thermal injury in the chicken skin. Avian Pathology 10: 313320CrossRefGoogle ScholarPubMed
Awadhiya, R.P., Vegad, J.L. and Kolte, G.N. (1982) Eosinophil leukocytic response in dinitrochlorobenzene skin hypersensitivity reaction in the chicken. Avian Pathology 11: 187194CrossRefGoogle ScholarPubMed
Bainton, D.F. (1980) The cells of inflammation: a general view. In: Handbook of Inflammation (Eds Glynn, L.E., Houck, J.C. and Weissman, G.) The Cell Biology of Inflammation (Ed. Weissman, G.), Vol. 2, Elsevier/North Holland, Amsterdam, pp. 125Google Scholar
Baldissera-Nordio, C. (1953) Ricerche sulla eventuale azione anemizzante del latte di animali alimentati con cipolle. Atti della Società italiana delle Scienze Veterinarie 7: 204210Google Scholar
Blount, W.P. (1939) The blood picture at birth in the chick. The Veterinary Journal 95: 193195Google Scholar
Boseila, A.W.A. (1959) The Basophil Leucocyte and its Relationship to the Tissue Mast cell. Munksgaard, CopenhagenGoogle Scholar
Bowers, D.E., Rieke, G.K. and Cannon, M.S. (1981) Mast cells in the pigeon olfactory bulb. Avian Diseases 25: 136150CrossRefGoogle ScholarPubMed
Brake, J., Baker, M., Morgan, G.W. and Thaxton, P. (1982) Physiological changes in caged layers during a forced molt. 4. Leucocytes and packed cell volume. Poultry Science 61: 790795CrossRefGoogle ScholarPubMed
Brake, N.P., Brake, J., Thaxton, J.P. and Murray, D.L. (1988) Effect of cortisol on cutaneous basophil hypersensitivity to phytohemagglutinin in chickens. Poultry Science 67: 669673CrossRefGoogle ScholarPubMed
Burkhardt, E. (1979) Scanning electron microscopy of peripheral blood leukocytes of the chicken. Cell and Tissue Research 204: 147153CrossRefGoogle Scholar
Burton, A.L. and Higginbotham, R.D. (1966) Response of blood basophils to Rous sarcoma virus infection in chicks and its significance. Journal of the Reticuloendothelial Society 3: 314326Google ScholarPubMed
Burton, R.R. and Harrison, J.S. (1969) The relative differential leucocyte of the newly hatched chick. Poultry Science 48: 451453CrossRefGoogle ScholarPubMed
Burton, R.R., Sahara, R. and Smith, A.H. (1972) The hematology of domestic fowl at high altitude. Environmental Physiology 1: 155163Google Scholar
Byerly, J.L. and Dawe, D.L. (1972) Delayed hypersensitivity reactions in Marek's disease virus infected chickens. American Journal of Veterinary Research 33: 22672273Google ScholarPubMed
Campbell, T.W. and Dein, J.F. (1984) Avian hematology – the basics (Symposium on caged bird medicine). Veterinary Clinics of North America: Small Animal Practice 14: 223248CrossRefGoogle Scholar
Carlson, H.C. (1972) The acute inflammatory reaction in chicken breast muscle. Avian Diseases 16: 553558CrossRefGoogle ScholarPubMed
Carlson, H.C. and Allen, J.R. (1969) The acute inflammatory reaction in chicken skin:blood cellular response. Avian Diseases 13: 817833CrossRefGoogle ScholarPubMed
Carlson, H.C. and Hacking, M. (1972) Distribution of mast cells in chicken, turkey, pheasant and quail, and their differentiation from basophils. Avian Diseases 16: 574577CrossRefGoogle ScholarPubMed
Chand, N. (1979) Pharmacological basis of immediate hypersensitivity in the domestic fowl: a review. Journal of Veterinary Pharmacology and Therapeutics 2: 151171CrossRefGoogle Scholar
Chand, N. and DeRoth, L. (1980) Acute systemic anaphylaxis in adult domestic fowl: evidence for the protective role of H2-histaminergic and β2-adrenergic receptors. American Journal of Veterinary Research 41: 101105Google Scholar
Chand, N. and Eyre, P. (1978) Immunological release of histamine and slow-reacting substance in domestic fowl. Canadian Journal of Comparative Medicine 42: 519524Google ScholarPubMed
Chand, N., Carlson, H.C. and Eyre, P. (1976) Passive cutaneous anaphylaxis in the domestic fowl. International Archives of Allergy and Applied Immunology 51: 508517CrossRefGoogle ScholarPubMed
Chen, C.H., Göbel, T.W.F., Kubota, T. and Cooper, M.D. (1994) T cell development in the chicken. Poultry Science 73: 10121018CrossRefGoogle ScholarPubMed
Cheville, N.F. (1983) Cell Pathology, 2nd edn, Iowa State University Press, Iowa.Google Scholar
Cheville, N.F. and Beard, C.W. (1972) Cytopathology of Newcastle disease and the influence of bursal and thymic lymphoid systems in the chicken. Laboratory Investigation 27: 129143Google ScholarPubMed
Chi, D.S., Palladino, M.A., Romano, T. and Thorbecke, G.J. (1982) Transfer of delayed hypersensitivity in the chicken. Developmental and Comparative Immunology 6: 541547CrossRefGoogle ScholarPubMed
Corrier, D.E. (1990) Comparison of phytohemagglutinin-induced cutaneous hypersensitivity reactions in the interdigital skin of broiler and layer chicks. Avian Diseases 34: 369373CrossRefGoogle ScholarPubMed
Corrier, D.E. and DeLoach, J.R. (1990a) Evaluation of cell-mediated, cutaneous basophil hypersensitivity in young chickens by an interdigital skin test. Poultry Science 69: 403408CrossRefGoogle ScholarPubMed
Corrier, D.E. and DeLoach, J.R. (1990b) Interdigital skin test for evaluation of delayed hypersensitivity and cutaneous basophil hypersensitivity in young chickens. American Journal of Veterinary Research 51: 950954CrossRefGoogle ScholarPubMed
Cotter, P.F. and Wing, T. (1987) Kinetics of the wattle reaction to human plasma. Avian Diseases 31: 643648CrossRefGoogle ScholarPubMed
Cotter, P.F., Taylor, R.L., Wing, T.L. and Briles, W.E. (1987) Major histocompatibility (b) complex associated differences in the delayed wattle reactions to staphylococcal antigen. Poultry Science 66: 203208CrossRefGoogle ScholarPubMed
Cotter, P.F., Wing, T. and Swanson, J. (1985) The delayed and saline wattle reactions in broilers challenged with bovine serum albumin. Poultry Science 64: 12931295CrossRefGoogle ScholarPubMed
Daimon, T. and Caxton-Martins, A. (1977) Electron microscopic and enzyme cytochemical studies on granules of mature chicken granular leucocytes. Journal of Anatomy 123: 553562Google ScholarPubMed
Davison, T.F. and Flack, I.H. (1981) Changes in the peripheral blood leucocyte populations following an injection of corticotrophin in the immature chicken. Research in Veterinary Science 30: 7982CrossRefGoogle ScholarPubMed
Davison, T.F., Rea, J. and Rowell, J.G. (1983a) Effects of dietary corticosterone on the growth and metabolism of immature Gallus domesticus. General and Comparative Endocrinology 50: 463468CrossRefGoogle ScholarPubMed
Davison, T.F., Rowell, J.G. and Rea, J. (1983b) Effects of dietary corticosterone on peripheral blood lymphocyte and granulocyte populations in immature domestic fowl. Research in Veterinary Science 34: 236239CrossRefGoogle ScholarPubMed
Dhingra, L.D., Parrish, W.P. and Venzke, W.G. (1969) Electron microscopy of granular leucocytes of chickens (Gallus domesticus). American Journal of Veterinary Research 30: 637642Google Scholar
Dhodapkar, B.S., Vegad, J.L. and Kolte, G.N. (1982) Demonstration of the phagocytic activity of chicken basophils in the reversed Arthus reaction using colloidal carbon. Research in Veterinary Science 33: 377379CrossRefGoogle ScholarPubMed
Dhodapkar, B.S., Vegad, J.L., Kolte, G.N. and Dhawedkar, R.G. (1983) Pathology of the active Arthus reaction in the chicken. Research in Veterinary Science 35: 259272CrossRefGoogle ScholarPubMed
Dhodapkar, B.S., Vegad, J.L., Dhawedkar, R.G. and Kolte, G.N. (1984) Pathology of the reversed passive Arthus reaction in the chicken. Avian Pathology 13: 93108CrossRefGoogle ScholarPubMed
Dobsinsky, O. and Dobsinska, E. (1976) Seasonal changes in the blood picture of the adult pheasants. Zentralblatt Veterinaire Medezin B 23: 609615CrossRefGoogle ScholarPubMed
Dusbabek, F., Skarkova-Spakova, V., Vitovec, J. and Sterba, J. (1988) Cutaneous and blood leucocyte responses of pigeons to larval Argas polonicus feeding. Folia Parasitologica 35: 259268Google ScholarPubMed
Dvorak, A.M. (1988) Morphologic and immunologic characterisation of human basophils, 1879 to 1985. Journal of Immunology and Immunopharmacology 8: 5083Google Scholar
Dvorak, H.F. and Dvorak, A.M. (1975) Basophilic leukocytes: structure, function and role in disease. In: Clinics in Haematology: Granulocyte and Monocyte Abnormalities, Volume 4 (Ed. Lichtman, M.A.), W.B. Saunders, London, pp. 651683Google Scholar
Dvorak, H.F., Dvorak, A.M. and Simpson, B.A. (1970) Cutaneous basophil hypersensitivity. II. A light and electron microscopic description. Journal of Experimental Medicine 132: 546557CrossRefGoogle Scholar
Edelman, A.S., Sanchez, P.L., Robinson, M.E. Huchwald, G.M. and Thorbecke, G.J. (1985) Primary and secondary wattle swelling response to phytohemagglutinin as a measure of immunocompetence in chickens. Avian Diseases 30: 105111CrossRefGoogle Scholar
El-Ackad, T.M. and Sturkie, P.D. (1972) Histamine in blood and tissues of Aves. Proceedings of the Society of Experimental Biology and Medicine 141: 448451CrossRefGoogle ScholarPubMed
Enbergs, H. (1973) Die Feinstruktur der Leukozyten der Ente (Anas platyrhynchos dom). Berlin Munchen Tierarztliche Wochenschrifte 861: 285289Google Scholar
Enbergs, H. (1975) Die Feinstruktur der Leukozyten des Hausegeflugels. Fortschrifte der Veterinarmedizin, Vol 22, Verlag Paul Parey, Berlin and HamburgGoogle Scholar
Enbergs, H. and Kriesten, K. (1968) Die weissen Blutzellen des Haushuhns in elektronmikroskopischen Bild. Deutsche Tierarztliche Wochenschrift 75: 271274Google Scholar
Fedorko, M.E. and Hirsch, J.G. (1965) Crystalloid structure in granules of guinea pig basophils and human mast cells. Journal of Cell Biology 26: 973976CrossRefGoogle ScholarPubMed
Fiedler, H., Scheu, M., Kuhlmann-Rabens, I. and Losch, U. (1981) Kinetics of delayed-type hypersensitivity (DTH) reactions and Ig levels in FCA-injected dysgammaglobulinemic B12 chickens. Immunobiology 158: 293302CrossRefGoogle Scholar
Fox, A.J. and Solomon, J.B. (1981) Chicken and non-lymphoid leukocytes. In: Avian Immunology (Eds Rose, M.E., Payne, L.N. and Freeman, B.M.), British Poultry Science Ltd, EdinburghGoogle Scholar
Fredrickson, T.N., Chute, H.L. and O'meara, D.C. (1957) Preliminary investigations on the hematology of broiler flocks. Avian Diseases 1: 6774CrossRefGoogle Scholar
Giambrone, J.J., Klesius, P.H. and Yu, M. (1983) Adoptive transfer of delayed wattle reactivity in chickens with a dialyzable leukocyte extract containing transfer factor. Poultry Science 62: 767771CrossRefGoogle ScholarPubMed
Goto, N., Kodoma, H., Okada, K. and Fujimoto, Y. (1978) Suppression of phytohemag-glutinin skin response in thymectomized chickens. Poultry Science 57: 246250CrossRefGoogle Scholar
Gray, H.G., Paradis, T.J. and Chang, P.W. (1989) Research note: physiological effects of adrenocorticotropic hormone and hydrocortisone in laying hens. Poultry Science 68: 17101713CrossRefGoogle Scholar
Gray, J.S. (1973) Studies on host resistance to secondary infections of Raillietina cesticillus (Molin) 1858 in the fowl. Parasitology 67: 375382CrossRefGoogle ScholarPubMed
Gray, J.S. (1976) The cellular response of the small intestine to primary and secondary infections of the cestode Raillietina cestillus (Molin). Parasitology 73: 189204CrossRefGoogle ScholarPubMed
Gross, W.B. (1962) Blood cultures, blood counts and temperature records in an experimentally produced ‘air sac disease’ and uncomplicated Escherichia coli infection of chickens. Poultry Science 41: 691700CrossRefGoogle Scholar
Gross, W.B. (1984) Differential and total avian blood cell counts by the haemocytometer method. Avian/Exotic Practice 1: 3136Google Scholar
Gross, W.B. and Siegel, H.S. (1983) Evaluation of the heterophil/lymphocyte ratio as a measure of stress in chickens. Avian Disease 27: 972979CrossRefGoogle ScholarPubMed
Hartman, W.J., Clark, W.G. and Cyr, S.D. (1961) Histidine decarboxylase activity of basophils from chronic myelogenous leukaemia patients. Proceedings of the Society of Experimental Biology and Medicine 107: 123130CrossRefGoogle Scholar
Hawkey, C., Hart, M.G., Knight, J.A., Samour, J.H. and Jones, D.M. (1982) Haematological findings in healthy and sick African grey parrots (Psittacus erithacus). Veterinary Record 111: 580582Google ScholarPubMed
Hawkey, C., Hart, M.G. and Samour, H.J. (1984a) Age-related haematological changes and haemopathological responses in chilean flamingos (Phoenscopterus chiliansis). Avian Pathology 13: 223229CrossRefGoogle Scholar
Hawkey, C., Hart, M.G., Samour, H.J., Knight, J.A. and Hutton, R.E. (1984b) Haematological findings in healthy and sick captive rosy flamingos (Phoenicopterus ruber ruber). Avian Pathology 13: 163172CrossRefGoogle ScholarPubMed
Hemm, R. and Carlton, W.W. (1967) Review of duck hematology. Poultry Science 46: 956962CrossRefGoogle ScholarPubMed
Hocking, P.M., Maxwell, M.H. and Mitchell, M.A. (1993) Welfare assessment of broiler breeder and layer females subjected to food restriction and limited access to water during rearing. British Poultry Science 34: 443458CrossRefGoogle Scholar
Holroyde, M.C. and Eyre, P. (1975) Immunologic release of histamine from bovine polymorphonuclear leukocytes. American Journal of Veterinary Research 36: 18011802Google ScholarPubMed
Huff, D. and Clark, D.T. (1970) Cellular aspects of the resistance of chickens to Eimeria tenella injections. Journal of Protozoology 17: 3539CrossRefGoogle Scholar
Hunt, T.E. and Hunt, E.A. (1958) The effect of 48/80 on the blood basophils of cockerels. Anatomical Record 130: 419Google Scholar
Hunt, T.E. and Hunt, E.A. (1959) Blood basophils of cockerels before and after intravenous injection of compound 48/80. Anatomical Record 133: 1933CrossRefGoogle Scholar
Jain, N.C. (1993) Essentials of Veterinary Hematology. Lea and Febiger, PhiladelphiaGoogle Scholar
Jain, N.K., Vegad, J.L. and Awadhiya, R.P. (1982) Studies on acute inflammation in the chicken using turpentine-induced pleuroperitonitis as a test system. The Veterinary Record 110: 421422CrossRefGoogle ScholarPubMed
Janes, M.E., Bower, R.K. and Anthony, N.B. (1994) The leukocyte response of Japanese quail to Rous sarcoma virus-induced tumours. Avian Diseases 38: 610615CrossRefGoogle Scholar
Jankovic, B.D., Isvaneski, M., Milosevic, D. and Popeskovic, L. (1963) Delayed-hypersensitive reactions in bursectomized chickens. Nature 198: 298299CrossRefGoogle ScholarPubMed
Jortner, B.S. and Adams, W.R. (1971) Turpentine-induced inflammation in the chicken: a light and electron-microscopy study with emphasis on the macrophage, epitheloid cell and multi-nucleated giant cell reaction. Avian Diseases 15: 533550CrossRefGoogle Scholar
Jover, F.P. (1954) The peroxidases of avian leucocytes. Xth World's Poultry Congress,Madrid, Spain, pp. 206–207Google Scholar
Kaleta, E.F. and Bernhardt, D. (1968) Beitrag zur Hamatologie der Gans. Archiv fur Geflugelkunde 32: 8490Google Scholar
Katiyar, A.K., Vegad, J.L. and Awadhiya, R.P. (1992) Increased vascular permeability and leucocyte emigration in Escherichia coli endotoxin injury in the chicken skin. Research in Veterinary Science 52: 154161CrossRefGoogle ScholarPubMed
Klesius, P., Johnson, W. and Kramer, T. (1977) Delayed wattle reaction as a measure of cell-mediated immunity in the chicken. Poultry Science 56: 249256CrossRefGoogle ScholarPubMed
Kriesten, K. and Enbergs, H. (1970) Elektronenmikroskopische Untersuchungen zur Fein-struktur der basophilen Granulozyten des Haushuhns. Blut 20: 282287CrossRefGoogle Scholar
Levi, A., Perelman, B., Waner, T., Van Grevenbroek, M., Van Creveld, C. and Yagil, R. (1989) Haematological parameters of the ostrich (Struthio camelus). Avian Pathology 18: 321327CrossRefGoogle Scholar
Lewis, J.H., Hasiba, U. and Spero, J.A. (1979) Comparative hematology: studies on class Aves, domestic turkey (Meleagris gallopavo). Comparative Biochemistry and Physiology 62A: 735745CrossRefGoogle Scholar
Lucas, A.M. and Jamroz, C. (1961) Atlas of Avian Hematology. Agriculture Monograph 25, United States Department of Agriculture, WashingtonGoogle Scholar
Makinodan, T., Wolfe, H.R., Goodman, M. and Ruth, R. (1952) Precipitin production in chickens VIII. The relation between circulating antibody and anaphylactic shock. Journal of Immunology 68: 219226CrossRefGoogle Scholar
Maxwell, M.H. (1973) Comparison of heterophil and basophil ultrastructure in six species of domestic birds. Journal of Anatomy 115: 187202Google ScholarPubMed
Maxwell, M.H. (1981) Leucocyte diurnal rhythms in normal and pinealectomized juvenile female fowls. Research in Veterinary Science 31: 113115CrossRefGoogle Scholar
Maxwell, M.H. (1987) The avian eosinophil – a review. World's Poultry Science Journal 43: 190207CrossRefGoogle Scholar
Maxwell, M.H. (1993) Avian blood leucocyte responses to stress. World's Poultry Science Journal 49: 3443CrossRefGoogle Scholar
Maxwell, M.H. and Burns, R.B. (1985) Blood eosinophilia in adult bantams naturally infected with Trichostrongylus tenuis. Research in Veterinary Science 39: 122123CrossRefGoogle ScholarPubMed
Maxwell, M.H. and Trejo, F. (1970) The ultrastructure of white blood cells and thrombocytes of the domestic fowl. British Veterinary journal 126: 583592CrossRefGoogle ScholarPubMed
Maxwell, M.H., Hocking, P.M. and Robertson, G.W. (1992a) Differential leucocyte responses to various degrees of food restriction in broilers, turkeys and ducks. British Poultry Science 33: 177187CrossRefGoogle ScholarPubMed
Maxwell, M.H., Robertson, G.W., Mitchell, M.A. and Carlisle, A.J. (1992b) The fine structure of broiler chicken blood cells, with particular reference to basophils, after severe heat stress. Comparative Haematology International 2: 190200CrossRefGoogle Scholar
Maxwell, M.H., Robertson, G.W., Spence, S. and McCorquodale, C.C. (1990) Comparison of haematological values in restricted- and ad libitum-fed domestic fowls: white blood cells and thrombocytes. British Poultry Science 31: 399405CrossRefGoogle Scholar
McCorkle, F.J., Olah, I. and Glick, B. (1980) The morphology of the phytohemagglutin-induced cell response in the chicken's wattle. Poultry Science 59: 616623CrossRefGoogle Scholar
Michels, N.A. (1965) The mast cells. Reprinted from Downey's Handbook of Haematology. Annals of New York Academy of Science (Appendix) 103: 491CrossRefGoogle Scholar
Mills, J.N. and Wilcox, G.E. (1993) Separation of phagocytic leukocytes from the peripheral blood of chickens. Avian Pathology 22: 343352CrossRefGoogle ScholarPubMed
Mitchell, M.A., Kettlewell, P.J. and Maxwell, M.H. (1992) Indicators of physiological stress in broiler chickens during road transportation. Animal Welfare 1: 91103CrossRefGoogle Scholar
Mitchell, M.A., Maxwell, M.H. and Carlisle, A.J. (1996) Relative basophilia: an index of severe thermal stress in the domestic fowl. Comparative Haematology International (in preparation)Google Scholar
Montali, R.J. (1988) Comparative pathology of inflammation in the higher vertebrates (reptiles, birds and mammals). Journal of Comparative Pathology 99: 126CrossRefGoogle Scholar
Moscovici, M.G., Siegel, M.L. and Moscovici, C. (1989) Avian erythroblastosis virus transforms a novel mast cell-basophil precursor target in the Japanese quail. Journal of Virology 63: 23352339CrossRefGoogle ScholarPubMed
Murray, D.L., Brake, J. and Thaxton, J.P. (1987a) Effect of adrenocorticotropin and dietary ascorbic acid on cutaneous basophil hypersensitivity to phytohemagglutinin in chickens. Poultry Science 66: 18461852CrossRefGoogle ScholarPubMed
Murray, D.L., Brake, J., Thaxton, J.P. and Gildersleeve, R.P. (1987b) Effects of adrenocorticotropin and dietary ascorbic acid on delayed type hypersensitivity to human gamma globulin in chickens. Poultry Science 66: 18591869CrossRefGoogle ScholarPubMed
Nair, K.V. and Nadakal, A.M. (1981) Haematological changes in domestic fowl experimentally infected with the cestode Raillietina tetragona (Molin, 1858). Veterinary Parasitology 8: 4958CrossRefGoogle Scholar
Nair, M.K. (1973) The early inflammatory reaction in the fowl – a light microscopical ultrastructural and autoradiographic study. Acta Veterinaria Scandinavica (Supplement) 42: 1103Google Scholar
Natt, M.P. (1959) The effect of cecal coccidiosis on the blood cells of the domestic fowl. 3. The changes in the leukocyte picture during the course of the infection. Experimental Parasitology 8: 182187CrossRefGoogle ScholarPubMed
Nirmalan, G.P. and Robinson, G.A. (1971) Haematology of the Japanese quail (Coturnix coturnix japonica). British Poultry Science 12: 475481CrossRefGoogle ScholarPubMed
Nirmalan, G.P. and Robinson, G.A. (1972) Haematology of Japanese quail treated with exogenous stilbestrol dipropionate and testosterone propionate. Poultry Science 51: 920925CrossRefGoogle ScholarPubMed
Nirmalan, G.P., Atwal, O.S. and Carlson, H.C. (1972) Ultrastructural studies on the leucocytes and thrombocytes in the circulating blood of Japanese quail. Poultry Science 51: 20502055CrossRefGoogle ScholarPubMed
Nordio, C. and Rosi, F. (1978) Possible significance of the increase of basophils in blood differential count of farm animals. Atti Societa Italiana Scienze Veterinaria 32: 254Google Scholar
Olson, C. (1937) Variations in the cells and hemoglobin content in the blood of the normal domestic chicken. Cornell Veterinarian 27: 235263Google Scholar
Olson, C. Jr. (1962) Avian hematology. In: Diseases of Poultry, 4th edn (Eds Biester, H.E. and Schwarte, L.H.), Iowa State College Press, Iowa, pp. 5369Google Scholar
Opengart, K., Eyre, P. and Domermuth, C.H. (1992) Increased numbers of duodenal mucosal mast cells in turkeys inoculated with hemorrhagic enteritis virus. American Journal of Veterinary Research 53: 814819CrossRefGoogle ScholarPubMed
Palladino, M.A., Grebenau, M.D. and Thorbecke, G.J. (1978) Requirements for induction of delayed hypersensitivity in the chicken. Developmental and Comparative Immunology 2: 121132CrossRefGoogle ScholarPubMed
Pierard, G.E., Pierard-Franchimont, C., Lorand, T. and Lapiere, C.M. (1982) A comparative study between intradermal tests with phytohemagglutin and delayed hyper-sensitivity reactions elicited by tuberculin. Archives of Dermatological Research 274: 313320CrossRefGoogle Scholar
Pillai, A.G.R., Awadhiya, R.P. and Vegad, J.L. (1987) A topographical study of increased vascular permeability in passive cutaneous anaphylaxis in the chicken. Veterinary Research Communications 11: 221226CrossRefGoogle ScholarPubMed
Pillai, A.G.R., Awadhiya, R.P. and Vegad, J.L. (1988a) Pathology of passive mesenteric anaphylaxis in the chicken. Avian Pathology 17: 465476CrossRefGoogle ScholarPubMed
Pillai, A.G.R., Awadhiya, R.P. and Vegad, J.L. (1988b) Quantitative estimation of increased vascular permeability in acute inflammatory reaction in the chicken skin. Veterinary Research Communications 12: 155159CrossRefGoogle ScholarPubMed
Pillai, A.G.R., Awadhiya, R.P. and Vegad, J.L. (1988c) Suppression by mepyramine maleate of the increased vascular permeability in passive cutaneous anaphylaxis in the chicken. Veterinary Research Communications 12: 161163CrossRefGoogle ScholarPubMed
Pillai, A.G.R., Awadhiya, R.P. and Vegad, J.L. (1988d) A microscopic study of increased vascular permeability and leucocyte emigration in passive cutaneous anaphylaxis in the chicken. Veterinary Research Communications 12: 497501CrossRefGoogle ScholarPubMed
Richerson, H.B., Dvorak, H. and Leskowitz, S. (1969) Cutaneous basophilic hypersensitivity: a new interpretation of the Jones–Mote reaction. Journal of Immunology 103: 14311434CrossRefGoogle ScholarPubMed
Richerson, H.B., Dvorak, H.F. and Leskowitz, S. (1970) Cutaneous basophil hypersensitivity. I. A new look at the Jones–Mote reaction, general characteristics. Journal of Experimental Medicine 132: 881886Google Scholar
Robertson, G.W. and Maxwell, M.H. (1990) Modified staining techniques for avian blood cells. British Poultry Science 31: 881886CrossRefGoogle ScholarPubMed
Robertson, G.W. and Maxwell, M.H. (1993) Importance of optimal mixtures of EDTA anticoagulant:blood for the preparation of well-stained avian blood smears. British Poultry Science 34: 615617CrossRefGoogle ScholarPubMed
Rose, M.E. and Bradley, J.W.A. (1977) Delayed hypersensitivity in the fowl, turkey and quail. Avian Pathology 6: 313326CrossRefGoogle ScholarPubMed
Rose, M.E., Hesketh, P. and Ogilvie, B.M. (1979) Peripheral blood leucocyte response to coccidial infections: a comparison of the response to rats and chickens and its correlation with resistance to reinfection. Immunology 36: 7179Google ScholarPubMed
Rosi, F. and Nordio, C. (1979) Observations on the increase of basophils in leucocyte differential count of farm animals. La Clinicia Veterinaria 102: 353371Google Scholar
Rosskopf, W.J., Worepel, R.W., Rosskopf, G. and Van De Water, D. (1982) Normal hematologic and blood chemistry values for pet avian species. Proceedings 31st Western Poultry Disease Conference and 16th Poultry Health Symposia Davis,University of California, pp. 143–145Google Scholar
Ryan, G.B. and Magno, G. (1977) Acute inflammation. American Journal of Pathology 86: 185276Google ScholarPubMed
Savory, C.J., Hocking, P.M., Mann, J.S. and Maxwell, M.H. (1996) Is broiler welfare improved by using qualitative rather than quantitative food restriction to limit growth rate? Animal Welfare (in press)CrossRefGoogle Scholar
Savory, C.J., Carlisle, A., Maxwell, M.H., Mitchell, M.A. and Robertson, G.W. (1993) Stress, arousal and opioid peptide-like immunoreactivity in restricted- and ad lib-fed broiler breeder fowls. Comparative Biochemistry and Physiology 106A: 587594CrossRefGoogle Scholar
Schermer, S. (1958) Morphology of the Blood of Laboratory Animals, 2nd edn, Johann Ambrosius Barth, LeipzigGoogle Scholar
Scott, R.P. and Siopes, T.D. (1994) Evaluation of cell-mediated immunocompetence in mature turkey breeder hens using a dewlap skin test. Avian Diseases 38: 161164CrossRefGoogle ScholarPubMed
Siegel, H.S. (1968) Blood cells and chemistry of young chickens during ACTH and cortisol administration. Poultry Science 47: 18111817CrossRefGoogle ScholarPubMed
Sinha, B.K., Vegad, J.L. and Awadhiya, R.P. (1987a) Pathology of concanavilin A-induced cutaneous reaction in the chicken. Research in Veterinary Science 42: 365372CrossRefGoogle Scholar
Sinha, B.K., Vegad, J.L. and Awadhiya, R.P. (1987b) Estimation of increased vascular permeability in avian inflammation. Indian Veterinary Journal 64: 269273Google Scholar
Sinha, B.K., Vegad, J.L. and Awadhiya, R.P. (1988) Pathology of phytohaemagglutinin-induced cutaneous reaction in the chicken. Indian Journal of Animal Sciences 58: 2835Google Scholar
Sircar, M. and Sinha, D.P. (1974) Haematological investigations on pigeons and Clarias batrachus carrying cestode infections. The Annals of Zoology 10: 111Google Scholar
Smith, J.L., Blythe, M.J. and Patterson, L.T. (1975) The avian inflammatory response: adaptation and utilization of skin windows. Poultry Science 54: 183190CrossRefGoogle ScholarPubMed
Soliman, M.K., Ahmed, A.A.S., El Amrousi, S. and Moustafa, I.H. (1966) Cytological and biochemical studies on the blood constituents of normal and spirochete-infected chickens. Avian Diseases 10: 394400CrossRefGoogle ScholarPubMed
Spector, W.G. and Silloughby, D.A. (1963) The inflammatory response. Bacteriological Reviews 27: 117154CrossRefGoogle ScholarPubMed
Spinu, M. and Degen, A.A. (1993) Effect of cold stress on performance and immune responses of Bedouin and White Leghorn hens. British Poultry Science 34: 177185CrossRefGoogle ScholarPubMed
Sreeraman, P.K., Ahmad, M.N., Rao, P.R. and Sastry, G.A. (1979) Haematology of ducks. Indian Veterinary Journal 56: 100104Google Scholar
Stadecker, M.J., Lukic, M., Dvorak, A. and Leskowitz, S. (1977) The cutaneous basophil response to phytohemagglutinin in chickens. Journal of Immunology 118: 15641568CrossRefGoogle ScholarPubMed
Surendranathan, K.P., Nair, S.G. and Simon, K.J. (1968) Haematological constituents of duck. Indian Veterinary Journal 45: 311318Google ScholarPubMed
Tung, H.T., Cook, F.W., Wyatt, R.D. and Hamilton, P.B. (1975) The anaemia caused by aflatoxin. Poultry Science 54: 19621969CrossRefGoogle ScholarPubMed
Venkataratnan, A. and Clarkson, M.J. (1962) The blood cells of the turkey. Research in Veterinary Science 3: 455459CrossRefGoogle Scholar
Warner, N.L., Ovary, Z. and Kantor, F.S. (1971) Delayed hypersensitivity reactions in normal and bursectomized chickens. International Archives of Allergy 40: 719728CrossRefGoogle ScholarPubMed
Watabe, M. and Glick, B. (1983) The influence of age on the induction of delayed hypersensitivity to human gamma globulin (fowl). Poultry Science 62: 563564CrossRefGoogle Scholar
Watanabe, I., Donahue, S. and Hoggatt, N. (1967) Method for electron microscopic studies of circulating human leukocytes and observations on their fine structure. Journal of Ultrastructural Research 20: 366382CrossRefGoogle ScholarPubMed
Wight, P.A.L. (1970) The mast cells of Gallus domesticus I. Distribution and ultrastructure. Acta Anatomica 75: 100113CrossRefGoogle ScholarPubMed
Wight, P.A.L. and MacKenzie, G.M. (1970) The mast cells of Gallus domesticus II. Histochemistry. Acta Anatomica 75: 263275CrossRefGoogle ScholarPubMed
Yamada, J., Yamashita, T. and Misu, M. (1973) Fine structures in the blood cells of Japanese quails. Research Bulletin of the Obihiro University 8: 119Google Scholar
Zinkl, J.G. (1986) Avian hematology. In: Schalm's Veterinary Hematology, 4th edn (Ed. Jain, N.C.), Lea & Febiger, Philadelphia, pp. 256273Google Scholar