Infectious and non-infectious factors associated with leg disorders in poultry – a review

Abdelqader A., Al - Fataftah A.-R., Daş G. (2013). Effects of dietary Bacillus subtilis and inulin supplementation on performance, eggshell quality, intestinal morphology and microflora composition of laying hens in the late phase of production. Anim. Feed Sci. Tech., 179: 103-111.Search in Google Scholar

Abrahamsson P., Tauson R., Appleby M. (1996). Behaviour, health and integument of four hybrids of laying hens in modified and conventional cages. Brit. Poultry Sci., 37: 521-540.Search in Google Scholar

Ajakaiye A., Atteh J., Leeson S. (2003). Biological availability of calcium in broiler chicks from different calcium sources found in Nigeria. Anim. Feed Sci. Tech., 104: 209-214.Search in Google Scholar

Almeida Paz I., Garcia R., Bernardi R., Nääs I., Caldara F.R., Freitas L., Seno L., Ferreira V., Pereira D., Cavichiolo F. (2010). Selecting appropriate bedding to reduce locomotion problems in broilers. Revista Brasileira de Ciência Avícola, 12: 189-195.Search in Google Scholar

Andrews P.A. (1989). Disulfiram and histidine induce tibial dyschondroplasia in broiler chickens. Master's thesis, University of Wisconsin, Madison, WI.Search in Google Scholar

Angel R. (2007). Metabolic disorders: limitations to growth of and mineral deposition into the broiler skeleton after hatch and potential implications for leg problems. J. App. Poultry Res., 16: 138-149.Search in Google Scholar

Applegate T., Lilburn M. (2002). Growth of the femur and tibia ofacommercial broiler line. Poultry Sci., 81: 1289-1294.Search in Google Scholar

Belay T., Wiernusz C., Teeter R. (1992). Mineral balance and urinary and fecal mineral excretion profile of broilers housed in thermoneutral and heat-distressed environments. Poultry Sci., 71: 1043-1047.Search in Google Scholar

Bizeray D., Estevez I., Leterrier C., Faure J. (2002). Influence of increased environmental complexity on leg condition, performance, and level of fearfulness in broilers. Poultry Sci., 81: 767-773.Search in Google Scholar

Boling S.D., Webel D.M., Mavromichalis I., Parsons C.M., Baker D.H. (2000). The effects of citric acid on phytate-phosphorus utilization in young chicks and pigs. J. Anim. Sci., 78: 682-689.Search in Google Scholar

Bolton W., Dewar W. (1965). The digestibility of acetic, propionic and butyric acids by the fowl. Brit. Poultry Sci., 6: 103-105.Search in Google Scholar

Boskey A., Wright T., Blank R. (1999). Collagen and bone strength. J. Bone Miner. Res., 14: 330-335.Search in Google Scholar

Brickett K., Dahiya J., Classen H., Gomis S. (2007). Influence of dietary nutrient density, feed form, and lighting on growth and meat yield of broiler chickens. Poultry Sci., 86: 2172-2181.Search in Google Scholar

Bruno L., Furlan R., Malheiros E., Macari M. (2000). Influence of early quantitative food restriction on long bone growth at different environmental temperatures in broiler chickens. Brit. Poultry Sci., 41: 389-394.Search in Google Scholar

Bryła M., Waśkiewicz A., Podolska G., Szymczyk K., J ędrzejczak R., Damaziak K., Sułek A. (2016). Occurrence of 26 mycotoxins in the grain of cereals cultivated in Poland. Toxins, 8, p. 160.10.3390/toxins8060160492612727231939Search in Google Scholar

Butterworth A. (1999). Infectious components of broiler lameness:areview. World Poultry Sci. J., 55: 327-352.Search in Google Scholar

Butterworth A., Haslam S.M. (2009). Alameness control strategy for broiler fowl. Welfare Quality reports No. 13. Available: http://www.welfarequality.net/everyone/44892/7/0/22Search in Google Scholar

Charles D., Groom C., Bray T. (1981). The effects of temperature on broilers: interactions between temperature and feeding regime. Brit. Poultry Sci., 22: 475-481.Search in Google Scholar

Charuta A., Cooper R.G. (2012). Computed tomographic and densitometric analysis of tibiotarsal bone mineral density and content in postnatal Peking ducks (Anas platyrhynchos var. domestica) as influenced by age and sex. Pol. J. Vet. Sci., 15: 537-545.Search in Google Scholar

Charuta A., Cooper R.G., Pierzchała M., Horbańczuk J.O. (2012 a). Computed tomographic analysis of tibiotarsal bone mineral density and content in turkeys as influenced by age and sex. Czech J. Anim. Sci., 57: 573-80.10.17221/6415-CJASSearch in Google Scholar

Charuta A., Dzierzęcka M., Czerwiński E., Cooper R.G., Horbańczuk J.O. (2012 b). Sex- and age-related changes of trabecular bone of tibia in growing domestic geese (Anser domesticus). Folia Biol., 60: 205-212.10.3409/fb60_3-4.205-21223342918Search in Google Scholar

Charuta A., Dzierzęcka M., Komosa M., Biesiada - Drzazga B., Działa-Szczepańczyk E., Cooper R.G. (2013 a). Age- and sex-related changes in mineral density and mineral content of the tibiotarsal bone in quails during post-hatching development. Kafkas Univ. Vet. Fak. Derg., 19: 31-36.10.9775/kvfd.2012.7055Search in Google Scholar

Charuta A., Dzierzęcka M., Komosa M., Kalinowski Ł., Pierzchała M. (2013 b). Age- and sex-related differences of morphometric, densitometric and geometric parameters of tibiotarsal bone in Ross broiler chickens. Folia Biol., 61: 211-220.10.3409/fb61_3-4.21124279171Search in Google Scholar

Chowdhury R., Islam K., Khan M., Karim M., Haque M., Khatun M., Pesti G. (2009). Effect of citric acid, avilamycin, and their combination on the performance, tibia ash, and immune status of broilers. Poultry Sci., 88: 1616-1622.Search in Google Scholar

Christensen V.L., Donalson W.E., Nestor K.E. (1994). Incubation temperature effects on metabolism and survival of turkey embryos. In: Proc. 9th European Poultry Conference. Vol. II. World’s Poultry Science Association, Glasgow, UK, pp. 399-402Search in Google Scholar

Church L.E., Johnson L.C. (1964). Growth of long bones in the chicken. Rates of growth in length and diameter of the humerus, tibia, and metatarsus. Am. J. Anat., 114: 521-538.Search in Google Scholar

Classen H., Riddell C. (1989). Photoperiodic effects on performance and leg abnormalities in broiler chickens. Poultry Sci., 68: 873-879.Search in Google Scholar

Classen H., Riddell C., Robinson F. (1991). Effects of increasing photoperiod length on performance and health of broiler chickens. Brit. Poultry Sci., 32: 21-29.Search in Google Scholar

Cook M. (2000). Skeletal deformities and their causes: introduction. Poultry Sci., 79: 982-984.Search in Google Scholar

Crespo R., Shivaprasad H.L. (2011). Developmental, metabolic and other noninfectious disorders. In: Diseases of Poultry, 12th edition, Saif Y.M., Fadly A.M., Glisson J.R., Mc Dougald L.R., Nolan L.K., Swayne D.E. (eds), Blackwell Publishing, Oxford, UK, pp. 1154-1156.Search in Google Scholar

Dawkins M.S., Donnelly C.A., Jones T.A. (2004). Chicken welfare is influenced more by housing conditions than by stocking density. Nature, 427: 342-344.Search in Google Scholar

Deaton J., Reece F., Lott B. (1984). Effect of differing temperature cycles on broiler performance. Poultry Sci., 63: 612-615.Search in Google Scholar

Deaton J., Reece F., Mc Naughton J. (1978). The effect of temperature during the growing period on broiler performance. Poultry Sci., 57: 1070-1074.Search in Google Scholar

Decuypere E., Michels H. (1992). Incubation temperature asamanagement tool: Areview. World’s Poultry Sci. J., 48: 28-38.Search in Google Scholar

Deng Y.F., Hou J.F. (2003). Effect of Gushukang on laying percentage and bone mineral content of cage layer. Anim. Husbandry Vet. Med., 35: 14-16.Search in Google Scholar

Derache C., Labas V., Aucagne V., Meudal H., Landon C., Delmas A.F., Magallon T., Lalmanach A.-C. (2009). Primary structure and antibacterial activity of chicken bone marrow-derived β-defensins. Antimicrob. Agents Ch., 53: 4647-4655.Search in Google Scholar

Derakhshanfar A., Kheirandish R., Alidadi S., Bidadkosh A. (2013). Study of long effects of administration of aspirin (acetylsalicylic acid) on bone in broiler chickens. Comparat. Clin. Pathol., 22: 1201-1204.Search in Google Scholar

Dinev I. (2009). Clinical and morphological investigations on the prevalence of lameness associated with femoral head necrosis in broilers. Brit. Poultry Sci., 50: 284-290.Search in Google Scholar

El Hussieny O., Creger C. (1981). Effect of ambient-temperature on minerals retention and balance of the broiler chicks. Poultry Sci., 60 (Suppl. 1): 1651-1651.Search in Google Scholar

Englmaierova M., Skrivanova V., Skrivan M. (2014). The effect of non-phytate phosphorus and phytase levels on performance, egg and tibia quality, and p Hof the digestive tract in hens fed higher-calcium-content diets. Czech J. Anim Sci., 59: 107-115.Search in Google Scholar

Etches R.J. (1987). Calcium logistics in the laying hen. J. Nutr., 117: 619-628.Search in Google Scholar

FAO (2010). Poultry welfare in developing countries - Welfare issues in commercial broiler production. pp. 117-118. Available: http://www.fao.org/3/a-al723e.pdfSearch in Google Scholar

Falcone C., Mench J.A., Wakenell P. (2004). Can perches and platforms act the incidence of gait abnormalities in broiler chickens? J. Anim. Sci., 82 (Suppl. 1), p. 362.Search in Google Scholar

Fleming R., Mc Cormack H., Whitehead C. (1998). Bone structure and strength at different ages in laying hens and effects of dietary particulate limestone, vitamin Kand ascorbic acid. Brit. Poultry Sci., 39: 434-440.Search in Google Scholar

Fleming R., Mc Cormack H., Mc Teir L., Whitehead C. (2004). Incidence, pathology and prevention of keel bone deformities in the laying hen. Brit. Poultry Sci., 45: 320-330.Search in Google Scholar

Fleming R., Mc Cormack H., Mc Teir L., Whitehead C. (2006). Relationships between genetic, environmental and nutritional factors influencing osteoporosis in laying hens. Brit. Poultry Sci., 47: 742-755.Search in Google Scholar

Fleming R.H. (2008). Nutritional factors affecting poultry bone health. P. Nutr. Soc., 67: 177-183.Search in Google Scholar

French N.A. (1994). Do incubation temperature requirements vary between eggs? In: Proc. 9th European Poultry Conference. Vol II. World’s Poultry Science Association, Glasgow, UK, pp. 395-398.Search in Google Scholar

Garcia V., Catala - Gregori P., Hernandez F., Megias M.D., Madrid J. (2007). Effect of formic acid and plant extracts on growth, nutrient digestibility, intestine mucosa morphology, and meat yield of broilers. J. App. Poultry Res., 16: 555-562.Search in Google Scholar

Genin O., Hasdai A., Shinder D., Pines M. (2012). The effect of inhibition of heatshock proteins on thiram-induced tibial dyschondroplasia. Poultry Sci., 91: 1619-1626.Search in Google Scholar

Gorski J.P. (1998). Is all bone the same? Distinctive distributions and properties of non-collagenous matrix proteins in lamellar vs. woven bone imply the existence of different underlying osteogenic mechanisms. Crit. Rev. Oral Biol. M., 9: 201-223.Search in Google Scholar

Groves P.J., Muir W.I. (2016). Earlier hatching time predisposes Cobb broiler chickens to tibial dyschondroplasia. Animal, 11: 112-120.Search in Google Scholar

Guinotte F., Nys Y. (1991). Effects of particle size and origin of calcium sources on eggshell quality and bone mineralization in egg laying hens. Poultry Sci., 70: 583-592.Search in Google Scholar

Hamilton P.B., Tung H.T., Wyatt R.D., Donaldson W.E. (1974). Interaction of dietary aflatoxin with some vitamin deficiencies. Poultry Sci., 53: 871-877.Search in Google Scholar

Hammond C.L., Simbi B.H., Stickland N.C. (2007). In ovo temperature manipulation influences embryonic motility and growth of limb tissues in the chick (Gallus gallus). J. Exp. Biol., 210: 2667-2675.Search in Google Scholar

Henry P., Ammerman C., Campbell D., Miles R. (1987). Effect of antibiotics on tissue trace mineral concentration and intestinal tract weight of broiler chicks. Poultry Sci., 66: 1014-1018.Search in Google Scholar

Hocking P. (1993). Welfare of broiler breeder and layer females subjected to food and water control during rearing: Quantifying the degree of restriction. Brit. Poultry Sci., 34: 53-64.Search in Google Scholar

Horvath- Papp I. (2008). Practical guide to broiler health management. BetüVet Limited, pp. 375-381.Search in Google Scholar

Houshmand M., Azhar K., Zulkifli I., Bejo M.H., Meimandipour A., Kamyab A. (2011). Effects of non-antibiotic feed additives on performance, tibial dyschondroplasia incidence and tibia characteristics of broilers fed low-calcium diets. J. Anim. Physiol. Anim. Nutr., 95: 351-358.Search in Google Scholar

Huff W., Moore P., Balog J., Bayyari G., Rath N. (1996). Evaluation of the toxicity of alum (aluminum sulfate) in young broiler chickens. Poultry Sci., 75: 1359-1364.Search in Google Scholar

Huff W.E., Doerr J.A., Hamilton P.B., Hamann D.D., Peterson R.E., Ciegler A. (1980). Evaluation of bone strength during aflatoxicosis and ochratoxicosis. Appl. Environ. Microb., 40: 102-107.Search in Google Scholar

Hulan H., Proudfoot F. (1987). Effects of light source, ambient temperature, and dietary energy source on the general performance and incidence of leg abnormalities of roaster chickens. Poultry Sci., 66: 645-651.Search in Google Scholar

Hulet R. (2006). Managing incubation: Where are we and why? Poultry Sci., 80: 140-140.Search in Google Scholar

Ingram D., Hattens L., Mc Pherson B. (2000). Effects of light restriction on broiler performance and specific body structure measurements. J. Appl. Poultry Res., 9: 501-504.Search in Google Scholar

Iqbal T., Lewis K., Cooper B. (1994). Phytase activity in the human and rat small intestine. Gut, 35: 1233-1236.Search in Google Scholar

Irani M., Gharahveysi S., Zamani M., Rahmatian R. (2011). The effect of butyric acid glycerides on performance and some bone parameters of broiler chickens. Afr. J. Biotechnol., 10: 12812-12818.Search in Google Scholar

Jamroz D., Wertelecki T., Żyłka R. (2007). The retention of mineral substances, quality and chemical composition of bones of chickens fed diets containing different calcium and phosphorus levels. Electr. J. Polish Agricult. Univ., 10, p. 04Search in Google Scholar

Johnson N., Harland B., Ross E., Gautz L., Dunn M. (1992). Effects of dietary aluminum and niacin on chick tibiae. Poultry Sci., 71: 1188-1195.Search in Google Scholar

Joseph N., Moran E. (2005). Effect of flock age and postemergent holding in the hatcher on broiler live performance and further-processing yield. J. Appl. Poultry Res., 14: 512-520.Search in Google Scholar

Käppeli S., Gebhardt - Henrich S., Fröhlich E., Pfulg A., Schäublin H., Stoffel M. (2011). Effects of housing, perches, genetics, and 25-hydroxycholecalciferol on keel bone deformities in laying hens. Poultry Sci., 90: 1637-1644.Search in Google Scholar

Katono T., Kawato T., Tanabe N., Suzuki N., Iida T., Morozumi A., Ochiai K., Maeno M. (2008). Sodium butyrate stimulates mineralized nodule formation and osteoprotegerin expression by human osteoblasts. Arch. Oral Biol., 53: 903-909.Search in Google Scholar

Kaukonen E., Norring M., Valros A. (2016). Perches and elevated platforms in commercial broiler farms: use and effect on walking ability, incidence of tibial dyschondroplasia and bone mineral content. Animal, pp. 1-8.Search in Google Scholar

Kense M., Landman W.J. (2011). Enterococcus cecorum infections in broiler breeders and their offspring: molecular epidemiology. Avian Pathol., 40: 603-612.Search in Google Scholar

Kierończyk B., Rawski M., Długosz J., Świątkiewicz S., Józefiak D. (2016). Avian crop function -areview. Ann. Anim. Sci., 16: 653-678.Search in Google Scholar

Kirn B., Firman J. (1993). Leg strength and performance of large white tom turkeys fed various protein and energy levels. Avian Dis., 37: 37-46.Search in Google Scholar

Klasing K. (1998). Nutritional modulation of resistance to infectious diseases. Poultry Sci., 77: 1119-1125.Search in Google Scholar

Knott L., Bailey A. (1998). Collagen cross-links in mineralizing tissues:areview of their chemistry, function, and clinical relevance. Bone, 22: 181-187.Search in Google Scholar

Knott L., Whitehead C.C., Fleming R., Bailey A. (1995). Biochemical changes in the collagenous matrix of osteoporotic avian bone. Biochem. J., 310: 1045-1051.Search in Google Scholar

Knowles T.G., Kestin S.C., Haslam S.M., Brown S.N., Green L.E., Butterworth A., Pope S.J., Pfeiffer D., Nicol C.J. (2008). Leg disorders in broiler chickens: prevalence, risk factors and prevention. PLo S One, 3: e1545.Search in Google Scholar

Koreleski J., Świątkiewicz S. (2005). Efficacy of different levels ofacholecalciferol 25-OHderivative in diets with two limestone forms in laying hen nutrition. J. Anim. Feed Sci., 14: 305-315.Search in Google Scholar

Laing P. (1976). Lameness and leg weakness in rapidly growing turkeys associated with hip lesions. Vet. Rec., 99: 391-392.Search in Google Scholar

Langenfeld M.S. (1992). Anatomy of the Hen. Wydawnictwo Naukowe PWN (in Polish).Search in Google Scholar

Lee Y.W., Mirocha C.J., Shroeder D.J., Walser M.M. (1985). TDP-1,atoxic component causing tibial dyschondroplasia in broiler chickens, and trichothecenes from Fusarium roseum 'Graminearum'. Appl. Environ. Microb., 50: 102-107.Search in Google Scholar

Lemus J., Blanco G., Arroyo B., Martinez F., Grande J. (2009). Fatal embryo chondral damage associated with fluoroquinolones in eggs of threatened avian scavengers. Environ. Pollut., 157: 2421-2427.Search in Google Scholar

Levenick C., Leighton A. (1988). Effects of photoperiod and filtered light on growth, reproduction, and mating behavior of turkeys. 1. Growth performance of two lines of males and females. Poultry Sci., 67: 1505-1513.Search in Google Scholar

Lewis N., Hurnik J. (1990). Locomotion of broiler chickens in floor pens. Poultry Sci., 69: 1087-1093.Search in Google Scholar

Lilburn M.S. (1994). Skeletal growth of commercial poultry species. Poultry Sci., 73: 897-903.Search in Google Scholar

Lundy M.W., Russell J.E., Avery J., Wergedal J.E., Baylink D.J. (1992). Effect of sodium fluoride on bone density in chickens. Calcified Tissue Int., 50: 420-426.Search in Google Scholar

Lynn D.J., Higgs R., Gaines S., Tierney J., James T., Lloyd A.T., Fares M.A., Mulcahy G., O ’ Farrelly C. (2004). Bioinformatic discovery and initial characterisation of nine novel antimicrobial peptide genes in the chicken. Immunogenetics, 56: 170-177.Search in Google Scholar

Martland M. (1984). Wet litter asacause of plantar pododermatitis, leading to foot ulceration and lameness in fattening turkeys. Avian Pathol., 13: 241-252.Search in Google Scholar

Mc Lean K.A., Baxter M.R., Michie W. (1986). Comparison of the welfare of laying hens in battery cages and inaperchery. Res. Dev. Agric. 3: 93-98.Search in Google Scholar

Mc Namee P., Mc Cullagh J., Thorp B., Ball H., Graham D., Mc Cullough S., Mc Conaghy D., Smyth J. (1998). Study of leg weakness in two commercial broiler flocks. Vet. Rec., 143, p. 131.Search in Google Scholar

Mc Namee P.T. (1998). Investigation of bacterial chondronecrosis with osteomyelitis in broiler chickens. Doctor of Philosophy thesis. The Queen's University of Belfast, Northern Ireland, UK.Search in Google Scholar

Mc Namee P.T., Smyth J.A. (2000). Bacterial chondronecrosis with osteomyelitis (‘femoral head necrosis’) of broiler chickens:areview. Avian Pathol., 29: 477-495.Search in Google Scholar

Mc Namee P.T., Mc Cullagh J., Rodgers J., Thorp B., Ball H., Connor T., Mc Conaghy D., Smyth J.A. (1999). Development of an experimental model of bacterial chondronecrosis with osteomyelitis in broilers following exposure to Staphylococcus aureus by aerosol, and inoculation with chicken anaemia and infectious bursal disease viruses. Avian Pathol., 28: 26-35.Search in Google Scholar

Meijerhof R. (2002). Design and operation of commercial incubators. In: Practical Aspects of Commercial Incubation. Deeming D.C. (eds). Ratite Conference Books, Lincolnshire, UK, pp. 41-46.Search in Google Scholar

Mench J. (2002). Broiler breeders: feed restriction and welfare. World Poultry Sci. J., 58: 23-29.Search in Google Scholar

Mituniewicz T. (2014). Water quality in poultry breeding. Ogólnopolski Informator Drobiarski, 272: 20-24 (in Polish).Search in Google Scholar

Mutalib A., Riddell C., Osborn A. (1983). Studies on the pathogenesis of staphylococcal osteomyelitis in chickens. II. Role of the respiratory tract asaroute of infection. Avian Dis., 27: 157-160.Search in Google Scholar

Mutuş R., Kocabağli N., Alp M., Acar N., Eren M., Gezen Ş. (2006). The effect of dietary probiotic supplementation on tibial bone characteristics and strength in broilers. Poultry Sci., 85: 1621-1625.Search in Google Scholar

Nahashon S., Nakaue H., Mirosh L. (1994). Production variables and nutrient retention in single comb White Leghorn laying pullets fed diets supplemented with direct-fed microbials. Poultry Sci., 73: 1699-1711.Search in Google Scholar

Newberry R., Hunt J., Gardiner E. (1988). Influence of light intensity on behavior and performance of broiler chickens. Poultry Sci., 67: 1020-1025.Search in Google Scholar

Nicoll T., Jensen M. (1987 a). Preliminary studies on bacterial interference of staphylococcosis of chickens. Avian Dis., 31: 140-144.10.2307/1590787Search in Google Scholar

Nicoll T., Jensen M. (1987 b). Staphylococcosis of turkeys. 5. Large-scale control programs using bacterial interference. Avian Dis., 31: 85-88.10.2307/1590778Search in Google Scholar

Nielsen B.L., Litherland M., Nøddegaard F. (2003). Effects of qualitative and quantitative feed restriction on the activity of broiler chickens. Appl. Anim. Behav. Sci., 83: 309-323.Search in Google Scholar

Nigg B.M., Grimstone S.K. (1994). Bone. In: Biomechanics of Musculoskeletal System. Nigg B.M., Herzog W. (eds), John Wiley & Sons, New York, NY, pp. 48-78.Search in Google Scholar

North M.O., Bell D.D. (1990). Light systems for broilers. In: Commercial Chicken Production Manual, Chapman & Hall, New York and London, pp. 472-473.Search in Google Scholar

Ogan M., Petek M., Balci F. (1999). Effects of different lighting programs on the performance of broilers. J. Fac. Vet. Med. Univ. Uludag, 18: 1-10 (in Turkish).Search in Google Scholar

Okiki P.A., Ojeizeh T.I., Ogbimi A.O. (2010). Effects of feeding diet rich in mycotoxins on the health and growth performances of broiler chicken. Int. J. Poultry Sci., 9: 1136-1139.Search in Google Scholar

Orth M.W., Bai Y., Zeytun I.H., Cook M.E. (1992). Excess levels of cysteine and homocysteine induce tibial dyschondroplasia in broiler chicks. J. Nutr., 122: 482-487.Search in Google Scholar

Oso A., Idowu A., Niameh O. (2011). Growth response, nutrient and mineral retention, bone mineralisation and walking ability of broiler chickens fed with dietary inclusion of various unconventional mineral sources. J. Anim. Physiol. Anim. N., 95: 461-467.Search in Google Scholar

Osphal W., Zeronian H., Ellison M., Lewis D., Rucker R.S., Riggins R. (1982). Role of copper in collagen-linking and its influence on selected mechanical properties of chick bone and tendon. J. Nutr., 12: 708-716.Search in Google Scholar

Oviedo - Rondón E.O., Ferket P.R. (2005). Nutritional factors that affect leg problems in meat poultry: Areview. Proc. Ann. Carolina Poult. Nutr. Conf., Research Triangle Park, NC. North Carolina State University, Raleigh, pp. 58-88.Search in Google Scholar

Oviedo - Rondón E., Small J., Wineland M., Christensen V., Grimes J., Funderburk S., Ort D., Mann K. (2008). Effects of incubator temperature and oxygen concentration during the plateau stage of oxygen consumption on turkey embryo long bone development. Poultry Sci., 87: 1484-1492.Search in Google Scholar

Oviedo - Rondón E., Wineland M., Funderburk S., Small J., Cutchin H., Mann M. (2009 a). Incubation conditions affect leg health in large, high-yield broilers. J. App. Poultry Res., 18: 640-646.10.3382/japr.2008-00127Search in Google Scholar

Oviedo - Rondón E., Wineland M., Small J., Cutchin H., Mc Elroy A., Barri A., Martin S. (2009 b). Effect of incubation temperatures and chick transportation conditions on bone development and leg health. J. App. Poultry Res., 18: 671-678.10.3382/japr.2008-00135Search in Google Scholar

Oznurlu Y., Celik I., Sur E., Ozaydın T., Oğuz H., Altunbaş K. (2012). Determination of the effects of aflatoxin B1 given in ovo on the proximal tibial growth plate of broiler chickens: histological, histometric and immunohistochemical findings. Avian Pathol., 41: 469-477.Search in Google Scholar

Padron M. (1990). Salmonella typhimurium outbreak in broiler chicken flocks in Mexico. Avian Dis., 34: 221-223.Search in Google Scholar

Panda A.K., Rao S.V.R., Raju M.V., Sharma S.R. (2006). Dietary supplementation of Lactobacillus sporogenes on performance and serum biochemico-lipid profile of broiler chickens. J. Poultry Sci., 43: 235-240.Search in Google Scholar

Pastore S.M., Gomes P.C., Rostagno H.S., Albino L.F.T., Calderano A.A., Vellasco C.R., Da Silva Viana G., Almeida R.L.D. (2012). Calcium levels and calcium: available phosphorus ratios in diets for white egg layers from 42 to 58 weeks of age. Rev. Bras. Zoot. 41: 2424- 2432.Search in Google Scholar

Pastorelli L., De Salvo C., Mercado J.R., Vecchi M., Pizarro T.T. (2013). Central role of the gut epithelial barrier in the pathogenesis of chronic intestinal inflammation: lessons learned from animal models and human genetics. Front. Immunol., 4, p. 280.10.3389/fimmu.2013.00280377531524062746Search in Google Scholar

Pattison M. (2008). Poultry Diseases. 6th ed. Elsevier, Edinburgh.Search in Google Scholar

Petersen V.E., Jensen O. (1983). Halm, høvlspaaner eller makuleret avispapir som strøelse til slagtekyllinger (in Danish). In: Statens Husdyrbrugsforsøg, Meddelelse, Denmark, 522: 1-4.Search in Google Scholar

Phillips C.J.C. (1992). Environmental factors influencing the production and welfare of farm animals: Photoperiod. In: Farm Animals and the Environment. Phillips C.J.C., Piggins D. (eds), CAB International, Oxford, UK, pp. 49-65.Search in Google Scholar

Pierson F.W., Hester P.Y., Wilson E.K. (1981). The effect of caponization and dietary 17 α-methyltestosterone on the incidence of leg abnormalities in turkeys. Poultry Sci., 60: 2144-2149.Search in Google Scholar

Pinchasov Y., Elmaliah S. (1995). Broiler chick responses to anorectic agents: dietary acetic and propionic acids and the blood metabolites. Ann. Nutr. Metab., 39: 107-116.Search in Google Scholar

Pintar J., Bujan M., Homen B., Gazic K., Sikiric M., Cerny T. (2005). Effects of supplemental phytase on the mineral content in tibia of broilers fed different cereal based diets. Czech J. Anim. Sci., 50: 68-73.Search in Google Scholar

Plavnik I., Scott M. L. (1980). Effects of additional vitamins, minerals or brewers yeast upon leg weaknesses in broiler chickens. Poultry Sci., 59: 459-464.Search in Google Scholar

Prayitno D., Phillips C. (1997). Equating the perceived brightness of blue and red lights to hens. Brit. Poultry Sci., 38: 136-141.Search in Google Scholar

Ptak A., Józefiak D., Kierończyk B., Rawski M., Żyła K., Świątkiewicz S. (2013). Effect of different phytases on the performance, nutrient retention and tibia composition in broiler chickens. Archiv. Tierzucht, 56: 1028-1038.Search in Google Scholar

Rajput I.R., Hussain A., Li Y.L., Zhang X., Xu X., Long M.Y., You D.Y., Li W.F. (2014). Saccharomyces boulardii and Bacillus subtilis B10 modulate TLRs mediated signaling to induce immunity by chicken BMDCs. J. Cell. Biochem., 115: 189-198.Search in Google Scholar

Rao S.R., Raju M., Reddy M., Pavani P. (2006). Interaction between dietary calcium and nonphytate phosphorus levels on growth, bone mineralization and mineral excretion in commercial broilers. Anim. Feed Sci. Tech., 131: 135-150.Search in Google Scholar

Rath N., Balog J., Huff W., Huff G., Kulkarni G., Tierce J. (1999). Comparative differences in the composition and biomechanical properties of tibiae of seven-and seventy-two-week-old male and female broiler breeder chickens. Poultry Sci., 78: 1232-1239.Search in Google Scholar

Rath N., Huff G., Huff W., Balog J. (2000). Factors regulating bone maturity and strength in poultry. Poultry Sci., 79: 1024-1032.Search in Google Scholar

Rath N.C., Huff W.E., Balog J.M., Huff G.R. (2004). Comparative efficacy of different dithiocarbamates to induce tibial dyschondroplasia in poultry. Poultry Sci., 83: 266-274.Search in Google Scholar

Rath N.C., Huff W.E., Huff G.R., Kannan L. (2007). Induction of tibial dyschondroplasia by carbamate and thiocarbamate pesticides. Avian Dis., 51: 590-593.Search in Google Scholar

Rath N.C., Rasaputra K.S., Liyanage R., Huff G.R., Huff W.E. (2011). Dithiocarbamate toxicity - an appraisal. Pesticides in the Modern World - Effects of Pesticides Exposure, Stoytcheva M. (eds), In Tech Publishing Online, New York, pp. 323-340.Search in Google Scholar

Reginatto A.R., Menconi A., Londero A., Lovato M., Rosa A.P., Shivaramaiah S., Wolfenden A.D., Huff W.E., Huff G.R., Rath N.C., Donoghue A.M., Hargis B.M., Tellez G. (2011). Effects of dietary aspergillus meal prebiotic on turkey poults production parameters and bone qualities. Int. J. Poultry Sci., 10: 496-499.Search in Google Scholar

Reiter K., Bessei W. (1995). Influence of running on leg weakness of slow and fast growing broilers. In: Proceedings of the 29th International Congress for Applied Ethology, Exeter, pp. 211-213.Search in Google Scholar

Reiter K., Bessei W. (1996). Effect of the distance between feeder and drinker on behaviour and leg disorders of broilers. In: Proceedings of the 30th International Congress of the International Society for Applied Ethology: 14-17 August, 1996, Guelph, Ontario, Canada.Search in Google Scholar

Rennie J., Fleming R., Mc Cormack H., Mc Corquodale C., Whitehead C. (1997). Studies on effects of nutritional factors on bone structure and osteoporosis in laying hens. Brit. Poultry Sci., 38: 417-424.Search in Google Scholar

Riggs C., Vaughan L., Evans G., Lanyon L., Boyde A. (1993). Mechanical implications of collagen fibre orientation in cortical bone of the equine radius. Anatomy and embryology, 187: 239-248.Search in Google Scholar

Rosenberger J., Olson N. (1991). Reovirus infections. In: Diseases of Poultry, 9th ed., Calnek B.W. (ed.), pp. 639-646.Search in Google Scholar

Ross E., Yacowitz H. (1954). Effect of penicillin on growth and bone ash of chicks fed different levels of vitamin Dand phosphorus. Poultry Sci., 33: 262-265.Search in Google Scholar

Sandilands V., Tolkamp B.J., Kyriazakis I. (2005). Behaviour of food restricted broilers during rearing and lay - effects of an alternative feeding method. Physiol. Behav., 85: 115-123.Search in Google Scholar

Saunders - Blades J., Mac Isaac J., Korver D., Anderson D. (2009). The effect of calcium source and particle size on the production performance and bone quality of laying hens. Poultry Sci., 88: 338-353.Search in Google Scholar

Savory C., Hocking P., Mann J., Maxwell M. (1996). Is broiler breeder welfare improved by using qualitative rather than quantitative food restriction to limit growth rate? Anim. Welfare, 5: 105-127.Search in Google Scholar

Savory C.J., Maros K. (1993). Influence of degree of food restriction, age and time of day on behaviour of broiler breeder chickens. Behav. Processes, 29: 179-189.Search in Google Scholar

Scott M., Hull S., Mullenhoff P. (1971). The calcium requirements of laying hens and effects of dietary oyster shell upon egg shell quality. Poultry Sci., 50: 1055-1063.Search in Google Scholar

Scott T. (2002). Evaluation of lighting programs, diet density, and short term use of mash as compared to crumbled starter to reduce incidence of sudden death syndrome in broiler chicks to 35dof age. Can. J. Anim. Sci., 82: 375-383.Search in Google Scholar

Seifert M.F., Watkins B.A. (1997). Role of dietary lipid and antioxidants in bone metabolism. Nutr. Res., 17: 1209-1228.Search in Google Scholar

Shim M., Pesti G. (2011). Effects of incubation temperature on the bone development of broilers. Poultry Sci., 90: 1867-1877.Search in Google Scholar

Shim M.Y. (2010). Leg problems of modern broilers as affected by incubation temperature, fluoride and fast growth. Doctor of Philosophy thesis. The University of Georgia.Search in Google Scholar

Siegel H., Drury L., Patterson W. (1973). Bone characteristics and growth of broilers housed in plastic coops or on moderate and high temperatures, 4th European Poultry Conference, London, England, pp. 159-164.Search in Google Scholar

Simmons P. (1982). Effect of lighting regimes on twisted legs, feed conversion and growth of broiler chickens. Poultry Sci., 61: 1546-1546.Search in Google Scholar

Škrbić Z., Pavlovski Z., Vitorović D., Lukić M., Petričević V. (2009). The effects of stocking density and light program on tibia quality of broilers of different genotype. Archiva Zootechnica, 12: 3-56.Search in Google Scholar

Soares J., Kerr J., Gray R. (1995). 25-hydroxycholecalciferol in poultry nutrition. Poultry Sci., 74: 1919-1934.Search in Google Scholar

Soltan M. (2008). Effect of dietary organic acid supplementation on egg production, egg quality and some blood serum parameters in laying hens. Int. J. Poultry Sci., 7: 613-621.Search in Google Scholar

Štofaníková J., Šály J., Molnár L., Sesztáková E., Bílek J. (2011). The influence of dietary zinc content on mechanical properties of chicken tibiotarsal bone. Acta Vet., 61: 531-541.Search in Google Scholar

Su G., Sørensen P., Kestin S.C. (1999). Meal feeding is more effective than early feed restriction at reducing the prevalence of leg weakness in broiler chickens. Poultry Sci., 78: 949- 955.Search in Google Scholar

Su G., Sørensen P., Kestin S. (2000). Anote on the effects of perches and litter substrate on leg weakness in broiler chickens. Poultry Sci., 79: 1259-1263.Search in Google Scholar

Subapriya S., Vairamuthu S., Manohar B.M., Balachandran C. (2007). Pathomorphological changes in thiram toxicosis in broiler chicken. Int. J. Poultry Sci., 6: 251-254.Search in Google Scholar

Sullivan T.W. (1994). Skeletal problems in poultry: estimated annual cost and descriptions. Poultry Sci., 73: 879-882.Search in Google Scholar

Sun Q., Guo Y., Li J., Zhang T., Wen J. (2012). Effects of methionine hydroxy analog chelated Cu/Mn/Zn on laying performance, egg quality, enzyme activity and mineral retention of laying hens. J. Poultry Sci., 49: 20-25.Search in Google Scholar

Svihus B., Sacranie A., Denstadli V., Choct M. (2010). Nutrient utilization and functionality of the anterior digestive tract caused by intermittent feeding and inclusion of whole wheat in diets for broiler chickens. Poultry Sci., 89: 2617-2625.Search in Google Scholar

Svihus B., Lund V., Borjgen B., Bedford M., Bakken M. (2013). Effect of intermittent feeding, structural components and phytase on performance and behaviour of broiler chickens. Brit. Poultry Sci., 54: 222-230.Search in Google Scholar

Swick R., Ivey F. (1990). Effect of dietary phytase addition on broiler performance in phosphorus deficient diets. Poultry Sci., 69: 133.Search in Google Scholar

Świątkiewicz S., Koreleski J. (2008). The effect of zinc and manganese source in the diet for laying hens on eggshell and bones quality. Vet. Med-Czech., 53: 555-563.Search in Google Scholar

Świątkiewicz S., Korelewski J., Arczewska- Włosek A. (2010). Effect of prebiotic fructans and organic acids on mineral retention in laying hens. Acta Agric. Scand. A Anim. Sci., 60: 125-128.Search in Google Scholar

Świątkiewicz S., Arczewska- Włosek A., Jozefiak D. (2014). The efficacy of organic minerals in poultry nutrition: review and implications of recent studies. World’s Poultry Sci. J., 70: 475-486.Search in Google Scholar

Thorp B., Whitehead C., Dick L., Bradbury J., Jones R., Wood A. (1993). Proximal femoral degeneration in growing broiler fowl. Avian Pathol., 22: 325-342.Search in Google Scholar

Toghyani M., Toghyani M., Tavalaeian E., Mohammadrezaei M. (2011). Effect of wet and sequential feeding subsequent to early skipaday feeding on leg weakness in broiler chicks. 9th Asia Pacific Poultry Congress, At Taiwan.Search in Google Scholar

Tona K., Onagbesan O., Jego Y., Kamers B., Decuypere E., Bruggeman V. (2004). Comparison of embryo physiological parameters during incubation, chick quality, and growth performance of three lines of broiler breeders differing in genetic composition and growth rate. Poultry Sci., 83: 507-513.Search in Google Scholar

Tona K., Onagbesan O.M., Kamers B., Everaert N., Bruggeman V., Decuypere E. (2010). Comparison of Cobb and Ross strains in embryo physiology and chick juvenile growth. Poultry Sci., 89: 1677-1683.Search in Google Scholar

Tucker S.A., Walker A.W. (1992). Hock burn in broilers. In: Recent Advances in Animal Nutrition. Garnsworthy P.C., Haresign W., Cole J.D.A. (eds). Butterworth Heinemann, Oxford, the United Kingdom, pp. 33−49.Search in Google Scholar

Turek S.L. (1984). Mineralization of bone. In: Orthopaedics: Principles and Their Application. Vol. I., Lippincot J.B. (ed.), Philadelphia, PA, pp. 164-179.Search in Google Scholar

Vander Heide L., Lütticken D., Horzinek M. (1981). Isolation of avian reovirus as a possible etiologic agent of osteoporosis (“brittle bone disease”; “femoral head necrosis”) in broiler chickens. Avian Dis., 25: 847-856.Search in Google Scholar

Viveros A., Brenes A., Arija I., Centeno C. (2002). Effects of microbial phytase supplementation on mineral utilization and serum enzyme activities in broiler chicks fed different levels of phosphorus. Poultry Sci., 81: 1172-1183.Search in Google Scholar

Wang X., Fosmire G.J., Gay C.V., Leach R.M. (2002). Short-term zinc deficiency inhibits chondrocyte proliferation and induces cell apoptosis in the epiphyseal growth plate of young chickens. J. Nutr., 132: 665-673.Search in Google Scholar

Wideman R., Hamal K., Stark J., Blankenship J., Lester H., Mitchell K., Lorenzoni G., Pevzner I. (2012). Awire-flooring model for inducing lameness in broilers: Evaluation of probiotics asaprophylactic treatment. Poultry Sci., 91: 870-883.Search in Google Scholar

Wideman R.F., Al - Rubaye A., Reynolds D., Yoho D., Lester H., Spencer C., Hughes J.D., Pevzner I. Y. (2014). Bacterial chondronecrosis with osteomyelitis in broilers: Influence of sires and straight-run versus sex-separate rearing. Poultry Sci., 93: 1675-1687.Search in Google Scholar

Wiedmer H., Hadorn R. (1996). Broilermast: Welche Einstreu ist die beste? DGS Magazin Woche, 27: 17-18.Search in Google Scholar

Wilson H.R. (1991). Physiological requirements of developing embryo: Temperature and turning. In: Avian Incubation. Tullet S.G. (ed.), Butterworth-Heinemann, Oxford, UK, pp. 145-156.Search in Google Scholar

Wilson J., Ruszler P. (1998). Long term effects of boron on layer bone strength and production parameters. Brit. Poultry Sci., 39: 11-15.Search in Google Scholar

Wilson J., Weaver W., Beane W., Cherry J. (1984). Effects of light and feeding space on leg abnormalities in broilers. Poultry Sci. 63: 565-567.Search in Google Scholar

Wise D., Ranaweera K. (1978). Shaky leg syndrome and hip lesions in turkeys. Vet. Rec., 103: 206-209.Search in Google Scholar

Wolfenson D., Sklan D., Graber Y., Kedar O., Bengal I., Hurwitz S. (1987). Absorption of protein, fatty acids and minerals in young turkeys under heat and cold stress. Brit. Poultry Sci., 28: 739-742.Search in Google Scholar

Wu W., Li G., Liu T., Vesonder R.R. (1995). The effect of fumonisin B1 on isolated chondrocytes and on bone formation. Poultry Sci., 74: 1431-1436.Search in Google Scholar

Xin H., Harmon J.D. (1996). Responses of group-housed neonatal chicks to posthatch holding environment. Transactions of the ASAE 39, p. 2249.10.13031/2013.27732Search in Google Scholar

Xin H., Rieger S.R. (1995). Physical conditions and mortalities associated with international air transport of young chicks. T. ASAE., 38, p. 1863.10.13031/2013.28015Search in Google Scholar

Yair R., Uni Z. (2011). Content and uptake of minerals in the yolk of broiler embryos during incubation and effect of nutrient enrichment. Poultry Sci., 90: 1523-1531.Search in Google Scholar

Yalçin S., Molayoğlu H.B., Baka M., Genin O., Pines M. (2007). Effect of temperature during the incubation period on tibial growth plate chondrocyte differentiation and the incidence of tibial dyschondroplasia. Poultry Sci., 86: 1772-1783.Search in Google Scholar

Yang H., Xing H., Wang Z., Xia J., Wan Y., Hou B., Zhang J. (2015). Effects of intermittent lighting on broiler growth performance, slaughter performance, serum biochemical parameters and tibia parameters. Ital. J. Anim. Sci., 14, p. 4143.10.4081/ijas.2015.4143Search in Google Scholar

Yi Z., Kornegay E., Denbow D. (1996). Supplemental microbial phytase improves zinc utilization in broilers. Poultry Sci., 75: 540-546.Search in Google Scholar

Zhou Z.L., Deng Y.F., Tao Q.S., Hu Y.F., Hou J.F. (2009). Effects of Gushukang,a Chinese herbal medicine, on bone characteristics and osteoporosis in laying hens. Poultry Sci., 88: 2342-2345.Search in Google Scholar

Ziaie H., Bashtani M., Torshizi M.K., Naeeimipour H., Farhangfar H., Zeinali A. (2011). Effect of antibiotic and its alternatives on morphometric characteristics, mineral content and bone strength of tibia in Ross broiler chickens. Global Vet., 7: 315-322.Search in Google Scholar