Comparación de los niveles de hormonas tiroideas entre dos líneas de aves ponedoras

Comparación de los niveles de hormonas tiroideas entre dos líneas de aves ponedoras

Objetivo. Establecer valores de referencia en los niveles de TSH y T4 libre, para las líneas de ponedoras Hy-Line W-36 y Lohmann Brown-Classic, asimismo, comparar los niveles de hormonas tiroideas en suero sanguíneo entre estas dos líneas. Materiales y métodos. Se obtuvo suero en ayunas de 100 gallinas ponedoras (50 Hy-Line W-36 y 50 Lohmann Brown-Classic) de 25 semanas de edad, y se determinaron los niveles de TSH y T4 libre mediante inmunoensayo enzimático. Resultados. Los valores de TSH para la línea Hy-Line W-36 (uUI/ml) fueron: promedio, mínimo, máximo y desviación estándar de 0,09, 0,00, 0,82, 0,15, respectivamente. Para la línea Lohmann Brown-Classic (uUI/ml) fueron: 0,29; 0,00; 4,98; 0,78, respectivamente.... Ver más

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Osorio, José Henry

Salamanca, Diana Marcela

Pérez, Jorge Enrique

UNIVERSIDAD DE CALDAS

10

2022-03-17

61

68

Colombia

gallinas

T4 libre

metabolismo

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Revista Biosalud - 2011

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spelling Comparación de los niveles de hormonas tiroideas entre dos líneas de aves ponedoras
Gyorffy A, Sayed-Ahmed A, Zsarnovszky A, Frenyó Vl, Decuypere E, Bartha T. Effects of energy restriction on thyroid hormone metabolism in chickens. Acta Vet Hungarica 2009; 57(2):319-11.
Proudman JA, Siopes TD. Relative and absolute photorefractoriness in turkey hens: profiles of prolactin, thyroxine, and triiodothyronine early in the reproductive cycle. Poult Sci 2002; 81:1218-5.
Proudman JA, Siopes TD. Potential role of thyroid hormones and prolactin in the programming of photorefractoriness in turkey hens. Poult Sci 2006; 85:1457-4.
Siopes TD. Circulating thyroid hormone levels in recycled turkey breeder hens during a short day prelighting period and renewal of photosensitivity for egg production. Poult Sci 2002; 81:1342-4.
Hangalapura BN, Nieuwland MGB, Buyse J, Kemp B, Parmentier HK. Effect of duration of cold stress on plasma adrenal and thyroid hormone levels and immune responses in chicken lines divergently selected for antibody responses. Poult Sci 2004; 83:1644-5.
Davis GS, Anderson KE, Carroll AS. The effects of long-term caging and molt of single comb white leghorn hens on herterophil to lymphocyte ratios, corticosterone and thyroid hormones. Poult Sci 2000; 79:514-4.
Soliman FA, Saleh SY. Thyroid-Ovary Relationship in Laying Hens. Zentralblatt für Veterinärmedizin 1980; 27(7):544-10.
Julian RJ. Production and growth related disorders and other metabolic diseases of poultry: A review. The Vet Jour 2005; 169:350-19.
Geris KL, Berghman LR, Kühn ER, Darras VM. The drop in plasma thyrotropin concentrations in fasted chickens is caused by an action at the level of the hypothalamus: role of corticosterone. Domestic Anim Endocrinol 1999; 16(4):231-6.
Macwhirter P. Avian Medicine: Principles and application. In: Ritchie BW, Harrison GJ, Harrison LR, editors. Malnutrition. Lake Worth, Florida: Wingers Publishing; 1994. Chapter 31, p. 859.
Silva JE. The thermogenic effect of thyroid hormone and its clinical implications. Annals of Internal Medicine 2003; 139:205-8.
Blivaiss BB. Development of secondary sexual characters in thyroidectomized brown Leghorn hens. Journal of Experimental Zoology 1947; 104(3):267-42.
Darras VM, Van Herck SLJ, Geysens S, Reyns GE. Involvement of thyroid hormones in chicken embryonic brain development. General and Comparative Endocrinology 2009; 163:58-4.
Sechman A, Pawlowska K, Rzasa J. Thyroid hormone receptor expression in chicken ovarian follicles. Domestic Animal Endocrinology 2009; 37:61-12.
Winchester CF. Influence of thyroid on egg production [Abstract]. Endocrinology 1939; 24(5):697-4.
Proudman JA, Siopes TD. Thyroid hormone and prolactin profiles in male and female turkeys following photostimulation. Poult Sci 2005; 84:942-4.
Hudelson KS, Hudelson P. Endocrine considerations. In: Harrison GJ, Lightfoot TL, eds. Clinical avian medicine. Internet publisher: international veterinary information service, Ithaca NY; 2009.
Reyns GE, Janssens KA, Buyseb J, Kühn ER, Darras VM. Changes in thyroid hormone levels in chicken liver during fasting and refeeding. Comparative Biochemistry and Physiology 2002; 132:239-6.
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D´Andre Hirwa C, Yan W, Wallace P, Nie Q, Luo C, Li H, Shen X, Sun L, Tang J, Li W, Zhu X, Yang G, Zhang X. Effects of the thyroid hormone responsive spot 14α gene on chicken growth and fat traits. Poult Sci 2010; 89:1981-10.
info:eu-repo/semantics/article
Lien RJ, Siopes TD. Effects of thyroidectomy on egg production, molt, and plasma thyroid hormone concentrations of turkey hens. Poult Sci 1989; 68(8):1126-32.
Lien RJ, Siopes TD. Effects of short-term thyroxine administration during the laying period on egg production and moulting by Turkeys. Brit Poult Sci1993; 34 (2): 405-416.
Druyan S. The effects of genetic line (broilers vs. layers) on embryo development. Poult Sci 2010; 89:1544-4.
Tona K, Onagbesan OM, Jego Y, Kamers B, Decuypere E, Bruggeman V. 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. Poult Sci 2004; 83(3):507-6.
Bobinienė R. Gudavičiūtė D. Miškinienė M. The impact of iodine on biochemical blood parameters in laying hens. Vet Med Zoot 2010; 51(73):3-7.
Ferrini G, Manzanilla E.G, Menoyo D, Esteve-Garcia E, Baucells M.D, Barroeta A.C. Effects of dietary n-3 fatty acids in fat metabolism and thyroid hormone levels when compared to dietary saturated fatty acids in chickens. Livestock Science 2010; 131:287-5.
Decuypere E, Van Asa P, Van der Geyten S, Darras VM. Thyroid hormone availability and activity in avian species: A review. Domestic Animal Endocrinology 2005; 29:63-14.
Lumeij, J. T. Endocrinology. In: Ritchie, B. W., G. J. Harrison, and L. R. Harrison, editors. Avian Medicine: Principles and Application. Lake Worth, Florida: Wingers Publishing; 1994. p. 582-606.
Banks WJ. Histología veterinaria aplicada. 1 ed. Ciudad de México: El Manual Moderno S.A. de C.V.; 1986. p. 583-8.
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Objetivo. Establecer valores de referencia en los niveles de TSH y T4 libre, para las líneas de ponedoras Hy-Line W-36 y Lohmann Brown-Classic, asimismo, comparar los niveles de hormonas tiroideas en suero sanguíneo entre estas dos líneas. Materiales y métodos. Se obtuvo suero en ayunas de 100 gallinas ponedoras (50 Hy-Line W-36 y 50 Lohmann Brown-Classic) de 25 semanas de edad, y se determinaron los niveles de TSH y T4 libre mediante inmunoensayo enzimático. Resultados. Los valores de TSH para la línea Hy-Line W-36 (uUI/ml) fueron: promedio, mínimo, máximo y desviación estándar de 0,09, 0,00, 0,82, 0,15, respectivamente. Para la línea Lohmann Brown-Classic (uUI/ml) fueron: 0,29; 0,00; 4,98; 0,78, respectivamente. El valor P del test F es mayor o igual a 0,05, por lo cual no hay diferencia estadísticamente significativa, con una confidencia del 95% para la TSH entre líneas. Los valores de T4 libre para la línea Hy-Line W-36 en ng/dl fueron: promedio, mínimo, máximo y desviación estándar de 0,95, 0,11, 2,00, 0,53, respectivamente, mientras que los valores encontrados para la línea Lohmann Brown-Classic en ng/dl fueron: 1,54, 0,21, 2,58, 0,49, respectivamente. El valor P del test F es inferior a 0,05, evidenciando diferencia estadísticamente significativa, con una confidencia del 95% para T4 libre entre líneas. Conclusión. Se observó diferencia estadística para los niveles de T4 libre entre las líneas estudiadas; esto podría explicarse ya que la línea semi-pesada (Lohman Brown-Classic) deposita una mayor cantidad de grasa en el organismo, influyendo en el aumento de los niveles de T4 para esta y no para la línea liviana Hy-Line W-36. Se aportan valores de referencia para las dos líneas comerciales de ponedoras evaluadas. 
Osorio, José Henry
Salamanca, Diana Marcela
Pérez, Jorge Enrique
gallinas
TSH
T4 libre
metabolismo
10
1
Núm. 1 , Año 2011 : Enero - Junio
Artículo de revista
Publication
Universidad de Caldas
Dickson WM, Feldman EC, Hedge GA, Martin R, McDonald LE. Fisiología veterinaria cunningham. In: Cunningham JG, editors. Las glándulas endocrinas y su función. 3 ed. Madrid: Elsevier España S.A.; 2003. Chapter 33, p. 342-42.
Anne Mcnabb FM. Sturkie’s avian physiology. 5 ed. USA: Academic Press; 1999. p. 455-10.
Biosalud
Revista Biosalud - 2011
https://creativecommons.org/licenses/by-nc-sa/4.0/
https://revistasojs.ucaldas.edu.co/index.php/biosalud/article/view/4752
Español
TSH
Objective. To establish reference values for TSH and free T4, in two lines of laying hens (Hy-Line W-36 and Lohmann Brown-Classic),as well as to compare the thyroid hormone levels in serum between those two lines. Materials and methods. One hundred, 25 weeks of age laying fasting hens serum (50 Hy-Line W-36 and 50 Lohmann Brown-Classic) was obtained and TSH and free T4 levels were measured using enzymatic inmunoessay. Results. The values obtained for TSH for High-Line W-36 (uUI/ml) were: mean, minimal, maximal, and standard deviation, 0.09, 0.00, 0.82, 0.15 respectively. For the Lohmann Brown-Classic (uUI/ml) the values were, 0.29, 0.00, 4.98, 0.78, respectively. The P value of test F was greater or equal to 0.05 reason why there is not statistical significant difference, with a 95% confidence for TSH between the lines studied. The free T4 values obtained for Hy-Line W-36 in ng/dl were mean, minimal, maximal, and standard deviation of 0.95, 0.11, 2.00, 0.53 respectively while the values found for the Lohmann Brown-Classic line in ng/dl were 1.54, 0.21, 2.58, 0.49 respectively. The P value for the F test was inferior to 0.05, showing statistically significant difference with a 95% confidence for free T4 between the lines studied. Conclusion. Statistical difference was observed for free T4 between the two studied lines. This could be explained because the semi-heavy line (Lohman Brown-Classic) deposits a higher quantity of fattening in the organism influencing the increase of T4 levels for this line and not for the light Hy-Line W-36. Reference values for the two laying hens studied lines are presented.
hens
free T4
metabolism
Comparison of thyroid hormone levels between two lines of laying hens
Journal article
2022-03-17
https://revistasojs.ucaldas.edu.co/index.php/biosalud/article/download/4752/4337
https://revistasojs.ucaldas.edu.co/index.php/biosalud/article/view/4752
2462-960X
1657-9550
61
68
2022-03-17T00:36:58Z
2022-03-17T00:36:58Z
institution UNIVERSIDAD DE CALDAS
thumbnail https://nuevo.metarevistas.org/UNIVERSIDADDECALDAS/logo.png
country_str Colombia
collection Biosalud
title Comparación de los niveles de hormonas tiroideas entre dos líneas de aves ponedoras
spellingShingle Comparación de los niveles de hormonas tiroideas entre dos líneas de aves ponedoras
Osorio, José Henry
Salamanca, Diana Marcela
Pérez, Jorge Enrique
gallinas
T4 libre
metabolismo
hens
free T4
metabolism
title_short Comparación de los niveles de hormonas tiroideas entre dos líneas de aves ponedoras
title_full Comparación de los niveles de hormonas tiroideas entre dos líneas de aves ponedoras
title_fullStr Comparación de los niveles de hormonas tiroideas entre dos líneas de aves ponedoras
title_full_unstemmed Comparación de los niveles de hormonas tiroideas entre dos líneas de aves ponedoras
title_sort comparación de los niveles de hormonas tiroideas entre dos líneas de aves ponedoras
title_eng Comparison of thyroid hormone levels between two lines of laying hens
description Objetivo. Establecer valores de referencia en los niveles de TSH y T4 libre, para las líneas de ponedoras Hy-Line W-36 y Lohmann Brown-Classic, asimismo, comparar los niveles de hormonas tiroideas en suero sanguíneo entre estas dos líneas. Materiales y métodos. Se obtuvo suero en ayunas de 100 gallinas ponedoras (50 Hy-Line W-36 y 50 Lohmann Brown-Classic) de 25 semanas de edad, y se determinaron los niveles de TSH y T4 libre mediante inmunoensayo enzimático. Resultados. Los valores de TSH para la línea Hy-Line W-36 (uUI/ml) fueron: promedio, mínimo, máximo y desviación estándar de 0,09, 0,00, 0,82, 0,15, respectivamente. Para la línea Lohmann Brown-Classic (uUI/ml) fueron: 0,29; 0,00; 4,98; 0,78, respectivamente. El valor P del test F es mayor o igual a 0,05, por lo cual no hay diferencia estadísticamente significativa, con una confidencia del 95% para la TSH entre líneas. Los valores de T4 libre para la línea Hy-Line W-36 en ng/dl fueron: promedio, mínimo, máximo y desviación estándar de 0,95, 0,11, 2,00, 0,53, respectivamente, mientras que los valores encontrados para la línea Lohmann Brown-Classic en ng/dl fueron: 1,54, 0,21, 2,58, 0,49, respectivamente. El valor P del test F es inferior a 0,05, evidenciando diferencia estadísticamente significativa, con una confidencia del 95% para T4 libre entre líneas. Conclusión. Se observó diferencia estadística para los niveles de T4 libre entre las líneas estudiadas; esto podría explicarse ya que la línea semi-pesada (Lohman Brown-Classic) deposita una mayor cantidad de grasa en el organismo, influyendo en el aumento de los niveles de T4 para esta y no para la línea liviana Hy-Line W-36. Se aportan valores de referencia para las dos líneas comerciales de ponedoras evaluadas. 
description_eng Objective. To establish reference values for TSH and free T4, in two lines of laying hens (Hy-Line W-36 and Lohmann Brown-Classic),as well as to compare the thyroid hormone levels in serum between those two lines. Materials and methods. One hundred, 25 weeks of age laying fasting hens serum (50 Hy-Line W-36 and 50 Lohmann Brown-Classic) was obtained and TSH and free T4 levels were measured using enzymatic inmunoessay. Results. The values obtained for TSH for High-Line W-36 (uUI/ml) were: mean, minimal, maximal, and standard deviation, 0.09, 0.00, 0.82, 0.15 respectively. For the Lohmann Brown-Classic (uUI/ml) the values were, 0.29, 0.00, 4.98, 0.78, respectively. The P value of test F was greater or equal to 0.05 reason why there is not statistical significant difference, with a 95% confidence for TSH between the lines studied. The free T4 values obtained for Hy-Line W-36 in ng/dl were mean, minimal, maximal, and standard deviation of 0.95, 0.11, 2.00, 0.53 respectively while the values found for the Lohmann Brown-Classic line in ng/dl were 1.54, 0.21, 2.58, 0.49 respectively. The P value for the F test was inferior to 0.05, showing statistically significant difference with a 95% confidence for free T4 between the lines studied. Conclusion. Statistical difference was observed for free T4 between the two studied lines. This could be explained because the semi-heavy line (Lohman Brown-Classic) deposits a higher quantity of fattening in the organism influencing the increase of T4 levels for this line and not for the light Hy-Line W-36. Reference values for the two laying hens studied lines are presented.
author Osorio, José Henry
Salamanca, Diana Marcela
Pérez, Jorge Enrique
author_facet Osorio, José Henry
Salamanca, Diana Marcela
Pérez, Jorge Enrique
topicspa_str_mv gallinas
T4 libre
metabolismo
topic gallinas
T4 libre
metabolismo
hens
free T4
metabolism
topic_facet gallinas
T4 libre
metabolismo
hens
free T4
metabolism
citationvolume 10
citationissue 1
citationedition Núm. 1 , Año 2011 : Enero - Junio
publisher Universidad de Caldas
ispartofjournal Biosalud
source https://revistasojs.ucaldas.edu.co/index.php/biosalud/article/view/4752
language Español
format Article
rights http://purl.org/coar/access_right/c_abf2
info:eu-repo/semantics/openAccess
Revista Biosalud - 2011
https://creativecommons.org/licenses/by-nc-sa/4.0/
references Gyorffy A, Sayed-Ahmed A, Zsarnovszky A, Frenyó Vl, Decuypere E, Bartha T. Effects of energy restriction on thyroid hormone metabolism in chickens. Acta Vet Hungarica 2009; 57(2):319-11.
Proudman JA, Siopes TD. Relative and absolute photorefractoriness in turkey hens: profiles of prolactin, thyroxine, and triiodothyronine early in the reproductive cycle. Poult Sci 2002; 81:1218-5.
Proudman JA, Siopes TD. Potential role of thyroid hormones and prolactin in the programming of photorefractoriness in turkey hens. Poult Sci 2006; 85:1457-4.
Siopes TD. Circulating thyroid hormone levels in recycled turkey breeder hens during a short day prelighting period and renewal of photosensitivity for egg production. Poult Sci 2002; 81:1342-4.
Hangalapura BN, Nieuwland MGB, Buyse J, Kemp B, Parmentier HK. Effect of duration of cold stress on plasma adrenal and thyroid hormone levels and immune responses in chicken lines divergently selected for antibody responses. Poult Sci 2004; 83:1644-5.
Davis GS, Anderson KE, Carroll AS. The effects of long-term caging and molt of single comb white leghorn hens on herterophil to lymphocyte ratios, corticosterone and thyroid hormones. Poult Sci 2000; 79:514-4.
Soliman FA, Saleh SY. Thyroid-Ovary Relationship in Laying Hens. Zentralblatt für Veterinärmedizin 1980; 27(7):544-10.
Julian RJ. Production and growth related disorders and other metabolic diseases of poultry: A review. The Vet Jour 2005; 169:350-19.
Geris KL, Berghman LR, Kühn ER, Darras VM. The drop in plasma thyrotropin concentrations in fasted chickens is caused by an action at the level of the hypothalamus: role of corticosterone. Domestic Anim Endocrinol 1999; 16(4):231-6.
Macwhirter P. Avian Medicine: Principles and application. In: Ritchie BW, Harrison GJ, Harrison LR, editors. Malnutrition. Lake Worth, Florida: Wingers Publishing; 1994. Chapter 31, p. 859.
Silva JE. The thermogenic effect of thyroid hormone and its clinical implications. Annals of Internal Medicine 2003; 139:205-8.
Blivaiss BB. Development of secondary sexual characters in thyroidectomized brown Leghorn hens. Journal of Experimental Zoology 1947; 104(3):267-42.
Darras VM, Van Herck SLJ, Geysens S, Reyns GE. Involvement of thyroid hormones in chicken embryonic brain development. General and Comparative Endocrinology 2009; 163:58-4.
Sechman A, Pawlowska K, Rzasa J. Thyroid hormone receptor expression in chicken ovarian follicles. Domestic Animal Endocrinology 2009; 37:61-12.
Winchester CF. Influence of thyroid on egg production [Abstract]. Endocrinology 1939; 24(5):697-4.
Proudman JA, Siopes TD. Thyroid hormone and prolactin profiles in male and female turkeys following photostimulation. Poult Sci 2005; 84:942-4.
Hudelson KS, Hudelson P. Endocrine considerations. In: Harrison GJ, Lightfoot TL, eds. Clinical avian medicine. Internet publisher: international veterinary information service, Ithaca NY; 2009.
Reyns GE, Janssens KA, Buyseb J, Kühn ER, Darras VM. Changes in thyroid hormone levels in chicken liver during fasting and refeeding. Comparative Biochemistry and Physiology 2002; 132:239-6.
D´Andre Hirwa C, Yan W, Wallace P, Nie Q, Luo C, Li H, Shen X, Sun L, Tang J, Li W, Zhu X, Yang G, Zhang X. Effects of the thyroid hormone responsive spot 14α gene on chicken growth and fat traits. Poult Sci 2010; 89:1981-10.
Lien RJ, Siopes TD. Effects of thyroidectomy on egg production, molt, and plasma thyroid hormone concentrations of turkey hens. Poult Sci 1989; 68(8):1126-32.
Lien RJ, Siopes TD. Effects of short-term thyroxine administration during the laying period on egg production and moulting by Turkeys. Brit Poult Sci1993; 34 (2): 405-416.
Druyan S. The effects of genetic line (broilers vs. layers) on embryo development. Poult Sci 2010; 89:1544-4.
Tona K, Onagbesan OM, Jego Y, Kamers B, Decuypere E, Bruggeman V. 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. Poult Sci 2004; 83(3):507-6.
Bobinienė R. Gudavičiūtė D. Miškinienė M. The impact of iodine on biochemical blood parameters in laying hens. Vet Med Zoot 2010; 51(73):3-7.
Ferrini G, Manzanilla E.G, Menoyo D, Esteve-Garcia E, Baucells M.D, Barroeta A.C. Effects of dietary n-3 fatty acids in fat metabolism and thyroid hormone levels when compared to dietary saturated fatty acids in chickens. Livestock Science 2010; 131:287-5.
Decuypere E, Van Asa P, Van der Geyten S, Darras VM. Thyroid hormone availability and activity in avian species: A review. Domestic Animal Endocrinology 2005; 29:63-14.
Lumeij, J. T. Endocrinology. In: Ritchie, B. W., G. J. Harrison, and L. R. Harrison, editors. Avian Medicine: Principles and Application. Lake Worth, Florida: Wingers Publishing; 1994. p. 582-606.
Banks WJ. Histología veterinaria aplicada. 1 ed. Ciudad de México: El Manual Moderno S.A. de C.V.; 1986. p. 583-8.
Dickson WM, Feldman EC, Hedge GA, Martin R, McDonald LE. Fisiología veterinaria cunningham. In: Cunningham JG, editors. Las glándulas endocrinas y su función. 3 ed. Madrid: Elsevier España S.A.; 2003. Chapter 33, p. 342-42.
Anne Mcnabb FM. Sturkie’s avian physiology. 5 ed. USA: Academic Press; 1999. p. 455-10.
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