Academic Publications on Llamas 2017

  1. Alejandro Himelfarb, M., et al., Pharmacokinetic/pharmacodynamic analysis by Monte Carlo simulation of cefquinome in llamas, following intravenous, intramuscular and subcutaneous administration in serum and tissue cage fluid. Small Ruminant Research, 2017. 149: p. 134-140.
  2. Bártová, E., et al., Seroprevalence of Neospora caninum and Toxoplasma gondii in exotic ruminants and camelids in the Czech Republic. Parasitology Research, 2017. 116(7): p. 1925-1929.
  3. Bedenice, D. and C.E. Whitehead, Documented neurological diseases in camelids. Livestock, 2016. 21(6): p. 376-382.
  4. Campbell, A.J. and A. Tibary, Infertility of female and male camelids. Clinical Theriogenology, 2017. 9(3): p. 311-319.
  5. Giudicelli, E., Lamas. Bulletin des G.T.V., 2017(No.87): p. 53-64.
  6. Grubb, T.L. and D.E. Anderson, Assessment of clinical application of pulse oximetry probes in llamas and alpacas. Veterinary Medicine and Science, 2017. 3(3): p. 169-175.
  7. Hawkins, I.K., et al., Septicemia and meningoencephalitis caused by Listeria monocytogenes in two neonatal llamas. Journal of Veterinary Diagnostic Investigation, 2017. 29(5): p. 700-703.
  8. Hick, M.H.V., et al., Determination of the textile potential of small ruminants primary (Creole) populations in less favored areas. Revista Argentina de Producción Animal, 2016. 36(2): p. 91-102.
  9. Holasová, M., A. Pechová, and T. Husáková, The evaluation of Cu, Zn, Mn, and Se concentrations in the hair of South American camelids. Acta Veterinaria Brno, 2017. 86(2): p. 141-149.
  10. Hribljan, J.A., et al., Carbon storage and long-term rate of accumulation in high-altitude Andean peatlands of Bolivia. Mires and Peat, 2014. 15: p. Article 12.
  11. Huanca, W., Reproductive biotechnologies in domestic South American camelids as alternatives for genetic improvement. Archivos Latinoamericanos de Producción Animal, 2015. 23(1/2): p. 1-4.
  12. Ledesma, M.M., et al., Identification of Lama glama as reservoirs for Acinetobacter lwoffii. Frontiers in Microbiology, 2017. 8(March): p. 278.
  13. Medina, V., et al., Analysis of morphometric and morphological parameters of ejaculated Lama glama semen using a filtered in semen processing. Revista Argentina de Producción Animal, 2017. 37(Especial 1): p. 57.
  14. Medina, V.H., E.G. Aisen, and N. Bérgamo, Improvement of sperm morphology of Lama glama using filter processing semen. Revista Argentina de Producción Animal, 2016. 36(Suplemento 1): p. 22.
  15. Mueller, J.P., Community based small ruminant genetic improvement programs. Archivos Latinoamericanos de Producción Animal, 2017. 25(1/2): p. 59-73.
  16. Navillod, F.V., et al., Case of seropositivity. From BTV 8 in a llama bred in Valle d'Aosta. 2010, Società Italiana di Diagnostica di Laboratorio Veterinaria (SIDiLV): Parma. p. 310-311.
  17. Palazzo, L., et al., Metolcarb intoxication in Tibetan goats (Capra hircus domestica) and llama (Lama glama) of a park zoo [Conference poster]. 2013, Società Italiana di Diagnostica di Laboratorio Veterinaria (SIDiLV): Parma. p. 399-400.
  18. Perosino, M., et al., Metolcarb intoxication in Tibetan goats (Capra hircus domestica) and llama (Lama glama) of a park zoo [Conference poster]. 2013, Società Italiana di Diagnostica di Laboratorio Veterinaria (SIDiLV): Parma. p. 401-402.
  19. Quispe, E.C., Determination of best sampling site for Chaku llamas (Lama glama) for six technological traits. Revista Argentina de Producción Animal, 2017. 37(Especial 1): p. 50.
  20. Quispe, E.C., et al., Fibre EC: A new equipment to assessment South American camelid fibre. Revista Argentina de Producción Animal, 2017. 37(Especial 1): p. 51.
  21. Ribeiro, V.L., et al., Mycobacterium sp. in captive-reared wild herbivores in Rio Grande do Sul: a retrospective study and immunohistochemical detection (2003-2015). Pesquisa Veterinária Brasileira, 2017. 37(1): p. 58-65.
  22. Riva de Neyra, L.A., et al., Growth in baby llama (Lama glama) in a natural pasture based production system in Jujuy, Argentina. Revista Argentina de Producción Animal, 2016. 36(Suplemento 1): p. 111.
  23. Roșu, P.M., et al., The morphological particularities of the thoracic limb bones at Lama glama (Linnaeus, 1758) - case study. Lucrari Stiintifice - Universitatea de Stiinte Agricole a Banatului Timisoara, Medicina Veterinara, 2017. 50(1): p. 173-183.
  24. Silva, M., et al., Nerve growth factor from seminal plasma origin (spβ-NGF) increases CL vascularization and level of mRNA expression of steroidogenic enzymes during the early stage of Corpus Luteum development in llamas. Theriogenology, 2017. 103: p. 69-75.
  25. Silva, M., F. Urra, and M. Ratto, Estradiol but not progesterone plasma concentration correlates with uterine vascularization during the reproductive cycle in llamas. Revista Argentina de Producción Animal, 2017. 37(Especial 1): p. 58.
  26. Silva, M., F. Urra, and M. Ratto, Uterine endometrial vascularization during ovarian follicular growth in llamas: the effect of estradiol plasma concentration. Theriogenology, 2018. 106: p. 164-169.
  27. Silva, M., et al., A comparative study of the effects of intramuscular administration of gonadorelin, mating and intrauterine infusion of either raw seminal plasma or seminal plasma purified β-NGF on luteal development in llamas. Reproduction in Domestic Animals, 2017. 52(4): p. 625-631.
  28. Stanitznig, A., et al., Prevalence of Mycobacterium avium subspecies paratuberculosis and hepatitis E in New World Camelids in Austria. Veterinary Record, 2017. 181(2): p. 46.
  29. Stölzl, A.M., et al., Dry matter intake and feed selection in South American camelids under Central European conditions: do gender or species specific differences on different hay qualities exist? Berliner und Münchener Tierärztliche Wochenschrift, 2017. 130(9/10): p. 415-423.
  30. Storey, B.E., et al., Validation of the FAMACHA© system in South American camelids. Veterinary Parasitology, 2017. 243: p. 85-91.
  31. Uhde, A.K., et al., Evaluation of a panel of antibodies for the immunohistochemical identification of immune cells in paraffin-embedded lymphoid tissues of new- and old-world camelids. Veterinary Immunology and Immunopathology, 2017. 184: p. 42-53.
  32. Whitehead, C.E., Pregnancy diagnosis in camelids. Livestock, 2017. 22(6): p. 330-334.

 

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