Acta Scientific Pharmacology

Research Article Volume 1 Issue 10

Metabolic Role of Non-Specific Immunestimulant (Inmunair) in Advanced Healthy of Broilers

Mahfouz MK1, Omyma AR1, Abd El-maksoud HA1*, Abd El-fattah SA2 and Sohyla GM1

1Department of Biochemistry, Benha University, Egypt
2Department of Pharmacology, Sadat City University, Egypt

*Corresponding Author: Abd El-maksoud HA, Department of Biochemistry, Benha University, Egypt.

Received: June 29, 2020; Published: September 25, 2020

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Abstract

  The objective of the present study was to evaluate the biochemical effect of Inmunair 17.5® administration on broilers. One hundred one day old Cobb broiler chicks were divided into 2 groups : control group (No treatment) and inmunair group (Inmunair 17.5® treated :1.5ml/L to drinking water for 24 hours at first 5 days of life1 day before vaccination and 2 days after vaccination). Blood samples were collected at 7,21 and 31 days of life. Body weight was registered at 10 and 34 days of life. Results revealed that inmunair caused no significance on serum (TP, Alb, AST, ALP, Ca, Cholesterol, HDL, LDL, CRP, IL6) but caused significant decrease in Na all over experimental period, significant decrease in cortisol at 7 and 21 days of life, significant increase in IL2 at 31 days of life and high significant increase in immunoglobulins IgG and IgM all over the experimental period. The increase in body weight wasn’t significant. In conclusion the obtained result show that inmunair 17.5 can be used as a safe immunostimulant that can reduce stress after vaccination and cause antibody response in broilers.

Keywords: Pediatric Dentistry; Oral Habits; Nursing Bottle Caries; Dental Trauma; Cleft Palate; Natal Teeth; Neonatal Teeth

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References

  1. Ryan C., et al. “Effects of two commercial available immunostimulants on leukocyte function of foals following ex vivo exposure to Rhodococcus equi”. Veterinary Immunology and Immunopathology 138 (2010): 198-205.
  2. Mutwiri G., et al. “Innate immunity and new adjuvants”. Revue Scientifique et Technique 26 (2007): 147-156.
  3. Flaminio MJB., et al. “Immunologic function in horses after non-specific immunostimulant administration”. Veterinary Immunology and Immunopathology 63 (1998): 303-315.
  4. Rush BR. “Immunomodulatory therapy”. Proc. North America Veterinary Conference (NAVC). Internet Publisher, International Veterinary Information Service (2011).
  5. Tizard IR. “Introducción a la Inmunología Veterinaria”. 8ª ed. Elsevier Saunders, Barcelona, Spain (2009).
  6. Perry AL and Lambert PA. “Propionibacterium acnes”. Letters in Applied Microbiology 42 (2006): 185-188.
  7. Megid J and Kaneno R. “Natural killer activity in mice infected with rabies virus submitted to P. acnes (Propionibacterium acnes) as immunomodulator”. Comparative Immunology, Microbiology and Infectious Diseases 23 (2000): 91-97.
  8. Megid J., et al. “Increased interleukin-10 associated with low IL-6 concentrations correlated with greater survival rates in mice infected by rabies virus vaccinated against it and immunomodulated with P. acnes”. Comparative Immunology, Microbiology and Infectious Diseases 27 (2004): 394-411.
  9. Todar’s Online Textbook of Bacteriology.
  10. Murphy K. Janeway’s Immunobiology, 8th edn 12 (2011): 89-92.
  11. Nya EJ and Austin B. Journal of Applied Microbiology 108 (2010): 686-694.
  12. “Report on the symposium drug effect in clinical chemistry methods for Emtimation of AST”. European Journal of Clinical Chemistry and Clinical Biochemistry 34 (1984): 1112-1116.
  13. Doumas B. “Colorimetric determination of albumin”. Clinical Chemical Acta (1971).
  14. Belfield A and Goldberg DM. “Revised assay for serum phenyl phosphatase activity using 4 aminoantipyrine”. Enzyme 12 (1971): 561-573.
  15. Burtis A., et al. Textbook of Clinical Chemistry 3rd Edition (1999).
  16. Schettler G and Nüssel E. “Colorimetric determination of Triglycerides and cholesterol”. 10 (1975): 25.
  17. Gordon T. “Colorimetric determination of serum HDL cholesterol”. American Journal of Medicine 62 (1977): 707.
  18. Friedewald W., et al. “Estimation of the concentration of low-density lipoprotein cholesterol in plasma, without use of the preparative ultracentrifuge”. Clinical Chemistry 18 (1972): 499-502.
  19. Bauer JD. "Clinical laboratory methods" 9th Ed, the C.V. Company Waistline Industrial Missouri 63116 Chapter 33 (1982): 555.
  20. Steel RGD and Torrie JH. Principles and procedures of statistics. A biometrical approach, 2nd Edition, McGraw-Hill Book Company, New York (1980).
  21. Ferrer LM., et al. “Effect of oral administration of Propionibacterium acnes on growth performance, DTH response and anti-OVA titers in goat kids”. Pesquisa Veterinária Brasileira 1 (2013): 5-10.
  22. Peñaililloa AK., et al. “Haematological and blood biochemical changes induced by the administration of low doses of Escherichia coli lipopolysaccharide in rabbits”. Archivos de Medicina Veterinaria 48 (2016): 315-320.
  23. Roth J., et al. “Molecular aspects of fever and hyperthermia”. Neurologic Clinics 24 (2006): 421-429.
  24. Nordgreen J., et al. “The effect of lipopolysaccharide (LPS) on inflammatory markers in blood and brain and on behavior in individually-housed pigs”. Physiology and Behavior 195 (2018): 98-111.
  25. Adams AA., et al. “Effects of an Immunostimulant Containing Propionibacterium acnes (EqStim) on Cell-Mediated Immunity and Nasal Shedding of Respiratory Pathogens Using a Model of “Weaning” Stress in Foals”. Journal of Equine Veterinary Science 38 (2016): 72-81.
  26. Puls R. “Mineral levels in animal health. Diagnostic data”. Published by Sherpa International, Clearbrook, British Columbia, Canada (1990).
  27. Stipkovits L., et al. “Administration of immune Air 17.5 to increase the efficiency of tetracycline treatment in chickens experimentally infected with mycoplasma gallisepticum”. Institut of Hungarian Academy of Sciences poultry selections (2016).
  28. Kim MH., et al. “Changes of Immunoglobulins and Lymphocyte Subpopulations in Peripheral Blood from Holstein Calves Challenged with Escherichia coli Lipopolysaccharide”. Asian-Australasian Journal of Animal Sciences 5 (2011): 696-706.
  29. Abdel-Hafez MS and Mohamed MA. “Evaluation of Some Immunostimulants on the Immune-response of Broiler Chickens Against Avian Influenza and Newcastle Diseases Vaccination”. Zagazig Veterinary Journal3 (2016): 273-281.
  30. Mousa YIM., et al. “Effect of spirulina and prebiotic (inmunair 17.5) on Newzealand white rabbits performance”. Zagazig Journal of Agricultural Research 1 (2018) 2018.
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Citation

Citation: Abd El-maksoud HA., et al. “Metabolic Role of Non-Specific Immunestimulant (Inmunair) in Advanced Healthy of Broilers".Acta Scientific Pharmacology 1.10 (2020): 25-29.




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