The Alterations of Erythrocyte Osmotic Fragility and Hematological Parameters in Puppies with Parvoviral Enteritis in Kirikkale, Türkiye

Authors

  • Ruhi Kabakci
  • Erdal Kara

Keywords:

Canine parvovirus, erythrocyte osmotic fragility, hematological parameters

Abstract

Canine parvoviral enteritis (CPVe) is an important infectious disease that has pretty high morbidity and mortality rates in puppies, which leads to vomiting and diarrhea range from mucoid to hemorrhagic. The objective of this study to investigate the changes in erythrocyte osmotic fragility (EOF) and hematological parameters in dogs with CPVe. Sixteen healthy and twenty-seven infected male and female dogs identified by the CPV antigen rapid-test kit at ages 2-6 months old were used to collect blood samples. A complete blood count and EOF were measured from the samples. Findings of hemogram showed that WBC, RBC, and HCT values were significantly lower in infected dogs (the p-value of the first one is p<0.001, other two ones are p<0.05) compared to healthy controls. The infected dogs had non-significantly lower NEU, EOS, and PLT values, and higher LYM, MON, MCV, MCH, and MCHC values than control group (p>0.05). Although the hemolysis rate of infected dogs' erythrocytes at the concentrations of 0.4 - 0.1 % NaCl were higher than that of healthy dogs, this difference was statistically significant at only 0.3% NaCl (p<0.05). In addition, the median corpuscular fragility (MCF), equal to the NaCl concentration that lyses 50% of erythrocytes, of dogs with CPVe (0.42%) was higher than the MCF values of the control group (0.39%), but not statistically significant (p>0.05). In conclusion, besides the hematological findings revealed that WBC, RBC, and HCT values were significantly lower in dogs with CPVe than that in healthy dogs in this study, it was reported for the first time that canine parvovirus significantly increased osmotic fragility of RBCs at 0.3 % NaCl concentration compared to the control group. We concluded that to consider of these, particularly affected, blood parameters may be useful for determining the prognosis of CPVe.

References

Arikan S, Yigit A, Zengin N. 2004. Effect of pre-haemolytic concentrations of alpha, beta, and gamma cyclodextrins on the osmotic fragility of dog erythrocytes. Revue de Médecine Vétérinaire, 155(10): 500-503.

Ariyibi A, Oyeyemi M, Ajadi R. 2002. A comparative study of some hematology and biochemical parameters of clinically healthy Alsatian and local dogs. African Journal of Biomedical Research, 5(3): 145-147.

Behling‐Kelly E, Collins‐Cronkright R. 2014. Increases in beta‐lipoproteins in hyperlipidemic and dyslipidemic dogs are associated with increased erythrocyte osmotic fragility. Veterinary Clinical Pathology, 43(3): 405-415.

Bhargavi M, Shobhamani K, Kumari N, Srilatha C. 2017. Diagnostic aspects and haematobiochemical changes associated with canine parvoviral enteritis in dogs. International Journal of Current Microbiology and Applied Sciences, 6(11): 3357-3364.

Biswas S, Chakravorty D, Pradhan N. 2005. Clinical and haemato-biochemical changes in parvovirus infection in dogs. Indian Journal of Veterinary Medicine, 25(1): 16.

Carr-Smith S, Macintire D, Swango L. 1997. Canine parvovirus: Part 1. Pathogenesis and vaccination. Comp Continuing Educ Pract Vet, 19 (2): 125-133.

Castro TX, Rita de Cássia N, Gonçalves LP, Costa EM, Marcello GC, Labarthe NV, Mendes-de-Almeida F. 2013. Clinical, hematological, and biochemical findings in puppies with coronavirus and parvovirus enteritis. The Canadian Veterinary Journal, 54(9): 885.

Couto C, Nelson R. 2009. Small animal internal medicine (Elsevier Inc., USA).

Dash S, Das M, Sathapathy S, Patra R, Senapati S, Jena G. 2017. Haematological, Serum Biochemical Alterations and Efficacy of different therapeutic regimens in Haemorrhagic Gastroenteritis with special reference to Canine Parvovirus infection. Glob J Biosci Biotechnol, 6(2): 267-271.

Decaro N, Desario C, Addie D, Martella V, Vieira M, Elia G, Zicola A, Davis C, Thompson G, Thiry E. 2007. Molecular epidemiology of canine parvovirus, Europe. Emerging Infectious Diseases, 13(8): 1222-1224.

Dik I, Şimşek A. 2021. Comparison of different diagnostic methods in detection of canine parvovirus infection. Eurasian Journal of Veterinary Sciences, 37(2): 76-81.

Goddard A, Leisewitz A. 2010. Canine parvovirus. Veterinary Clinics: Small Animal Practice, 40(6): 1041-1053.

Goddard A, Leisewitz A, Christopher M, Duncan N, Becker P. 2008. Prognostic usefulness of blood leukocyte changes in canine parvoviral enteritis. Journal of Veterinary Internal Medicine, 22(2): 309-316.

Kabakci R, Yigit A, Kara E, Cinar M, Ekici H, Aluc Y. 2022. Age-and sex-related changes in selected hematological parameters, lipid peroxidation and erythrocytes osmotic fragility of Turkish Angora cats. Journal of The Hellenic Veterinary Medical Society, 73(1): 3715-3722.

Kariuki Njenga M, Nyaga P, Buoro I, Gathumbi P. 1990. Effectiveness of fluids and antibiotics as supportive therapy of canine parvovirus-2 enteritis in puppies. Bull Anim Health Pod Afr, 38: 379-389.

Khare D, Gupta D, Shukla P, Das G, Meena N, Khare R. 2020. Clinical and haemato-biochemical changes in canine parvovirus infection. Journal of Pharmacognosy and Phytochemistry, 9(4): 1601-1604.

Kurtdere E, Gür B, Doğan Y, Sevim K, Gülendağ E. 2023. Klinik bulgular görülmeden parvoviral enteritis tanısı konulan köpeklerde, CBC, lipid profili, oksidatif stres biyobelirteçleri, Total Thiol, Native Thiol ve Disülfid düzeylerinin değerlendirilmesi. Veterinary Sciences and Practices, 17(3): 98-102.

Macintire DK, Smith-Carr S. 1997. Canine parvovirus. II. Clinical signs, diagnosis, and treatment. The Compendium on continuing education for the practicing veterinarian (USA), Small Animal Gastroenterology, 19(3): 291-300.

Makinde M, Bobade P. 1994. Osmotic fragility of erythrocytes in clinically normal dogs and dogs infected with parasites. Research in Veterinary Science, 57(3): 343-348.

Olayemi F, Azeez I, Ogunyemi A, Ighagbon F. 2009. Study on erythrocyte values of the Nigerian indigenous dog. Folia Veterinaria, 53(2): 65-67.

Otto CM, Drobatz KJ, Soter C. 1997. Endotoxemia and tumor necrosis factor activity in dogs with naturally occurring parvoviral enteritis. Journal of Veterinary Internal Medicine, 11(2): 65-70.

Patel H, Rao N, Patel NR, Gohil N. 2022. Haemato-biochemical changes and therapeutic efficacy of adjuvant therapy on canine parvovirus gastroenteritis. The Pharma Innovation Journal, SP-11(11): 2314-2320.

Pekmezci D, Çolak ZN. 2021. Parvovirus ile enfekte köpeklerde Nötrofil/Lenfosit, Monosit/Lenfosit ve Platelet/Lenfosit oranlarının belirlenmesi. Journal of Anatolian Environmental and Animal Sciences, 6(4): 585-591.

Pollock RV, Coyne MJ. 1993. Canine parvovirus. Veterinary Clinics of North America: Small Animal Practice, 23(3): 555-568.

Prittie J. 2004. Canine parvoviral enteritis: a review of diagnosis, management, and prevention. Journal of Veterinary Emergency and Critical Care, 14(3): 167-176.

Slappendel R. 1998. Abnormal osmotic fragility of erythrocytes in dogs and cats. Veterinary Quarterly, 20(sup1): S38-S39.

Suda T, Akamatsu A, Nakaya Y, Masuda Y, Desaki J. 2002. Alterations in erythrocyte membrane lipid and its fragility in a patient with familial lecithin: cholesterol acyltrasferase (LCAT) deficiency. Journal of Medical Investigation, 49(3/4): 147-155.

Surendhar M, Bharathi MV, Selvaraju G, Rathnapraba S, Kumar R. 2018. Molecular epidemiology and evaluation of haemato-biochemical parameters in canine parvoviral enteritis dogs in Chennai, India. Indian Journal of Chemical Studies, 6(6): 119-123.

Terzungwe TM. 2018. Hematological parameters of dogs infected with canine parvovirus enteritis in Sumy Ukraine. World Journal of Innovative Research, 5(3): 1-5.

Tritschler C, Mizukami K, Raj K, Giger U. 2016. Increased erythrocytic osmotic fragility in anemic domestic shorthair and purebred cats. Journal of Feline Medicine and Surgery, 18(6): 462-470.

Tuteja D, Banu K, Mondal B. 2022. Canine parvovirology–A brief updated review on structural biology, occurrence, pathogenesis, clinical diagnosis, treatment and prevention. Comparative Immunology, Microbiology and Infectious Diseases, 82(2022) 101765:1-15.

Tyan ML. 1982. Age-related increase in erythrocye oxidant sensitivity. Mechanisms of Ageing and Development, 20(1): 25-32.

Ukwueze C, Akpan ES, Ezeokonkwo RC, Nwosuh CI, Anene BM. 2020. Haematological, oxidative stress and electrolyte alterations in puppies with canine parvoviral enteritis. Iraqi Journal of Veterinary Sciences, 34(1): 65-69.

Yilmaz Z, Senturk S. 2007. Characterisation of lipid profiles in dogs with parvoviral enteritis. Journal of Small Animal Practice, 48(11): 643-650.

Downloads

Published

2023-09-06

How to Cite

Kabakci, R., & Kara, E. (2023). The Alterations of Erythrocyte Osmotic Fragility and Hematological Parameters in Puppies with Parvoviral Enteritis in Kirikkale, Türkiye. International Journal of Veterinary and Animal Research (IJVAR), 6(2), 66–71. Retrieved from https://ijvar.org/index.php/ijvar/article/view/587

Issue

Vol. 6 No. 2 (2023): 2023-2

Section

Research Articles

License

Copyright (c) 2023 International Journal of Veterinary and Animal Research (IJVAR)

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Similar Articles

1 2 3 4 > >> 

You may also start an advanced similarity search for this article.