Evaluation of hematological and blood biochemical indices in cultured Nile tilapia (Oreochromis niloticus) as affected by using phage therapy against Pseudomonas aeruginosa

Abbas M.W., Shamshad T., Ashraf M.A., Javaid R. (2016). Jaundice: a basic review. Int. J. Res. Med. Sci., 4: 1313–1319. Search in Google Scholar

Abd El-Hack M.E., El-Saadony M.T., Nader M.M., Salem H.M., El-Tahan A.M., Soliman S.M., Khafaga A.F. (2022 a). Effect of environmental factors on growth performance of Nile tilapia (Oreochromis niloticus). Int. J. Biometeorol., 66: 2183–2194. Search in Google Scholar

Abd El-Hack M.E., El-Saadony M.T., Elbestawy A.R., Nahed A., Saad A.M., Salem H.M., El-Tahan A.M., Khafaga A.F., Taha A.E., AbuQamar S.F., El-Tarabily K.A. (2022 b). Necrotic enteritis in broiler chickens: disease characteristics and prevention using organic antibiotic alternatives – a comprehensive review. Poultry Sci., 101: 101590. Search in Google Scholar

Abedon S.T., Thomas-Abedon C. (2010). Phage therapy pharmacology. Curr. Pharm. Biotechnol., 11: 28–47. Search in Google Scholar

Adesoji A.T., Abubakar F., Ipinlaye J.S. (2016). Occurrence of antibiotic resistant bacteria in faeces from abattoir waste, processing water and products from Dutsin-Ma, Katsina State, Nigeria. J. Bacteriol. Mycol., 3: 1022. Search in Google Scholar

Amer S.A., Osman A., Al-Gabri N.A., Elsayed S.A.M., Abd El-Rahman G.I., Elabbasy M.T., Ahmed S.A.A., Ibrahim R.E. (2019). The effect of dietary replacement of fish meal with whey protein concentrate on the growth performance, fish health, and immune status of Nile tilapia fingerlings, Oreochromis niloticus. Animals, 9: 1003. Search in Google Scholar

Ardura A., Linde A.R., Garcia-Vazquez E. (2013). Genetic detection of Pseudomonas spp. in commercial Amazonian fish. Int. J. Environ. Res. Public Health, 10: 3954–3966. Search in Google Scholar

Basha K.A., Raman R.P., Prasad K.P., Kumar K., Nilavan E., Kumar S. (2013). Effect of dietary supplemented andrographolide on growth, non-specific immune parameters and resistance against Aeromonas hydrophila in Labeo rohita (Hamilton). Fish Shellfish Immunol., 35: 1433–1441. Search in Google Scholar

Becchi C., Al Malyan M., Fabbri L., Marsili M., Boddi V., Boncinelli S. (2006). Mean platelet volume trend in sepsis: is it a useful parameter? Minerva Anestesiol., 72: 749–756. Search in Google Scholar

Blaxhall P., Daisley K. (1973). Routine haematological methods for use with fish blood. J. Fish Biol., 5: 771–781. Search in Google Scholar

Castillo D., Christiansen R.H., Dalsgaard I., Madsen L., Middelboe M. (2015). Bacteriophage resistance mechanisms in the fish pathogen Flavobacterium psychrophilum: linking genomic mutations to changes in bacterial virulence factors. Appl. Environ. Microbiol., 81: 1157–1167. Search in Google Scholar

Catho G., Martischang R., Boroli F., Chraïti M., Martin Y., Koyluk Tomsuk Z., Renzi G., Schrenzel J., Pugin J., Nordmann P. (2021). Outbreak of Pseudomonas aeruginosa producing VIM carbapenemase in an intensive care unit and its termination by implementation of waterless patient care. Critical Care, 25: 1–10. Search in Google Scholar

Chandrashekar V. (2013). Plateletcrit as a screening tool for detection of platelet quantitative disorders. J. Hematol., 2: 22–26. Search in Google Scholar

Chen H., Cheng J., Ran L., Yu K., Lu B., Lan G., Lu F. (2018). An injectable self-healing hydrogel with adhesive and antibacterial properties effectively promotes wound healing. Carbohydr. Polym., 201: 522–531. Search in Google Scholar

Chinabut S. (2002). Jaundice disease in catfish, a case study demonstrating a decline in incidence as a result of research output. In: Primary Aquatic Animal Health Care in Rural, Small-scale, Aquaculture Development, J.R. Arthur, M.J. Phillips, R.P. Subasinghe, M.B. Reantaso, I.H. MacRae (eds.). FAO Fish. Tech. Pap., 406: 77–80. Search in Google Scholar

Clinical and Laboratory Standard Institute (CLSI). Performance standards for antimicrobial susceptibility testing; twenty-fifth informational supplement. In. Wayne, PA 2021; M100-S25. Search in Google Scholar

Crone S., Vives-Flórez M., Kvich L., Saunders A.M., Malone M., Nicolaisen M.H., Martínez-García E., Rojas-Acosta C., Catalina Gomez-Puerto M., Calum H. (2020). The environmental occurrence of Pseudomonas aeruginosa. Apmis, 128: 220–231. Search in Google Scholar

Dacie S.J.V., Lewis S.M. (1984) Practical haematology. 6th Edition, Churchill Livingstone, Edinburgh, London, pp. 22–27. Search in Google Scholar

Donati V.L., Dalsgaard I., Sundell K., Castillo D., Er-Rafik M., Clark J., Wiklund T., Middelboe M., Madsen L. (2021). Phage-mediated control of Flavobacterium psychrophilum in aquaculture: In vivo experiments to compare delivery methods. Front. Microbiol., 12: 628309. Search in Google Scholar

Doss J., Culbertson K., Hahn D., Camacho J., Barekzi N. (2017). A review of phage therapy against bacterial pathogens of aquatic and terrestrial organisms. Viruses, 9: 50. Search in Google Scholar

Eissa N., El-Ghiet E., Shaheen A., Abbass A. (2010). Characterization of Pseudomonas species isolated from tilapia “Oreochromis niloticus” in Qaroun and Wadi-El-Rayan lakes, Egypt. Glob. Vet., 5: 116–121. Search in Google Scholar

El-Houseiny W., Mansour M.F., Mohamed W.A.M., Al-Gabri N.A., El-Sayed A.A., Altohamy D.E., Ibrahim R.E. (2021). Silver nanoparticles mitigate Aeromonas hydrophila-induced immune suppression, oxidative stress, and apoptotic and genotoxic effects in Oreochromis niloticus. Aquaculture, 535: 736430. Search in Google Scholar

El-Saadony M.T., Alagawany M., Patra A.K., Kar I., Tiwari R., Dawood M.A., Dhama K., Abdel-Latif H.M.R. (2021). The functionality of probiotics in aquaculture: An overview. Fish Shellfish Immunol. 117: 36–52. Search in Google Scholar

El-Saadony M.T., Swelum A.A., Ghanima M.M.A., Shukry M., Omar A.A., Taha A.E., Salem H.M., El-Tahan A.M., El-Tarabily K.A., Abd El-Hack M.E. (2022 a). Shrimp production, the most important diseases that threaten it, and the role of probiotics in confronting these diseases: A review. Res. Vet. Sci., 144: 126–140. Search in Google Scholar

El-Saadony M.T., Salem H.M., El-Tahan A.M., Abd El-Mageed T.A., Soliman S.M., Khafaga A.F., Swelum A.A., Ahmed A.E., Alshammari F.A., Abd El-Hack M. E. (2022 b). The control of poultry salmonellosis using organic agents: an updated overview. Poultry Sci., 101: 101716. Search in Google Scholar

El Zlitne A. (2022). Heavy metals concentration patterns in the Atlantic horse meckrel (Trachurus trachurus), the round sardinella (Sardinella aurita) and the common panadora (Pagellus erythrinus) from northwestern Egyptian coasts. Egypt. J. Aquat. Biol. Fish., 26: 63–81. Search in Google Scholar

Ellis A. (1999). Immunity to bacteria in fish. Fish Shellfish Immunol., 9: 291–308. Search in Google Scholar

Ellis A. (2001). Innate host defense mechanisms of fish against viruses and bacteria. Dev. Comp. Immunol., 25: 827–839. Search in Google Scholar

Elsayed M., Essawy M., Shabana I., Abou El-Atta M., EL-Banna N. (2018). Studies on bacterial pathogens in some marine fishes in EL-Mansoura, Egypt. Amer. J. Agric. Biol. Sci., 13: 9–15. Search in Google Scholar

Golkar Z., Bagasra O., Pace D.G. (2014). Bacteriophage therapy: a potential solution for the antibiotic resistance crisis. J. Infect. Dev. Ctries., 8: 129–136. Search in Google Scholar

Henry R.J. (1964). Clinical chemistry, principles and techniques. Hoeber Medical, Harper-Row, 190: 287. Search in Google Scholar

Hodgson K. (2013). Bacteriophage therapy. Microbiol. Aust., 34: 28–31. Search in Google Scholar

Housby J.N., Mann N.H. (2009). Phage therapy. Drug Discov. Today, 14: 536–540. Search in Google Scholar

Hyman P., Abedon S.T. (2010). Bacteriophage host range and bacterial resistance. Adv. Appl. Microbiol., 70: 217–248. Search in Google Scholar

Iliev I., Marhova M., Gochev V., Tsankova M., Trifonova S. (2015). Antibiotic resistance of Gram-negative benthic bacteria isolated from the sediments of Kardzhali Dam (Bulgaria). Biotechnol. Biotechnol. Equip., 29: 274–280. Search in Google Scholar

Jamalzadeh H., Keyvan A., Ghomi M., Gherardi F. (2009). Comparison of blood indices in healthy and fungal infected Caspian salmon (Salmo trutta caspius). Afr. J. Biotechnol., 8: 319–322. Search in Google Scholar

Kaplan A., Glucose A. (1984). Clinical chemistry. The CV Mosby Co., St Louis, Toronto, Princeton, 436 pp. Search in Google Scholar

Kauppinen A., Siponen S., Pitkänen T., Holmfeldt K., Pursiainen A., Torvinen E., Miettinen I.T. (2021). Phage biocontrol of Pseudomonas aeruginosa in water. Viruses, 13: 928 Search in Google Scholar

Kelly D., McAuliffe O., O’Mahony J., Coffey A. (2011). Development of a broad-host-range phage cocktail for biocontrol. Bioeng. Bugs, 2: 31–37. Search in Google Scholar

Kumar S., Raman R., Pandey P., Mohanty S., Kumar A., Kumar K. (2013). Effect of orally administered azadirachtin on non-specific immune parameters of goldfish Carassius auratus (Linn. 1758) and resistance against Aeromonas hydrophila. Fish Shellfish Immunol., 34: 564–573. Search in Google Scholar

Kurtoğlu E., Aktürk E., Korkmaz H., Sincer İ., Yılmaz M., Erdem K., Celik A., Ozdemir R. (2013). Elevated red blood cell distribution width in healthy smokers. Turk. Kardiyol. Dern. Ars., 41: 199–206. Search in Google Scholar

Lewis T.T., Everson-Rose S.A., Powell L.H., Matthews K.A., Brown C., Karavolos K., Wesley D. (2006). Chronic exposure to everyday discrimination and coronary artery calcification in African-American women: the SWAN Heart Study. Psychosom. Med., 68: 362–368. Search in Google Scholar

Li W.H., Song Y.C., Zhang H., Zhou Z.J., Xie X., Zeng Q.N., Guo K., Wang T., Xia P., Chang D.M. (2017). Decreased expression of Hsa_circ_00001649 in gastric cancer and its clinical significance. Dis. Markers., 2017: 4587698. Search in Google Scholar

Lombarts A., Koevoet A., Leijnse B. (1986). Basic principles and problems of haemocytometry. Ann. Clin. Biochem., 23: 390–404. Search in Google Scholar

Ly-Chatain M.H. (2014). The factors affecting effectiveness of treatment in phages therapy. Front. Microbiol., 5: 51. Search in Google Scholar

Magdy I., El-Hady M., Ahmed H., Elmeadawy S., Kenwy A. (2014). A contribution on Pseudomonas aeruginosa infection in African catfish (Clarias gariepinus). Res. J. Pharm. Biol. Chem. Sci., 5: 575–588. Search in Google Scholar

Manna S., Bera A., Baitha R., Das N. (2023). Fish diseases and their management in inland open waters (Chapter). In: Advances in fish research: inland aquatic ecosystem health and fisheries. Narendra Publishing House, Delhi, India. Search in Google Scholar

Manoj C., Nair C.M., Patel M., Salin K. (2010). Haematobiochemical and histopathological changes in Labeo rohita infected with Aeromonas hydrophila by immersion challenge. Fishery Technol., 47: 151–160. Search in Google Scholar

Mapes A.C., Trautner B.W., Liao K.S., Ramig R.F. (2016). Development of expanded host range phage active on biofilms of multi-drug resistant Pseudomonas aeruginosa. Bacteriophage, 6: e1096995. Search in Google Scholar

Mariani E., Filardo G., Canella V., Berlingeri A., Bielli A., Cattini L., Landini M.P., Kon E., Marcacci M., Facchini A. (2014). Plateletrich plasma affects bacterial growth in vitro. Cytotherapy, 16: 1294–1304. Search in Google Scholar

McKnight I.M. (1966). A hematological study on the mountain whitefish, Prosopium williamsoni. J. Fish. Res., 23: 45–64. Search in Google Scholar

Nelson R.B. 3rd, Kehl D. (1981). Electronically determined platelet indices in thrombocytopenic patients. Cancer, 48: 954–956. Search in Google Scholar

Osselaer J.-C., Jamart J., Scheiff J.-M. (1997). Platelet distribution width for differential diagnosis of thrombocytosis. Clin. Chem., 43: 1072–1076. Search in Google Scholar

Parker D., Armstrong D. (1987). Antibiotic feed additives and livestock production. Proc. Nutr. Soc., 46: 415–421. Search in Google Scholar

Patton C., Crouch S. (1977). Enzymatic colorimetric method to determine urea in serum. Anal. Chem., 49: 464–469. Search in Google Scholar

Pereira C., Silva Y.J., Santos A.L., Cunha Â., Gomes N.C., Almeida A. (2011). Bacteriophages with potential for inactivation of fish pathogenic bacteria: survival, host specificity and effect on bacterial community structure. Mar. Drugs, 9: 2236–2255. Search in Google Scholar

Pérez-Rostro C.I., Racotta I.S., Ibarra A.M. (2004). Decreased genetic variation in metabolic variables of Litopenaeus vannamei shrimp after exposure to acute hypoxia. JJ. Exp. Mar. Biol. Ecol., 302: 189–200. Search in Google Scholar

Petrie A., Watson P. (2013). Statistics for veterinary and animal science. John Wiley & Sons, 480 pp. Search in Google Scholar

Podeti K.R., Benarjee G. (2017). Haematological changes in South Indian fresh water murrel, Channa punctatus have both EUS and A. hydrophila infection. J. Parasit. Dis., 41: 329–335. Search in Google Scholar

Řehulka J. (2000). Influence of astaxanthin on growth rate, condition, and some blood indices of rainbow trout, Oncorhynchus mykiss. Aquaculture, 190: 27–47. Search in Google Scholar

Reitmann S. (1957). Colorimetric method for the determination of serum glutamic pyruvate and glutamic oxaaloacetate transaminase. Amer. J. Clin. Path., 28: 56–63. Search in Google Scholar

Saad A.M., Sitohy M.Z., Sultan-Alolama M.I., El-Tarabily K.A., El-Saadony M.T. (2022). Green nanotechnology for controlling bacterial load and heavy metal accumulation in Nile tilapia fish using biological selenium nanoparticles biosynthesized by Bacillus subtilis AS12. Front. Microbiol., 13: 1015613. Search in Google Scholar

Somsiri T., Soontornvit S. (2002). Bacterial diseases of cultured tiger frog (Rana tigerina), Diseases in Asian aquaculture IV. Proc. Fourth Symposium on Diseases in Asian Aquaculture, 22–26.11.1999, Cebu City, Philippines. Fish Health Section, Asian Fisheries Society, pp. 427–434. Search in Google Scholar

Soror E.M. (2020). Effect of flavomycin and synbiotic on experimentally-infected common carp with Pseudomonas aeruginosa. Benha Vet. Med. J., 39: 189–193. Search in Google Scholar

Summarwar S., Verma S. (2012). Study of selected haematological indices of freshwater fish from Bisalpur reservoir. Int. J. Fundament Appl. Lif. Sci., 2: 51–54. Search in Google Scholar

Swelum A.A., Elbestawy A.R., El-Saadony M.T., Hussein E.O., Alhotan R., Suliman G.M., Taha A.E., Ba-Awadh H., El-Tarabily K.A., Abd El-Hack M. E. (2021). Ways to minimize bacterial infections, with special reference to Escherichia coli, to cope with the firstweek mortality in chicks: an updated overview. Poultry Sci., 100: 101039. Search in Google Scholar

Vagdatli E., Gounari E., Lazaridou E., Katsibourlia E., Tsikopoulou F., Labrianou I. (2010). Platelet distribution width: a simple, practical and specific marker of activation of coagulation. Hippokratia, 14: 28–32. Search in Google Scholar

Wakabayashi H., Egusa S. (1972). Characteristics of a Pseudomonas sp. from an epizootic of pond-cultured eels (Anguilla japonica). Bull. Jpn. Soc. Sci. Fish., 38: 577–587. Search in Google Scholar

Wang F.-M., Xu G., Zhang Y., Ma L.-L. (2014). Red cell distribution width is associated with presence, stage, and grade in patients with renal cell carcinoma. Dis. Markers, 2014: 860419. Search in Google Scholar

Wotton I.D.H.F. (1982). Microanalysis in medical biochemistry. Churchill, New York, USA. Wright A., Hawkins C., Änggård E., Harper D. (2009). A controlled clinical trial of a therapeutic bacteriophage preparation in chronic otitis due to antibiotic-resistant Pseudomonas aeruginosa; a preliminary report of efficacy. Clin. Otolaryngol., 34: 349–357. Search in Google Scholar

Xia H., Tang Y., Lu F., Luo Y., Yang P., Wang W., Jiang J., Li N., Han Q., Liu F. (2017). The effect of Aeromonas hydrophila infection on the non-specific immunity of blunt snout bream (Megalobrama amblycephala). Cent. Eur. J. Immunol., 42: 239–243. Search in Google Scholar

Yang A., Pizzulli L., Lüderitz B. (2006). Mean platelet volume as marker of restenosis after percutaneous transluminal coronary angioplasty in patients with stable and unstable angina pectoris. Thromb. Res., 117: 371–377. Search in Google Scholar

Yilmaz T., Yilmaz A. (2016). Relationship between altered platelet morphological parameters and retinopathy in patients with type 2 diabetes mellitus. J. Ophthalmol., 2016: 9213623. Search in Google Scholar

Zayed M., Soliman M., Kalil R., Saad T. (2016). Isolation of Candida albicans from naturally infected freshwater fish. Kafrelsheikh Vet. Med. J., 14: 21–45. Search in Google Scholar

Zhang H., Yang Z., Zhou Y., Bao H., Wang R., Li T., Pang M., Sun L., Zhou X. (2018). Application of a phage in decontaminating Vibrio parahaemolyticus in oysters. Int. J. Food Microbiol., 275: 24–31. Search in Google Scholar