In-vitro potential of crude extracts of selected garden herbs for mastitis management in Zambia
Keywords:
Aloe vera, Curcuma longa, Mastitis, Ethno Veterinary Medicine, agar dilution
Abstract
Introduction: The advent of bovine mastitis associated antimicrobial resistance has necessitated development of alternative herbal remedies. In this study, we tested, in-vitro, the antimicrobial efficacy of three crude extracts: (1) aqueous, (2) ethanol and (3) ethyl acetate extracts of Zambian cultivated Aloe barbadensis Miller (Aloe vera) and Curcuma longa (Turmeric) and also made comparisons to synthetic anti-mastitis formulations. Methods: The active compounds of these herbs were obtained as crude extracts using water, ethanol and ethyl acetate as solvents. The test microbes comprised of ten standard controls including Escherichia coli and Pseudomonas aeruginosa and 84 field isolates (all gram positive bacteria) from clinical and subclinical mastitis milk samples from selected districts of the Southern Province of Zambia belonging to the genera Staphylococcus, Streptococcus, Bacillus and Lactobacillus. The agar dilution method was used to determine the antimicrobial activity by observing the sensitivity which was graded as sensitive, intermediate or resistant. Commercial synthetic anti-mastitis preparations served as positive controls and their sensitivity was compared to that of the herbal preparations. The Minimum Inhibitory Concentrations (MIC) of the herbal formulation was also determined using two-fold serial dilutions. Results: The agar dilution test results of the field isolates indicated 18.8% resistance, 25.3% intermediate and 56% sensitivity for the herbal extracts, while the synthetic anti-mastitis preparation averaged 16.8% resistance, 4.75% intermediate and 78.5% sensitivity. The gram negative controls tested were generally resistant. On average, the agar dilution trials revealed; 41.8% resistance, 13% intermediate and 45.3% sensitivity for the herbal formulation while the synthetic antimicrobials produced 23.5% resistance, 5.2% intermediate and 71.3% sensitivity. Mean MIC was 11.5mg/ml at the 5% serial dilution for the herbal extract compared to the Cephalexin (semi-synthetic antimicrobial) MIC for S. aureus at 0.5mg/L or 0.0005mg/ml. Conclusion: The herbs Aloe vera and Curcuma longa from Zambia showed antimicrobial efficacy on bovine mastitis causing microbes and may be used as a cheaper alternative to synthetic anti-mastitis preparations and as an aid to fight antimicrobial resistance to the benefit of the most affected and resource limited small-scale dairy farmers.References
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. Kunda B. ‘Hygienic and compositional quality of raw milk produced by smallholder dairy farmers in Lusaka province of Zambia’, Masters Dissertation, University of Zambia 2015.
. van’t Hooft KE., Groot MJ. and Gebru G. Natural Livestock Farming: Piloting a Strategy to Improve Milk Quality and Reduce Anti-Microbial Resistance. Appro Poult Dairy & Vet Sci. 2017; 1(3).
. Mushtaq S., Shah AM., Shah A., Lone SA., Hussain A., Hassan QP., et al. Bovine mastitis: An appraisal of its alternative herbal cure. Microb Pathog. 2018;114:357-361
. Balakrishnan MN., Punniamurthy N. and Kumar SK. Ethno-Veterinary Sciences and Practices for Reducing the Use of Antimicrobial and Other Veterinary Drugs in Veterinary Practices-TDU Experience. In Sejian V, Isloor S, Rahman AS, Bhatta R, editors. PCVC7 : Proceedings of the 7th Pan Commonwealth Veterinary Conference; Bengaluru, India, 3-7 March 2019.p 108
. Syakalima M., Simuunza M. and Zulu VC. Ethno-veterinary treatments for common cattle diseases in four districts of the Southern Province, Zambia, Veterinary World.2018; 11(2): 141-145
. Chinsembu KC., Negumbo J., Likando M. and Mbangu A. An ethnobotanical study of medicinal plants used to treat livestock Diseases in Onayena and Katima Mulilo, Namibia. South African Journal of Botany. 2014; 94 :101–107
. Kemm J., Parry J. and Palmer S. Health Impact Assessment, Oxford University Press, Oxford, United Kingdom, 2004.
. Punniamurthy N. 2017. Ethnoveterinary herbal health care of dairy cattle. In Ranganathan V., Senthil K P. and Elamaran A.(ed), Propagation of EthnoVeterinary Herbal Knowledge. Tamil Nadu, India: Shanlax Publications, pp 95-96
. Clinical and Laboratory Standards Institute. “Methods for dilution antimicrobial susceptibility tests for bacteria that grow aerobically; approved standard-eighth edition. 2009, M07-A8." National Committee for Clinical Laboratory Standards 29
. Bruno SJP. Characterisation of staphylococcus aureus associated with the dairy value chain in Western, Lusaka and Southern provinces of Zambia: Reducing the risk of virulent, enterotoxigenic and antibiotic resistant strains to consumers. PhD Thesis, University of Zambia, Zambia. Forthcoming 2021
. Tenhagen BA., Vossenkuhl B., Kasbohrer A., Alt K., Kraushaar B., Guerra B., et al. Methicillin-resistant Staphylococcus aureus in cattle food chains - prevalence, diversity, and antimicrobial resistance in Germany. Journal of Animal Science, 2014; 92, 2741-2751.
. Bisen PS., Prasad GBKS. and Debnath M. 2012. Microbes: Concepts and applications. John Wiley & Sons, Inc, USA
. Punniamurthy N. and Ramakrishnan N. Antimicrobial Activity of Ethno Veterinary Herbal Fresh Preparation for Mastitis. Kerala Veterinary Congress, Kerala, India, 2015, pp 398-401
. Balakrishnan MN., Punniamurthy N., Mekala P., Ramakrishnan N. and Kumar SK. Ethno-veterinary Formulation for Treatment of Bovine Mastitis. Journal of Veterinary Sciences. 2017, S1, pp25-29.
. Rocha RP., Melo EC. and Radunz LL. Influence process on the quality of medicinal plants: A review, Journal of Medicinal Plants Research, 2011, 5(33): 7076-7084of drying
. Rocha RP., Melo EC. and Radunz LL. Influence process on the quality of medicinal plants: A review, Journal of Medicinal Plants Research, 2011, 5(33): 7076-7084of drying
. Alemdar S. and Agaoglu S. Investigation of In-vitro Antimicrobial Activity of Aloe vera juice. Journal of Animal and Veterinary Advances, 2009, 8: 99-102.
. Langdon A, Crook N, Dantas G. The effects of antibiotics on the microbiome throughout development and alternative approaches for therapeutic modulation. Genome Med. 2016; 8(1):39.
. Ben-Ami R., Olshtain-Pops K., Krieger M., Oren, I., Bishara, J., et al. “Antibiotic exposure as a risk factor for fluconazole-resistant Candida bloodstream infection.” Antimicrobial agents and chemotherapy. 2012, vol. 56,5: 2518-23
. Soll DR., 2002. Mixed Mycotic Infections. In: Brogden KA, Guthmiller JM, editors. Polymicrobial Diseases. Washington (DC), ASM Press; Chapter 17. Available from: https://www.ncbi.nlm.nih.gov/books/NBK2485/
. Eriksson L. Prevalence of subclinical mastitis and udder pathogens in small holder dairy farms in Mapepe, Batoka and Choma areas in Zambia, Examensarbete, 2013:64
. Laher F., Aremu AO., Van Staden J. and Finnie JF. Evaluating the effect of storage on the biological activity and chemical composition of three South African medicinal plants, South African Journal of Botany. 2013,Vol 88, pp 414-418,
. Punniamurthy N. and Ramakrishnan N. Antimicrobial Activity of Ethno Veterinary Herbal Fresh Preparation for Mastitis. Kerala Veterinary Congress, Kerala, India, 2015, pp 398-401
. Andrews JM. Determination of minimum inhibitory concentrations. Journal of Antimicrobial Chemotherapy, 48 Suppl, 2001. S1 5-16.
Balakrishnan MN. and Punniamurthy N. Ethno-Veterinary Practices (EVP) as a New Approach for Management of Cattle Health without Antimicrobial and Other Chemical Veterinary Drugs. EC Veterinary Science. 2021; 6.5.
Published
2021-07-05
How to Cite
1.
Ngwisha J, Samutela M, Phiri B, Zulu M, Mwasinga W, Balakrishnan N, Choongo K, Hang’ombe B. In-vitro potential of crude extracts of selected garden herbs for mastitis management in Zambia. Journal of Agricultural and Biomedical Sciences [Internet]. 5Jul.2021 [cited 23Dec.2024];5(1). Available from: https://ide.unza.zm/index.php/JABS/article/view/523
Section
Veterinary Medicine
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