29-Title: Serum mineral and metabolic profile of healthy, subclinical and clinical mastitic Sahiwal cows in different stages of lactation
Authors: Pawanjit Singh, R Nigam, Vijay Pandey and Ambika Sharma
Source: Ruminant Science (2024)-13(1):157-160.
Abstract
How to cite this manuscript: Singh Pawanjit, Nigam R, Pandey Vijay and Sharma Ambika (2024). Serum mineral and metabolic profile of healthy, subclinical and clinical mastitic Sahiwal cows in different stages of lactation. Ruminant Science 13(1):157-160.
Abstract
The present study was conducted on blood samples of lactating Sahiwal cows. The animals were divided into three groups, namely control/healthy group, subclinical mastitis (SCM) and clinical mastitis (CM) group based on screening by somatic cell count (SCC), California mastitic test (CMT) and electrical conductivity test (ECT) on the milk samples. The stage of lactation was found to affect the biochemical profile in serum. It revealed a significant increase in calcium, phosphorus, copper, glucose, cholesterol, LDH and AST and a decrease in total protein in mid and late lactation compared to early lactation in healthy animals. Similarly, cows having SCM showed a significant increase in calcium, phosphorus, sodium, glucose, cholesterol and a decrease in total protein and MDA in mid and late lactation.
References
Choudhary Sangita, Joseph Bincy, Sharma Sandeep Kumar, Shekhawat Surendra Singh and Mohammed Nazeer (2022). Detection of extended-spectrum beta-lactamase and carbapenemase resistant Klebsiella pneumoniae in bovine milk. Ruminant Science 11(1):93-100.
Das Gunjan, Lalnunpuia C, Sarma K, Behera SK, Dutta TK and Bandyopadhyay Samiran (2015). Prevalence of Staphylococcus aureus associated sub-clinical mastitis in crossbred cows in Mizoram. Ruminant Science 4(2):167-170.
Diwakar, Akriti, Choudhary Sunita, Meena Dhirendra, Bhati Taruna and Kataria AK (2019). Antibiotic sensitivity pattern of some Staphylococcus aureus isolates from milk from goats with clinical mastitis. Ruminant Science 8(1):19-22.
Erdal K and Yildiz H (2012). Levels of vitamin A, C, E with malondialdehyde in blood and milk serum in subclinical mastitis cows. Journal of Animal and Veterinary Advances 11(13):2284-2288.
Kachhawa JP, Singh AP, Gupta SR, Sain ML, Yadav Rajendra, Nayak TC and Choudhary Sunita (2022). Ameliorative effect of Withania somnifera on oxidative stress of crossbred cows suffered with subclinical mastitis. Ruminant Science 11(2):441-444.
Kumar Vaibhav, Patel JS, Patel BR, Mevada VK and Raval AP (2012). Therapeutic efficacy of antimicrobial drugs in clinical mastitis of cross bred cattle. Ruminant Science 1(2):177-180.
Kolmer EH and Spaulding HW (1951). Robinson Approved Laboratory Techniques. Appleton Century Crafts, New York, pp 1090-1091.
Langer Anil, Ahuja Anil and Bihani DK (2014). Diagnosis of mycotic mastitis in cow. Ruminant Science 3(2):235-236.
Madushanka DNN, Padmakumara HMS, Kumarasinghe GDN, Sanjeewa MPK and Magamage MPS (2017). Effect of two different bedding systems on udder health management of dairy cows. Ruminant Science 6(1):1-6.
Matei ST, Groza I, Andrei S and Bogdan L (2010). Serum metabolic parameters in healthy and subclinical mastitis cows. Bulletin UASVM, Veterinary Medicine 67(1):1101-114.
Nirmali WKR, Priyabhashana AHL, Bandara AMS and Magamage MPS (2018). Assessment of milk quality of upcountry diary farm in Sri Lanka. Ruminant Science 7(1):1-4.
Pandey V, Pratiksha A, Gupta SK, Sharma N and Sharma D (2012). Impact of subclinical mastitis on blood biochemistry of dairy cows. Indian Journal of Animal Science 82 (5):477-478.
Parasana DK, Javia BB, Fefar DT, Barad DB and Ghodasara SN (2021). Molecular characterization and antimicrobial-resistant pattern of Streptococcus species isolated from bovine mastitis in and around Junagadh district. Ruminant Science 10(2):247-252.
Parmar VL, Prasad Amit, Patel JS, Dodiya PG, Javia BB and Mathpati BS (2015). Therapeutic management of clinical mastitis caused by Pseudomonas SPP with special reference to homeopathy medicine in Jafarabadi buffalo – A case study. Ruminant Science 4(2):245-246.
Raorane Abhay, Chothe Shubhadha, Dubal ZB, Barbuddhe SB, Karunakaran M, Doijad Swapnil, Pathak Ajay, Poharkar Krupali and Singh NP (2013). Antimicrobial resistance of the pathogens isolated from bovine mastitis in Goa. Ruminant Science 2(2):139-144.
Poojitha R, Shrivastav A, Kumar N, Shrivastav N, Singh SK and Ranjan R (2022). Study of antibiotic resistance pattern in isolated extended spectrum beta-lactamase producing bacteria from milk of healthy cattle. Ruminant Science 11(1):187-192.
Santos MT, Valles J, Aznar J and Vilches J (1980). Determination of plasma malondialdehyde-like materials and its clinical application in stroke patients. Journal of Clinical Pathology 33:973-976.
Sharma RK and Sangha SPS (2009). Lipids. In: Basic Techniques in Biochemistry and Molecular Biology. International Publishing House Pvt. Ltd. New Delhi. pp 101-102.
Singh H (1999). Electrolyte and mineral status in buffaloes at different stages of lactation and clinical mastitis. MVSc thesis submitted to PAU, Ludhiana, Punjab, India.
Singh Pawanjit, Nigam Rajesh, Kumar Amit and Pandey Vijay (2018). Isolation and molecular characterization of pathogens associated with mastitis in Sahiwal cows. Ruminant Science 7(1):43-46.
Singh R, Bhardwaj RK, Azad MS and Beigh SA (2014). Effect of mastitis on haemato-biochemical and plasma mineral profile in crossbred cattle (SKUAST-J) RS Pura, Jammu. Indian Journal of Animal Research 48(1):63-66.
Sunita, Diwakar and Kataria AK (2017). Antibiotic resistance pattern of Staphylococcus aureus isolated from milk of cattle with clinical mastitis. Ruminant Science 6(2):319-322.
Yildiz H and Kaygusuzoðlu E (2005). Investigation of Ca, Zn, Mg, Fe and Cu concentrations in blood and milk of cows with negative and positive CMT results. University of Firat, 23119 Elazig, Turkey. Bulletin of the Veterinary Institute in Pulawy 49:209-213.
Zaki MS, El-Batrawy N, Mostqfa SO, Fawzi OM and Awad I (2010). Some biochemical studies on friesian suffering from subclinical mastitis. Nature and Science 8(4):143–46.