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Milk fever

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Typical milk fever posture; cow in sternal recumbency with its head tucked into its flank.

Milk fever, postparturient hypocalcemia, or parturient paresis is a disease, primarily in dairy cattle[1] but also seen in beef cattle and non-bovine domesticated animals,[2] characterized by reduced blood calcium levels (hypocalcemia). It occurs following parturition (birth), at onset of lactation, when demand for calcium for colostrum and milk production exceeds the body's ability to mobilize calcium.[3] "Fever" is a misnomer, as the disease generally does not cause elevated body temperature. Milk fever is more commonly seen in older animals (which have reduced ability to mobilize calcium from bone) and in certain breeds (such as Channel Island breeds).[4]

Clinical signs

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Cow lying in sternal recumbency (with sternum in contact with the ground)

The clinical signs of milk fever can be divided into three distinct stages:

Stage 1

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In this stage, cows are mobile but show signs of hypersensitivity and excitability such as restlessness,[5] tremors, ear twitching, head bobbing, and mild ataxia.[6] If not treated, symptoms usually progress to stage 2.[7]

Stage 2

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In this stage, cows can no longer stand and present in sternal recumbency.[6] Tachycardia, weakened heart contraction and peripheral pulses are observed. Cows appear dull, have dry muzzles, cold extremities, and their body temperature drops. Smooth muscle paralysis can cause bloat, and the inability to urinate or defecate. Cows often tuck their heads into their flanks.[7]

Cow lying on its side (lateral recumbency)

Stage 3

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In this stage, lateral recumbency,[8] muscle flaccidity,[5] unresponsiveness to stimuli, and loss of consciousness progressing to coma are observed. Heart rate can approach 120 bpm, with peripheral pulses becoming undetectable. If untreated, progression will continue to death.[7]

Cause

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During the dry period (late gestation, non-lactating), dairy cattle have relatively low calcium requirements, with a need to replace approximately 30 g of calcium per day due to utilization for fetal growth and fecal and urinary losses. At birth, the requirement for calcium is greatly increased due to initiation of lactation, when mammary drainage of calcium may exceed 50 g per day.[4] Due to this large increase in demand for calcium, most cows will experience some degree of hypocalcemia for a short period following birth as the metabolism adjusts to the increased demand. When the mammary drain of plasma calcium causes hypocalcemia severe enough to compromise neuromuscular function, the cow is considered to have clinical milk fever.[3]

Mechanism

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In normal calcium regulation, a decrease in plasma calcium levels causes the parathyroid glands to secrete parathyroid hormone (PTH), which regulates the activation of vitamin D3 in the kidney. These two compounds act to increase blood calcium levels by increasing absorption of dietary calcium from the intestine, increasing renal tubular reabsorption of calcium in the kidney, and increasing resorption of calcium from bones.[4]

It has been found that tissue is less responsive to PTH prepartum, compared to postpartum. It is believed that hypocalcemia causing milk fever is due to a lower level of responsiveness of the cow's tissues to circulating parathyroid hormone.[3]

The resultant decreased plasma calcium causes hyperexcitability of the nervous system and weakened muscle contractions, which result in both tetany and paresis.[7]

Prevention

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Diet

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Proper dietary management will prevent most cases of milk fever. This generally involves close attention to mineral and fiber levels in the diet prior to calving, as well as improving cow comfort to eliminate other problems that may interfere with appetite (and so trigger hypocalcemia). General advice is to restrict calcium intake before calving, as this leads to the parathyroid gland stimulating the release of calcium from bones.[9]

Calcium salts

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A synthetic analogue of 25-hydroxycholecalciferol can be given by injection in the days leading up to calving, although the timing of this prophylaxis makes it difficult to use.[9]

Oral administration of a dose of a calcium salt in a gel has been advised by some veterinarians.[10] An orally administered bolus containing a much higher concentration of calcium than the injectable solutions can also be given so long as the cow is standing or sitting up. If the cow is lying 'flat out' then immediate intravenous therapy is required to avoid death.

Treatment

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Urination and defecation commonly occurring during calcium treatment

Treatment generally involves calcium injection by intravenous, intramuscular or subcutaneous routes. Before calcium injection was employed, treatment comprised inflation of the udder using a pneumatic pump. Inflation of the udder worked because the increased pressure created in the udder pushed the calcium in the udder back into the bloodstream of the cow.[11]

Intravenous calcium, though indicated in many cases, is potentially fatal through "heart blockade", or transient high calcium levels stopping the heart, so should be administered with care. Cows are to be fed jaggery along with the lime water mixture. In unclear cases of downer cows, intravenous calcium injection can lead to diagnosis. The typical reaction will be a generalized tremor of the skeletal muscles, and sometimes cardiac arrhythmia. Defecation, urination and eructation are frequent during the treatment, due to pharmacological effect of calcium on the smooth muscles.

Prognosis

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The prognosis is generally good, even in advanced cases. However, some cows can relapse the following day,[11] and even a third time the day after.[12] Without treatment, between 60% and 80% of cows usually die,[13][14] although death rates as high as 90% have been recorded.[5]

History

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It is thought that milk fever has existed for a very long time in dairy cattle.[15] The first reports in veterinary literature can be traced to around 1793.[13]

Early theories

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Early treatments involved venesection, but this proved ineffective.[9]

Potassium iodide

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In the late 1800s, Jurgens Schmidt proposed the use of an infused solution of potassium iodide for treatment.[15] A follow-up study of this treatment by Danish veterinarians showed that 90% of cows recovered after use of the treatment,[15] compared with only 20-40% survival without.[13][14] A study in Iowa showed that 76.5% of cows recovered after use of the treatment.[15] However, the premise of the Schmidt treatment was misleading, as later veterinarians used water alone to the same success rate.[13]

Udder inflation

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In 1901, Anderson and Evers trialled a treatment of udder inflation with air, which reduced mortality rates to just 1%.[13][16] although with the added complication of mastitis.[16] Although this was an effective treatment (and is still used as a backup today),[11] it was not understood at the time why it worked, and remains the source of some debate. Some scientists believed that udder inflation could cause stimulation that then prevents calcium loss.[17] Other scientists suggested that udder inflation prevented milk secretion, reducing calcium loss overall.[18][19] This may prevent calcium being taken from the blood plasma.[18]

Later theories

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The true cause of milk fever was first suggested by Prof John Russell Greig and Henry Dryerre in March 1925,[13] at the Moredun Research Institute in Scotland.[20] This idea was later confirmed experimentally by Little and Wright in May 1925.[13] By 1933, Pulles began treatments with magnesium chloride and calcium chloride, which is the basis for modern pharmaceutical treatments.[9]

References

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  1. ^ "Parturient Paresis in Cows - Metabolic Disorders". Veterinary Manual. Retrieved 2020-10-10.
  2. ^ "Parturient Paresis in Sheep and Goats - Metabolic Disorders". Veterinary Manual. Retrieved 2020-10-10.
  3. ^ a b c Horst, RL; Goff, JP; Reinhardt, TA; Buxton, DR (July 1997). "Strategies for preventing milk fever in dairy cattle". Journal of Dairy Science. 80 (7): 1269–80. doi:10.3168/jds.S0022-0302(97)76056-9. PMID 9241589.
  4. ^ a b c DeGaris, Peter J.; Lean, Ian J. (2008-04-01). "Milk fever in dairy cows: A review of pathophysiology and control principles". The Veterinary Journal. Special Issue: Production Diseases of the Transition Cow. 176 (1): 58–69. doi:10.1016/j.tvjl.2007.12.029. PMID 18329301.
  5. ^ a b c "Parturient paresis | animal disease". Encyclopedia Britannica. Retrieved 2020-10-11.
  6. ^ a b "Parturient Paresis - an overview | ScienceDirect Topics". www.sciencedirect.com. Retrieved 2020-10-11.
  7. ^ a b c d "Parturient Paresis in Cows: Disorders of Calcium Metabolism: Merck Veterinary Manual". www.merckvetmanual.com. Retrieved 2015-11-06.
  8. ^ Oetzel, G. R. (July 1988). "Parturient paresis and hypocalcemia in ruminant livestock". The Veterinary Clinics of North America. Food Animal Practice. 4 (2): 351–364. doi:10.1016/s0749-0720(15)31053-7. ISSN 0749-0720. PMID 3264754.
  9. ^ a b c d Murray, R. D.; Horsfield, J. E.; McCormick, W. D.; Williams, H. J.; Ward, D. (2008-11-08). "Historical and current perspectives on the treatment, control and pathogenesis of milk fever in dairy cattle". Veterinary Record. 163 (19): 561–565. doi:10.1136/vr.163.19.561. ISSN 0042-4900. PMID 18997185. S2CID 23593159.
  10. ^ Haalstra, RT (1 June 1973). "[A veterinary approach to the relationship between the diet and milk fever on farms]". Tijdschrift voor Diergeneeskunde (in Dutch). 98 (11): 529–37. PMID 4736359.
  11. ^ a b c Niedermeier, R.P.; Smith, Vearl R. (1950), "The effect of udder inflation upon blood levels of calcium, magnesium and phosphorus in cows with parturient paresis", Journal of Dairy Science, 33: 38–42, doi:10.3168/jds.S0022-0302(50)91862-5
  12. ^ Lucien Mahin (1977–2008), Observations on diseases of cattle in Morocco (unpublished data)
  13. ^ a b c d e f g Hibbs, J.W. (October 1950). "Milk Fever (Parturient Paresis) in Dairy Cows—A Review". Journal of Dairy Science. 33 (10): 758–789. doi:10.3168/jds.s0022-0302(50)91966-7. ISSN 0022-0302.
  14. ^ a b Horst, R.L.; Goff, J.P.; Reinhardt, T.A.; Buxton, D.R. (July 1997). "Strategies for Preventing Milk Fever in Dairy Cattle". Journal of Dairy Science. 80 (7): 1269–1280. doi:10.3168/jds.s0022-0302(97)76056-9. ISSN 0022-0302. PMID 9241589.
  15. ^ a b c d Repp, John J. (1901-01-01). "The Schmidt treatment for parturient paralysis". Journal of Comparative Pathology and Therapeutics. 14: 313–321. doi:10.1016/S0368-1742(01)80063-1. ISSN 0368-1742. S2CID 84618576.
  16. ^ a b Goings, Richard Lewis (1973). Efficacy of a prepartum, calcium-deficient diet in prevention of bovine parturient paresis (Thesis). Iowa State University. doi:10.31274/rtd-180813-2830.
  17. ^ Dryerre, Henry; Greig, J. Russell (July 1985). "Milk Fever: Its Possible Association with Derangements in the Internal Secretions". The Canadian Veterinary Journal. 26 (7): 224–227. ISSN 0008-5286. PMC 1680093. PMID 17422555.
  18. ^ a b Petersen, W. E.; Rigor, T. V. (1932-11-01). "Relation of Pressure to Rate and Quality of Milk Secreted". Proceedings of the Society for Experimental Biology and Medicine. 30 (2): 254–256. doi:10.3181/00379727-30-6444. ISSN 0037-9727. S2CID 88312791.
  19. ^ Garrison, E. R. ; Turner, C. W. (1936). "CAB Direct". www.cabdirect.org. Retrieved 2020-10-10.{{cite web}}: CS1 maint: multiple names: authors list (link)
  20. ^ "Phone call reveals links to Moredun's past". Moredun Magazine. No. 6. 2013. p. 1. Archived from the original on 21 August 2016.
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