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Subacute Rumenal Acidosis (view source)
Revision as of 19:40, 26 August 2010
, 19:40, 26 August 2010→Treatment
==Treatment==
==Treatment==
Because subacute ruminal acidosis is not detected at the time of depressed ruminal pH, there is no specific treatment for it. Secondary conditions may be treated as needed.
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Prevention:
The key to prevention is reducing the amount of readily fermentable carbohydrate consumed at each meal. This requires both good diet formulation (proper balance of fiber and nonfiber carbohydrates) and excellent feed bunk management. Animals consuming well-formulated diets remain at high risk for this condition if they tend to eat large meals because of excessive competition for bunk space or following periods of feed deprivation.
Field recommendations for feeding component-fed concentrates to dairy cattle during the first 3 wk of lactation are usually excessive. Feeding excessive quantities of concentrate and insufficient forage results in a fiber-deficient ration likely to cause subacute ruminal acidosis. The same situation may be seen during the last few days before parturition if the ration is fed in separate components; as dry-matter intake drops before calving, dry cows preferentially consume concentrate over fiber and develop acidosis.
Subacute ruminal acidosis may also be caused by errors in delivery of the rations or by formulation of rations that contain excessive amounts of rapidly fermentable carbohydrates or a deficiency of fiber. Recommendations for the fiber content of dairy rations are available in the National Research Council report, Nutrient Requirements of Dairy Cattle (see nutrition: dairy cattle, ). Dry-matter content errors in total mixed rations are commonly related to a lack of adjustment for changes in moisture content of forages.
Including long-fiber particles in the diet reduces the risk of subacute ruminal acidosis by encouraging saliva production during chewing and by increasing rumination after feeding. However, long-fiber particles should not be easily sorted away from the rest of the diet; this could delay their consumption until later in the day or cause them to be refused completely.
Ruminant diets should also be formulated to provide adequate buffering. This can be accomplished by feedstuff selection and/or by the addition of dietary buffers such as sodium bicarbonate or potassium carbonate. Dietary anion-cation difference is used to quantify the buffering capacity of a diet.
Supplementing the diet with direct-fed microbials that enhance lactate utilizers in the rumen may reduce the risk of subacute ruminal acidosis. Yeasts, propionobacteria, lactobacilli, and enterococci have been used for this purpose. Ionophore (eg, monensin sodium) supplementation may also reduce the risk by selectively inhibiting ruminal lactate producers; however, ionophores are not currently approved for use in lactating dairy cows in North America
==Prognosis==
==Prognosis==