LEC 9 - NUTRITIONAL DEFICIENCIES.pdf

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NUTRITIONAL
DEFICIENCIES
 Reports of uncomplicated nutrient deficiencies in horses are rare.
The nutrients most likely to be deficient are caloric intake, protein,
calcium, phosphorus, copper, sodium chloride, and selenium,
depending on age and type of horse and geographic area.
Signs of deficiency are frequently nonspecific, and diagnosis may be
complicated by deficiencies of several nutrients simultaneously.
Simple excesses are more common in some regions
Nutrients most commonly given in excess of needs, leading to toxicity,
metabolic disorders, or induced deficits of other nutrients, are energy,
phosphorus, iron, copper, selenium, and vitamin A.
ENERGY DEFICIENCY
Many nonspecific changes found in horses with caloric deficiency
can result from inadequate intake, maldigestion, or malabsorption.
Weight loss is the cardinal sign of inadequate energy intake.
In partial or complete starvation, most internal organs exhibit some
atrophy.
The brain is least affected, but growth, reproduction, and
performance ability are most affected.
The immune system is also adversely affected.
The young skeleton is extremely sensitive, and growth slows or may
completely stop.
 A decrease in adipose tissue is an early and conspicuous sign and is
seen not only in the subcutis but also in the mesentery; around the
kidneys, uterus, and testes; and in the retroperitoneum.
Low-fat content of long bone marrow is a good indicator of
prolonged inanition.
ENERGY EXCESS
Overfeeding high-calorie feeds results in obesity in adult horses and
may contribute to developmental orthopedic disease in young,
rapidly growing horses.
However, some horses, especially those that are sedentary, can
become obese on only good quality hay or pasture.
 Obesity increases the risk of laminitis (presumably associated with
relative insulin resistance) and colic, due to strangulation of the small
intestine by pedunculated mesenteric lipomas.
Obese horses and ponies have reduced heat and exercise tolerance
PROTEIN DEFICIENCY
A deficiency of dietary protein may be caused by either inadequate
intake or lack of a specific essential amino acid.
The effects of deficiency are generally nonspecific, and many of the
signs do not differ from the effects of partial or total caloric
restriction
In general, the horse will have a poor quality haircoat and hoof
growth, weight loss, and inappetence.
 Milk production is decreased in lactating mares, and rapidly growing
foals will be stunted.
Antibody formation is also reduced and will affect immunity.
MINERAL DEFICIENCIES AND EXCESSES
1. Phosphorus Deficiency
Phosphorus deficiency is most likely in horses being fed poor-quality
grass hay or pasture without grain
Serum inorganic phosphorus concentrations may be decreased, and
serum alkaline phosphatase activity increased
Occasionally, serum calcium levels may be increased
An insidious shifting lameness may be seen. Bone changes resemble
those described for calcium deficiency.
 Affected horses may start to consume large quantities of soil or
exhibit other manifestations of pica before other clinical signs are
apparent.
2. Salt Deficiency:
Horses are most likely to develop signs of salt (NaCl) deficiency
when worked hard in hot weather
Sweat and urinary losses are appreciable
Horses deprived of salt tire easily, stop sweating, and exhibit
muscle spasms if exercised strenuously
Hemoconcentration and acidosis may be expected
 Anorexia and pica may be evident in chronic
deprivation, although these are not specific signs of salt deficiency.
In lactating mares, milk production seriously declines
Polyuria and polydipsia secondary to renal medullary washout may
be seen in prolonged deficits
3. Potassium:
Chronic dietary deficiency of potassium results in a decreased rate of
growth, anorexia, and perhaps hypokalemia.
However, most forages contain more than sufficient potassium for
the average horse.
Acute deficits due to sweat losses are more likely and may cause
 muscle tremors, cardiac arrhythmias, and weakness.
Excess potassium intake, especially if given as a bolus PO or IV, also
will induce cardiac arrhythmias such as atrial fibrillation.
4. Magnesium
Foals fed a purified diet containing magnesium at 8 mg/kg (3.6 mg/lb)
exhibited hypomagnesemia, nervousness, muscular tremors, and
ataxia followed by collapse, with increased respiratory rates, sweating,
convulsive paddling, and death after a few weeks.
However, most commonly used feeds contain magnesium well in
excess of the 70–100 mg/kg dry ration currently recommended.
5. Iron
Iron deficiency may be secondary to parasitism or chronic blood
 Loss and results in microcytic, hypochromic anemia.
However, it is highly unlikely that even anemic horses are iron
deficient.
Iron excess interferes with copper metabolism and also causes
microcytic, hypochromic anemia.
Blood transferrin concentrations are the most reliable method to
determine the iron status of a horse.
6. Zinc:
Zinc deficiency in foals causes reduced growth rate, anorexia,
cutaneous lesions on the lower extremities, alopecia, decreased
blood levels of zinc, and decreased serum alkaline phosphatase
activity.
 Excesses (>1,000 ppm) were associated with developmental
orthopedic disease in young horses.
The effects of excesses or deficits of zinc have not been documented
in adult horses.
7. Copper
An apparent relationship between low blood copper concentrations
and uterine artery rupture in aged parturient mares suggests
reduced copper absorption with age or reduced ability to mobilize
copper stores.
Dietary deficiency may cause aortic aneurysm, contracted tendons,
and improper cartilage formation in growing foals.
Excessive copper intake may interfere with selenium and/or iron
metabolism.
8. Selenium
Selenium deficiency results in reduced serum selenium, increased AST
activity, white muscle disease, and perhaps rhabdomyolysis in working
horses.
Selenium excesses of as little as 5 ppm in the ration cause loss of mane
and tail hairs and sloughing of the distal portion of the hoof.
9. Vitamins
A vitamin A deficiency may develop if dried, poor-quality roughage is
fed for a prolonged period.
If body stores of vitamin A are high, signs may not appear for several
months.
The deficiency is characterized by nyctalopia, lacrimation,
keratinization of the cornea, susceptibility to pneumonia, abscesses of
 the sublingual gland, incoordination, impaired reproduction,
capricious appetite, and progressive weakness.
Hooves are frequently deformed
Metaplasia of the intestinal mucosa and achlorhydria have been
reported.
Genitourinary mucosal metaplasia may be expected.
Bone remodeling is defective.
The foramina do not enlarge properly during early growth, and
skeletal deformities are evident.
10. Vitamin E
is very labile and quickly lost with storage in both hays and
 commercial feeds.
It is an important antioxidant, and deficiency has been reported to
be associated with an increased incidence of rhabdomyolysis,
impaired immune function, reproductive failure, and ocular lesions.
Some prolonged, aggressive antibiotic treatments, such as
recommended for equine protozoal myelitis, have also been reported
to induce vitamin E deficits.
11. Vitamin D
If sun-cured hay is consumed or the horse is exposed to sunlight, it is
doubtful a vitamin D deficiency will develop.
Prolonged confinement of young horses offered only limited
amounts of sun-cured hay may result in reduced bone calcification,
 stiff and swollen joints, stiffness of gait, irritability, and reduced
serum calcium and phosphorus.
Clinical signs are easily reversible with supplementation or exposure
to sunlight.
12. Thiamine
Signs of experimental thiamine deficiency include anorexia, weight
loss, incoordination, decreased blood thiamine, and increased blood
pyruvate.
At necropsy, the heart is dilated.
Similar signs have been seen in bracken fern poisoning.
 Under normal circumstances, the natural diet plus synthesis by
microorganisms in the gut probably meet the need for thiamine.
However, needs may be increased by stress.
13. Zinc
Zinc deficiency in foals causes reduced growth rate, anorexia,
cutaneous lesions on the lower extremities, alopecia, decreased
blood levels of zinc, and decreased serum alkaline phosphatase
activity.
Excesses (>1,000 ppm) were associated with developmental
orthopedic disease in young horses.
The effects of excesses or deficits of zinc have not been documented
in adult horses.
EQUINE NUTRITIONAL DISEASES
Equine nutritional diseases can adversely affect the animals’
performance and health
Categories
1. Directly related to nutrition - completely preventable with proper
nutrition and supplementation management
2. Indirectly related to nutrition - are not usually preventable, or
curable but proper nutrition can play an important role in
managing the disease.
3. Combination of the two.
Diseases Directly Related to Nutrition
1. Obesity
2. White Muscle Disease
3. Developmental Orthopedic Disease
4. Mycotoxicosis (Mycotoxin poisoning)
5. Nutritional Secondary Hyperparathyroidism (NSH)
Diseases Indirectly Related to Nutrition
1. HYPP
2. Insulin Resistance
3. Enterolithiasis (intestinal calculi)
4. Polysaccharide Storage Myopathy (PSSM or EPSM)
Diseases That Are a Combination of Both
1. Laminitis
2. Equine Colic
3. Equine Gastric Ulcer Syndrome (Equine Ulcers)
Have a Nice Day!