Rhabdomyolysis in horses
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Transcript Rhabdomyolysis in horses
Rhabdomyolysis
in Equus caballus (horse)
By R.Rampersadh (205515894)
Possible human homologue (MIM number): 268200
MIA number: Phene ID 2032, Group 001158
Genes associated with Rhabdomyolysis in Equus caballus: GYS1:
glycogen synthase 1 (muscle), also known as GSY, GYS.
Gene map location: 2p21
Symbol: PSSM
Cross Species Summary: Rhabdomyolysis. Disintegration of muscle fibres,
with consequent excretion of myoglobin in the urine.
Summary: Valber et al. (1996) identified a polysaccharide storage
myopathy (a glycogen storage disorder) with consequent excretion of
myoglobin in the urine. associated with exertional rhabdomyolysis in
Quarter-horse related breeds.
Species Specific Name: Equine rhabdomyolysis syndrome; Polysaccharide
storage myopa
Inheritance: The disorder is familial, and there are suggestions of
autosomal recessive inheritance. However, the published data are
inconclusive on this point (Valberg et al., 1996). Dranchak et al. (2005)
performed a segregation analysis that excluded all forms of single-locus
inheritance other than autosomal dominant.
Single Locus: Yes
Characterised at a molecular level: Yes
Phenotype Considered a Defect: Yes
Clinial Features and Pathology: Widespread presence of subsarcolemmal
vacuoles and PAS-positive inclusions (Valberg et al., 1996).
Human Genes and Disorders: MYOGLOBINURIA, ACUTE
RECURRENT, AUTOSOMAL RECESSIVE. Recurrent myoglobinuria is
characterized by recurrent attacks of rhabdomyolysis associated with
muscle pain and weakness and followed by excretion of myoglobin in the
urine.
CLINICAL SIGNS
Signs can be extremely variable and severely overlap with
other muscle disorders.
In severe cases, they can be confused with signs of colic.
Adequate diagnosis requires examination of blood serum as
well as muscle biopsy. Occasionally electromyography can be
useful as well (Beech,1997).
Mild forms - muscle spasms and exhibits a slightly restricted
gait, a transient stiffness, or shortened stride during exercise.
After exercise, if the episode persists - weight shifting, partial
posturing or an anxious expression with muscle spasms. At
times - violent and appear to mimic signs for colic. Profuse
sweating may follow, along with limb weakness.
CLINICAL SIGNS CONT…
In severe cases - collapse and are unable to rise, coffee-colored
urine (myogloburia)
In chronic cases - a horse will tie up under moderate exercise
one day and not another day under more strenuous exercise.
In endurance horses - conditions of extreme physical exertion.
Because these horses predominantly use Type I fibers including rapid heart rate, dehyration, hyperthermia,
synchronous diaphragmatic flutter and collapse.
DIAGNOSIS
- Exhibition of clinical signs
- Elevated CK and AST concentrations - Muscle biopsies
- Electromyography
MUSCLE BIOPSY SAMPLES
- Muscles used most frequently for biopsies to diagnosis ER are the mid
gluteal and semimembranous muscles, which are normally mostly
comprised of Type II fibers.
- Biopsies continually reveal that Type II fibers are more severely affected
than Type I. In vitro testing has shown that thresholds of Ca++-induced
calcium release in heavy sarcoplasmic reticulum fractions was lower in
affected horses (Beech,1993).
- Gluteal muscle stained with periodic acid-Schiff stain (PAS) helps to
specifically diagnosis PSSM. In normal horses, the stain uniformly takes
over the muscle completely throughout. In PAS-positive stains, only some
fibers become stained, with noticable light areas around them
(Valberg,1997).
DIAGNOSIS CONT…
ELECTROMYOGRAPHY (EMG)
The technique uses an instrument called an
electromyograph in order to record the physiological
properties of muscle at rest. While this techinique is
not widely used to diagnosis ER, it has proved to be
helpful in detecting abnormal electrical activity in
muscles which are sometimes produced by myotonic
discharges (Beech,1997).
POLYSACCHARIDE STORAGE MYOPATHY
has been marked as a distinct cause of exertional rhabdomyolysis in certain breed
lineages.
classified as a glycogen-storage disease characterized by high muscle glycogen
concentration (1.5 to 4 times greater than those reported for horses with RER),
accumulation of an abnormal polysaccharide, subsarcolemmal vacuoles, and fiber
necrosis.
PSSM horses generally have a calm disposition and exhibit such signs as tucked-up
abdomen, muscle fasiculations in the flank, stiff gait, camped-out stance and severe
cramping of hindlimb and tricep muscles soon after beginning light exercise.
The accompaniment of high glycogen concentration with rhabdomyolysis has
occurred in humans and other species as well. These are commonly due to heritable
defects in genes coding for enzymes important in glycolysis in the muscle cell. It
has become generally accepted as a genetic disorder
A diagnosis of PSSM is based on the presence of muscle fibers with
subsarcolemmal vacuoles, dark periodic acid-Schiff (PAS) staining for glycogen,
and most notably, amylase-resistant abnormal complex polysaccharide
accumulation.
RECURRENT EXERTIONAL
RHABDOMYOLYSIS (RER)
Due to abnormal regulation of intracellular calcium in skeletal muscles. It appears
there is intermittent disruption of muscle contraction, particularly when horses
susceptible to the condition are fit and have a nervous temperament.
Determination of the cause of chronic tying-up include a serum chemistry panel,
blood vitamin E and selenium concentrations, urinalysis to determine electrolyte
balance, dietary analysis, exercise testing, and muscle biopsy.
An exercise challenge test is useful to detect subclinical cases. In addition,
quantifying the extent of exertional rhabdomyolysis during mild exercise is helpful
in deciding how rapidly to reinstate training.
Diagnosis of recurrent exertional rhabdomyolysis is based on history, clinical signs,
elevations in serum CK and AST, and muscle biopsy. Quarter Horses with PSSM
have enhanced sensitivity to insulin, resulting in high muscle glycogen
concentrations.
CONTROL
Thus, the ideal diet – provide >15% of digestible energy as fat and limits
starch to <10% of daily digestible energy by limiting grain or replacing it
with a fat supplement.
Caloric needs should be assessed first to prevent horses becoming obese on
a high-fat diet. Improvement in signs of exertional rhabdomyolysis for
horses with PSSM requires both dietary changes and gradual increases in
the amount of daily exercise and turn-out.
Management of recurrent exertional rhabdomyolysis - decreasing the
triggering factors for excitement and pharmacologic alteration of
intracellular calcium flux with contraction.
Management changes that may decrease excitement include minimizing
stall confinement by using turn-out or a hot walker, exercising and feeding
horses with recurrent exertional rhabdomyolysis before other horses,
providing compatible equine company, and the judicious use of low-dose
tranquilizers during training.
CONTROL CONT…
A high-fat, low-starch diet – decreases excitement. In contrast to PSSM,
horses that have RER often require higher caloric intakes. At these high
caloric intakes, specialized feeds designed for exertional rhabdomyolysis
are necessary, as additional vegetable oil or rice bran cannot supply enough
calories for athletes in intense training. Hay should be fed at 1.5-2% of
body weight and high-fat, low-starch concentrates should be selected that
provide ≤ 20% of daily digestible energy as nonstructural carbohydrate and
20-25% of digestible energy as fat.
Dantrolene given 1 hr before exercise to horses that are not fed prior to
exercise may decrease the release of calcium from the calcium release
channel.
Phenytoin has also been advocated as a treatment. Therapeutic levels vary,
so oral dosages are adjusted.