Chocolate Poisoning-Dog

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Chocolate

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Introduction

Toxicity is due to the presence of methylxanthines such as theobromine and caffeine in chocolate ^[1]. Concentrations ranging from of 100-250mg/kg of theobromine and 110-200mg/kg of caffeine have been reported to cause fatalities ^[1]. The consumption of more than 20mg/kg of total methylxanthines, the dose at which mild signs such as vomiting, diarrhoea and polyuria are induced ^[1], is considered the cut-off point in deciding whether or not to treat ^[1]. The concentration of methylxanthines differs between products ^[1] and therefore the number of grammes required to reach this threshold vary according to the product; in a 10kg dog 5000g of white chocolate provides the equivalent 20mg/kg dose of methylxanthines that 12-40g of plain chocolate, 83-117g of milk chocolate or 7-25g of cocoa powder does ^[1]. Methylxanthines are also present in beverages and foods other than chocolates ^[1].

Signalment

Dog that live indoors are more likely to have access to chocolate. Also puppies and dogs that scavenge are at a greater risk of eating food that is not intended for their consumption. Small breeds of dogs may reach the toxic level of methylxanthine concentration per body weight more easily ^[1].

Diagnosis

Clinical Signs

Chocolate poisoning results in CNS, gastrointestinal, cardiovascular, respiratory and urological signs.^[1], ^[2] which are evident soon after ingestion of a toxic amount of chocolate ^[1]

• CNS: hyperactivity, behavioural changes, ataxia, muscle tremors, clonic seizures and hyperthermia ^[1], ^[2], ^[1]
• Gastrointestinal: diarrhoea, emesis, haematemesis ^[1], ^[2]
• Cardiovascular: arrhythmias,tachycardia, bradycardia sometimes, hypotension ^[1], ^[2]
• Respiratory: tachypnoea ^[1].
• Urological: polydypsia and polyuria may also be present ^[1]

Laboratory Tests

Diagnosis is usually on the basis of clinical signs and a known history of chocolate ingestion ^[3]. The following laboratory tests are possible but not commonly used;

• Assays for detection of methylxanthines in bodily fluids such as plasma, urine and stomach contents ^[1].
• Blood Glucose: Hypoglycaemia as a sequela to hyperactivity. not seen consistently with chocolate poisoning ^[1].
• Urinalysis: Proteinuria, low specific gravity; not seen consistently with chocolate poisoning ^[1].

Other

• ECG: rate and rhythm abnormalities

Pathology

Following absorption from the gastrointestinal tract caffeine and theobromine are metabolised in the liver ^[1].

• Antagonism of Adenosine Receptors:^[1] this antagonism results in stimulation of the central nervous system, vasoconstriction and increase in heart rate ^[1] and also diureses ^[1]
• Inhibition of Cyclic Nucleotide Phosphodiesterase:^[2] consequently there is an increase in cyclic AMP, which in turn leads to greater catecholamine release and their effects ^[1].
• Modulation of Intracellular Calcium Concentrations:Enhanced uptake and decreased sequestration within the cell leads to amplification of intracellular calcium levels in cardiac and skeletal muscle, the net result of which is a positive inotropic effect on these muscles. ^[1].

Ventricular fibrillation, and other cardiac dysrhythmias are most frequently the ultimate cause of death.^[4], ^[5]

Treatment

• Of dogs presenting with clinical signs
  • Inital stabilisation of Cardiorespiratory System:
    • Tachycardia: beta-blockers, eg orally administered metoprolol at a dose of 0.5mg to 1mg per kg every 8 hours ^[1].
    • Premature Ventricluar Contractions: slow intravenous bolus of 2mg to 6mg per kg of lidocaine. Following this a constant rate infusion of 20ug to 70ug per kg per minute ^[1]
    • Bradycardia: Atropine at a dose of 0.01mg to 0.02mg per kg ^[1]

• • Once stable treat as outlined below
• Of dogs with a known history of recent chocolate ingestion but who have not yet developed clinical signs

Prognosis

References