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  • Author or Editor: Lynn R. Hovda x
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Abstract

Case Description—2 dogs and a cat were inadvertently given penicillin G procaine–penicillin G benzathine IV instead of propofol during induction of anesthesia for routine dental prophylaxis. One dog and the cat required hospitalization because of severe neurologic impairment and cardiopulmonary arrest (cat); the remaining dog did not develop any clinical signs.

Clinical Findings—In the 2 animals that developed signs consistent with an immediate adverse reaction, clinical signs included muscle tremors, seizures, blindness, vocalization, agitation, and transient loss of vision. Hypothermia, pruritus, hypotension, and cardiac arrest were also documented.

Treatment and Outcome—The 2 affected patients responded to treatment with anticonvulsant medications, centrally acting muscle relaxants, sedation, and intensive supportive care including IV fluid administration and oxygen supplementation as needed. Cardiopulmonary cerebral resuscitation was performed successfully in the cat. The dog that did not develop any clinical signs was not treated. The 2 affected patients recovered fully and were discharged from the hospital after 3 to 4 days with no apparent sequelae.

Clinical Relevance—Penicillin G procaine–penicillin G benzathine and propofol are common drugs in veterinary practice and may both be administered to patients undergoing elective procedures. Because of their similar milky white appearance, veterinarians should label syringes and take care to avoid this medication error. There is no specific antidote for penicillin orprocaine toxicosis. Aggressive and immediate treatment is required in patients that develop an adverse reaction to ensure a successful outcome.

Full access
in Journal of the American Veterinary Medical Association

Abstract

Objective—To evaluate signalment, clinical signs, dose ingested, treatment requirements, duration of hospitalization, and outcome of dogs exposed to phenylpropanolamine.

Design—Retrospective case series.

Animals—170 dogs with potential PPA toxicosis evaluated between 2004 and 2009.

Procedures—Dogs with potential PPA toxicosis were identified by reviewing the electronic database of an animal poison control center.

Results—66 of the 170 (39%) dogs reportedly did not develop any clinical signs. Clinical signs reported in the remaining 104 (61%) dogs included agitation (n = 40), vomiting (27), mydriasis (19), lethargy (17), tremor or twitching (16), panting (15), bradycardia (13), tachycardia (12), hypertension (11), and erythema (8). Median dose ingested for all dogs was 29 mg/kg (13.2 mg/lb). Dogs developing clinical signs had a significantly higher median dose ingested (373 mg/kg [170 mg/lb]) than did dogs that did not develop clinical signs (18 mg/kg [8.2 mg/lb]). Likewise, median dose ingested for the 123 dogs treated as inpatients (36.9 mg/kg [16.8 mg/lb]) was significantly higher than the median dose for the 14 dogs treated as outpatients (20.5 mg/kg [9.3 mg/lb]). Median duration of hospitalization was 18 hours (range, 4 to 72 hours), and hospitalization time increased as the dose ingested increased. Survival rate was 99.4% (169/170); the dog that died had ingested a dose of 145 mg/kg (65.9 mg/lb).

Conclusions and Clinical Relevance—Results suggested that with supportive care, the prognosis for dogs that had ingested an overdose of phenylpropanolamine was excellent.

Full access
in Journal of the American Veterinary Medical Association
in Journal of the American Veterinary Medical Association

Abstract

Objective—To identify dogs and cats with baclofen toxicosis and characterize the patient population, clinical signs, and outcome.

Design—Retrospective case series.

Animals—140 dogs and 5 cats with baclofen toxicosis.

Procedures—An animal poison control center electronic database was reviewed from November 2004 through April 2010 to identify dogs and cats with baclofen toxicosis. Information on signalment, clinical signs, and amount of baclofen ingested was obtained. Clinical signs were categorized as CNS, gastrointestinal, general malaise, cardiovascular, respiratory, or urogenital. Follow-up communications were performed to determine overall outcome.

Results—Dogs had a median age of 0.67 years (range, 0.1 to 15 years) and cats of 1 year (range, 0.7 to 16 years). Of 145 patients, 133 (92%) developed clinical signs of baclofen toxicosis. A total of 259 signs fell within defined categories: CNS (121/259 [46.7%]), gastrointestinal (69/259 [26.6%]), general malaise (27/259 [10.4%]), cardiovascular (23/259 [8.9%]), respiratory (14/259 [5.4%]), and urogenital (5/259 [1.9%]). For 68 dogs with known survival status, survival rate was 83.8% (57/68); of these dogs, the amount of baclofen ingested was known for 53 (46 survivors and 7 nonsurvivors). Amount of baclofen ingested was significantly lower in survivor dogs (median, 4.2 mg/kg [1.91 mg/lb]; range, 0.61 to 61 mg/kg [0.28 to 27.7 mg/lb]), compared with nonsurvivor dogs (median, 14 mg/kg [6.4 mg/lb]; range, 2.3 to 52.3 mg/kg [1.04 to 23.77 mg/lb]. Of 5 cats, 2 survived, 1 died, and 2 had unknown outcomes.

Conclusions and Clinical Relevance—Clinical signs of baclofen toxicosis occurred in most patients, with the CNS being the system most commonly affected.

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in Journal of the American Veterinary Medical Association

Abstract

Objective—To evaluate records of dogs exposed to zinc phosphide rodenticides and characterize the patient population, including breed, sex, age, body weight, time since exposure, development of clinical signs, clinical signs observed, treatments performed, veterinary care received, outcome, and overall prognosis.

Design—Retrospective case series.

Animals—362 dogs with presumed zinc phosphide exposure.

Procedures—An electronic computer database from an animal poison control center was searched to identify dogs that ingested zinc phosphide between November 2004 and July 2009.

Results—Accurate information regarding development of clinical signs was available in 94.5% (342/362) of cases. Over half the dogs (58.8% [201/342]) did not develop clinical signs, and specific clinical signs were reported for the remaining 41.2% (141/342) of dogs. There were 180 total clinical signs recorded for these 141 dogs, with some dogs having developed > 1 category of clinical signs. Clinical signs involving the gastrointestinal tract were the most commonly reported type of clinical sign (66.7% [n = 120/180 reported signs]), followed by generalized malaise (17.8% [32/180]), CNS signs (8.9% [16/180]), respiratory signs (3.3% [6/180]), and cardiovascular signs (1.7% [3/180]). Approximately 65% (234/362) of patients received veterinary care (including decontamination via induction of emesis, gastric lavage, or activated charcoal administration), and of these dogs, 51.3% (120/234) were hospitalized. For the 296 dogs for which survival data were available, the survival rate was 98.3% (291/296).

Conclusions and Clinical Relevance—Overall, the prognosis for zinc phosphide toxicosis was good. Zinc phosphide rodenticide toxicosis is a potential public health concern, and veterinary staff should be aware of this commonly used rodenticide.

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in Journal of the American Veterinary Medical Association

Summary

Fever, limb edema, and laminitis were observed in horses 18 to 36 hours after they consumed hoary alyssum (Berteroa incana) under field and experimental conditions. Clinical signs were not observed in all horses that had ingested the plant. Diagnosis in the field cases was limited to observation of clinical signs and evidence of plant ingestion in hay or on pasture. In most cases, clinical remission was observed 2 to 4 days after empirical treatment, removal of the plant source, or both.

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in Journal of the American Veterinary Medical Association