potassium-bromide and Cat-Diseases

Successful treatment of seizure disorders in small animals requires proper patient assessment, understanding the principles of antiepileptic drug (AED) therapy, designing a strategy for pharmacotherapy, and plans for emergency treatment. Several levels of assessment are needed in managing an epileptic patient to include the diagnosis, effectiveness of therapy, and health-related quality of life assessments. Three levels of diagnosis are important in determining the appropriate AED therapy: 1) confirmation that an epileptic seizure has occurred, and if so, the seizure type(s) manifested; 2) diagnosis of the seizure etiology; and 3) determination of an epileptic syndrome. Monotherapy is the initial goal of treating any cat or dog with epilepsy to reduce possible drug-drug interactions and adverse effects. Unfortunately, many of the AEDs useful in people cannot be prescribed to small animals either due to inappropriate pharmacokinetics (too rapid of an elimination), and potential hepatotoxicity. Thus, the most commonly used AEDs in veterinary medicine are from the same mechanistic category, that of enhancing inhibition of the brain. Antiepileptic drugs can be classified into three broad mechanistic categories: 1) enhancement of inhibitory processes via facilitated action of gamma amino-butyric acid (GABA); 2) reduction of excitatory transmission; and 3) modulation of membrane cation conductance. Pharmacotherapy strategies should be designed based on the decision when to start treatment, choice of the appropriate AED, and proper AED monitoring and adjustment. Information is presented for the current AEDs of choice, phenobarbital and bromide. Additional guidelines are provided for administration of newer AEDs, felbamate and gabapentin. All owners should be aware that emergency therapy may be necessary if recurrent or severe seizures occur in their pet. A rapid, reliable protocol is presented for the emergency management of seizuring cats and dogs in the hospital and at home. Home treatment with per rectal administration of diazepam in the dog has proven to be an effective means of reducing seizure frequency and owner anxiety. Treating each animal as an individual, applying the philosophy that seizure prevention is better than intervention, and consulting specialists to help formulate or revise treatment plans will lead to improved success in treating seizure disorders in the cat and dog.

Topics: Acetates; Amines; Animals; Anticonvulsants; Bromides; Cat Diseases; Cats; Cyclohexanecarboxylic Acids; Diazepam; Dog Diseases; Dogs; Drug Resistance; Emergency Treatment; Epilepsy; Felbamate; Gabapentin; gamma-Aminobutyric Acid; Phenobarbital; Phenylcarbamates; Potassium Compounds; Propylene Glycols; Seizures

To identify veterinarians' approaches and concerns when managing canine and feline patients with acute and chronic seizure disorders.. Cross-sectional survey.. A questionnaire was distributed to veterinarians to determine how many dogs and cats they were actively treating for seizures, their anticonvulsant drug (ACD) preferences for treating acute and chronic seizure disorders and whether serum anticonvulsant concentrations and/or biochemical analytes were routinely measured. Additional questions involved the respondent's year and place of graduation and identified concerns they faced when managing patients with seizure disorders.. Phenobarbitone was the most commonly used ACD for managing chronic seizure disorders in both dogs and cats, with 82% of respondents using a combination of phenobarbitone and potassium bromide to manage refractory seizure disorders in dogs. Most respondents (96%) felt comfortable managing seizures in dogs, but only 63% were comfortable managing affected cats. Routine monitoring of serum ACD concentrations and of liver biochemical analytes was performed routinely by 71% and 45% of respondents, respectively. Of the respondents, 86% graduated from Australian universities and of these 53% had graduated after 1985.. Veterinarians identified when to commence medication, whether regular monitoring of serum ACD concentrations and liver enzyme activity was necessary, and if the cost was justified. Veterinarians also identified the need to balance dose rates and side-effects by using combination therapy, and the importance of providing accurate information to clients about what to expect in terms of seizure control for their pet.

Topics: Animals; Anticonvulsants; Bromides; Cat Diseases; Cats; Cross-Sectional Studies; Dog Diseases; Dogs; Drug Therapy, Combination; Epilepsy; Humans; Liver; Phenobarbital; Potassium Compounds; Surveys and Questionnaires; Veterinarians

To establish a dosing regimen for potassium bromide and evaluate use of bromide to treat spontaneous seizures in cats.. Prospective and retrospective studies.. 7 healthy adult male cats and records of 17 cats with seizures.. Seven healthy cats were administered potassium bromide (15 mg/kg [6.8 mg/lb], p.o., q 12 h) until steady-state concentrations were reached. Serum samples for pharmacokinetic analysis were obtained weekly until bromide concentrations were not detectable. Clinical data were obtained from records of 17 treated cats.. In the prospective study, maximum serum bromide concentration was 1.1 +/- 0.2 mg/mL at 8 weeks. Mean disappearance half-life was 1.6 +/- 0.2 weeks. Steady state was achieved at a mean of 5.3 +/-1.1 weeks. No adverse effects were detected and bromide was well tolerated. In the retrospective study, administration of bromide (n = 4) or bromide and phenobarbital (3) was associated with eradication of seizures in 7 of 15 cats (serum bromide concentration range, 1.0 to 1.6 mg/mL); however, bromide administration was associated with adverse effects in 8 of 16 cats. Coughing developed in 6 of these cats, leading to euthanasia in 1 cat and discontinuation of bromide administration in 2 cats.. Therapeutic concentrations of bromide are attained within 2 weeks in cats that receive 30 mg/kg/d (13.6 mg/lb/d) orally. Although somewhat effective in seizure control, the incidence of adverse effects may not warrant routine use of bromide for control of seizures in cats.

Topics: Administration, Oral; Animals; Anticonvulsants; Bromides; Cat Diseases; Cats; Dose-Response Relationship, Drug; Epilepsy; Female; Male; Phenobarbital; Potassium Compounds; Prospective Studies; Retrospective Studies