Treatment of Canine Idiopathic Epilepsy - Clinical Picture after Drug Interaction

IF 0.2 4区 农林科学 Q4 VETERINARY SCIENCES Acta Scientiae Veterinariae Pub Date : 2022-07-22 DOI:10.22456/1679-9216.121607
D. Ribeiro, Amanda Perini Leite, Gabriela Rotatori Alvim, Lara Garcia Costa, Zayra Siqueira Chagas, Ana Karla de Lima Silva, A. Pereira, R. Nogueira
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The aim of this paper is to report a clinical picture of drug interaction in the treatment of idiopathic epilepsy.\nCase: A 1-year-old Border Collie male dog, was admitted at the Veterinary Hospital of the Federal University of Lavras in post-ictal. The tutor reported that a year ago the animal had epileptic seizures and clusters with intervals of 21 to 25 days. Despite the continued use of previously prescribed phenobarbital (7.4 mg/kg, v.o., BID, until new recommendations) and carbamazepine (7.5 mg/kg, v.o., BID, until new recommendations), seizure control was not achieved. The physical examination indicated, tachypnea, ptialism, mydriasis, intense fatigue, and alienation from the environment. The patient did not respond to the threat-reflex test. Blood count, hepatic and renal blood chemistry, serum electrolyte (potassium, sodium, calcium and phosphorus), and phenobarbital dosages were requested. Based on the animal's history, breed characteristics, and alterations in the physical examination associated with normal results in complementary exams, idiopathic epilepsy was diagnosed. After analyzing the case, it was observed that the inefficiency in the control of seizures was possibly due to the drug interaction between phenobarbital and carbamazepine. Carbamazepine and phenobarbital reciprocally reduce their half-lives. To confirm the raised hypothesis, the serum concentration of carbamazepine was gradually reduced through weaning from its dose administered to the patient. Serial dosage of the concentration of phenobarbital in the bloodstream was performed. As a result, the serum phenobarbital, previously dosed at a concentration of 13.3 mg/dL with concomitant administration of carbamazepine, increased to 22 mg/dL 40 days after the beginning of weaning from carbamazepine (T0), and then to 36 mg/dL 100 days after T0. There was an increase in the concentration of phenobarbital in the bloodstream while the serum concentration of carbamazepine declined. The patient spaced out his seizures to every 50 to 60 days with phenobarbital monotherapy at a dose of 6 mg/kg.\nDiscussion: Efficient control of clusters, such as the reduction of seizures by 50%, was only possible due to the meticulous perception of the possible interaction reported in medicine. Carbamazepine and phenobarbital are P450 isoenzyme inducers. The concomitant administration of both drugs potentiated the action of isoenzymes in the hepatic microsomal system, which led to an accelerated metabolic processing of the drugs. After weaning from carbamazepine, that is, reducing the action of carbamazepine on the isoenzymes of the P450 enzyme system, the concentration of phenobarbital normalized at 36 mg/dL. Such concentration is within the reference range reported in the literature: 25 mg/dL to 35 mg/dL of serum phenobarbital for treatment efficacy. Therefore, the control of convulsive crises was achieved. The increase in the concentration of phenobarbital due only to weaning from carbamazepine, even after decreasing the daily dose of barbiturate prescribed to the animal, contributed to evidence of the interaction of these drugs. It is noted that prior knowledge of pharmacological properties, careful study of the patient's history, and the cooperation of the tutor were essential for the therapeutic success and practice of evidence-based veterinary medicine.\nKeywords: drug interaction, carbamazepine, phenobarbital, P450 enzyme.\nTítulo: Tratamento da epilepsia idiopática canina - quadro clínico após interação medicamentosa.\nDescritores: interação medicamentosa, carbamazepina, fenobarbital, enzima P450.","PeriodicalId":7182,"journal":{"name":"Acta Scientiae Veterinariae","volume":" ","pages":""},"PeriodicalIF":0.2000,"publicationDate":"2022-07-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Acta Scientiae Veterinariae","FirstCategoryId":"97","ListUrlMain":"https://doi.org/10.22456/1679-9216.121607","RegionNum":4,"RegionCategory":"农林科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"VETERINARY SCIENCES","Score":null,"Total":0}
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Abstract

Background: The large number of diseases demand perennial development of the pharmaceutical industry. The drug-testing phase is essential to make them available safely. Awareness of pharmacological properties, adverse effects and drug interactions is required. Drug interactions are common in veterinary medicine and should be avoided. At times, epileptic seizures require polydrug therapy, predisposing patients to drug interactions. The interaction between carbamazepine and phenobarbital reported in the literature is an example. The aim of this paper is to report a clinical picture of drug interaction in the treatment of idiopathic epilepsy. Case: A 1-year-old Border Collie male dog, was admitted at the Veterinary Hospital of the Federal University of Lavras in post-ictal. The tutor reported that a year ago the animal had epileptic seizures and clusters with intervals of 21 to 25 days. Despite the continued use of previously prescribed phenobarbital (7.4 mg/kg, v.o., BID, until new recommendations) and carbamazepine (7.5 mg/kg, v.o., BID, until new recommendations), seizure control was not achieved. The physical examination indicated, tachypnea, ptialism, mydriasis, intense fatigue, and alienation from the environment. The patient did not respond to the threat-reflex test. Blood count, hepatic and renal blood chemistry, serum electrolyte (potassium, sodium, calcium and phosphorus), and phenobarbital dosages were requested. Based on the animal's history, breed characteristics, and alterations in the physical examination associated with normal results in complementary exams, idiopathic epilepsy was diagnosed. After analyzing the case, it was observed that the inefficiency in the control of seizures was possibly due to the drug interaction between phenobarbital and carbamazepine. Carbamazepine and phenobarbital reciprocally reduce their half-lives. To confirm the raised hypothesis, the serum concentration of carbamazepine was gradually reduced through weaning from its dose administered to the patient. Serial dosage of the concentration of phenobarbital in the bloodstream was performed. As a result, the serum phenobarbital, previously dosed at a concentration of 13.3 mg/dL with concomitant administration of carbamazepine, increased to 22 mg/dL 40 days after the beginning of weaning from carbamazepine (T0), and then to 36 mg/dL 100 days after T0. There was an increase in the concentration of phenobarbital in the bloodstream while the serum concentration of carbamazepine declined. The patient spaced out his seizures to every 50 to 60 days with phenobarbital monotherapy at a dose of 6 mg/kg. Discussion: Efficient control of clusters, such as the reduction of seizures by 50%, was only possible due to the meticulous perception of the possible interaction reported in medicine. Carbamazepine and phenobarbital are P450 isoenzyme inducers. The concomitant administration of both drugs potentiated the action of isoenzymes in the hepatic microsomal system, which led to an accelerated metabolic processing of the drugs. After weaning from carbamazepine, that is, reducing the action of carbamazepine on the isoenzymes of the P450 enzyme system, the concentration of phenobarbital normalized at 36 mg/dL. Such concentration is within the reference range reported in the literature: 25 mg/dL to 35 mg/dL of serum phenobarbital for treatment efficacy. Therefore, the control of convulsive crises was achieved. The increase in the concentration of phenobarbital due only to weaning from carbamazepine, even after decreasing the daily dose of barbiturate prescribed to the animal, contributed to evidence of the interaction of these drugs. It is noted that prior knowledge of pharmacological properties, careful study of the patient's history, and the cooperation of the tutor were essential for the therapeutic success and practice of evidence-based veterinary medicine. Keywords: drug interaction, carbamazepine, phenobarbital, P450 enzyme. Título: Tratamento da epilepsia idiopática canina - quadro clínico após interação medicamentosa. Descritores: interação medicamentosa, carbamazepina, fenobarbital, enzima P450.
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犬特发性癫痫的治疗-药物相互作用后的临床图片
背景:大量的疾病需要医药行业的长期发展。药物测试阶段对安全提供药物至关重要。需要了解药理特性、不良反应和药物相互作用。药物相互作用在兽医学中很常见,应该避免。有时,癫痫发作需要多种药物治疗,使患者容易发生药物相互作用。文献中报道的卡马西平和苯巴比妥之间的相互作用就是一个例子。本文的目的是报道药物相互作用治疗特发性癫痫的临床情况。病例:一只1岁大的边境牧羊犬,在发作后入住拉夫拉斯联邦大学兽医医院。导师报告说,一年前,这只动物出现了癫痫发作,发作间隔为21至25天。尽管继续使用先前处方的苯巴比妥(7.4 mg/kg,v.o.,BID,直到新的建议)和卡马西平(7.5 mg/kg,v.o.,BID直到新的推荐),但癫痫发作并未得到控制。体格检查显示,呼吸急促、嗜睡、散瞳、剧烈疲劳和脱离环境。患者对威胁反射测试没有反应。要求提供血液计数、肝肾血液化学、血清电解质(钾、钠、钙和磷)和苯巴比妥剂量。根据动物的病史、品种特征以及与补充检查正常结果相关的体检变化,诊断为特发性癫痫。在分析该病例后,观察到癫痫发作控制效率低下可能是由于苯巴比妥和卡马西平之间的药物相互作用。卡马西平和苯巴比妥相互作用可缩短它们的半衰期。为了证实提出的假设,卡马西平的血清浓度在患者断奶后逐渐降低。对血液中苯巴比妥的浓度进行了连续剂量测定。结果,先前以13.3 mg/dL的浓度给药并伴随卡马西平给药的血清苯巴比妥在开始从卡马西平断奶40天后(T0)增加到22 mg/dL,然后在T0后100天增加到36 mg/dL。血液中苯巴比妥的浓度增加,而卡马西平的血清浓度下降。患者每50至60天用6 mg/kg剂量的苯巴比妥单药治疗一次癫痫发作。讨论:有效控制集群,例如将癫痫发作减少50%,是因为对医学上报道的可能相互作用有着细致的认识。卡马西平和苯巴比妥是P450同工酶的诱导剂。两种药物的同时给药增强了肝微粒体系统中同工酶的作用,从而加速了药物的代谢过程。停用卡马西平后,即减少卡马西平对P450酶系统同工酶的作用,苯巴比妥的浓度标准化为36mg/dL。这样的浓度在文献中报道的参考范围内:25 mg/dL至35 mg/dL的血清苯巴比妥用于治疗效果。因此,实现了对剧烈危机的控制。仅因停用卡马西平而导致苯巴比妥浓度增加,即使在减少动物每日服用的巴比妥类药物剂量后,也有助于证明这些药物之间存在相互作用。值得注意的是,先前对药理学特性的了解、对患者病史的仔细研究以及导师的合作对于循证兽医的治疗成功和实践至关重要。关键词:药物相互作用;卡马西平;苯巴比妥;P450酶。Título:犬癫痫发作-四年期药物治疗。描述:interação medicamentosa,卡马西平,非诺比尔,恩齐马P450。
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来源期刊
Acta Scientiae Veterinariae
Acta Scientiae Veterinariae VETERINARY SCIENCES-
CiteScore
0.40
自引率
0.00%
发文量
75
审稿时长
6-12 weeks
期刊介绍: ASV is concerned with papers dealing with all aspects of disease prevention, clinical and internal medicine, pathology, surgery, epidemiology, immunology, diagnostic and therapeutic procedures, in addition to fundamental research in physiology, biochemistry, immunochemistry, genetics, cell and molecular biology applied to the veterinary field and as an interface with public health. The submission of a manuscript implies that the same work has not been published and is not under consideration for publication elsewhere. The manuscripts should be first submitted online to the Editor. There are no page charges, only a submission fee.
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