Effect of Pentobarbital on Ph and Electrolyte Levels After Induced Seizure in Rats

Effect of Pentobarbital on Ph and Electrolyte Levels After Induced Seizure in Rats

View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Elsevier - Publisher Connector Seizure (2007) 16, 397—401 www.elsevier.com/locate/yseiz Effect of pentobarbital on pH and electrolyte levels after induced seizure in rats R. Uribe-Escamilla a, D. Mota-Rojas b,P.Sa´nchez-Aparicio b, M. Alonso-Spilsbury b, R. Gonza´lez-Pin˜a c, A. Alfaro-Rodrı´guez a,* a Laboratory of Neurochemistry, National Institute of Rehabilitation, SSA, Me´xico City, Mexico b Department of Animal Production and Agriculture, Universidad Auto´noma Metropolitana-Xochimilco, Me´xico City, Mexico c Laboratory of Neuroplasticity of National Institute of Rehabilitation, SSA, Me´xico City, Mexico Received 29 November 2006; received in revised form 25 January 2007; accepted 20 February 2007 KEYWORDS Summary We studied the effects of high doses of pentobarbital (PB) and carba- Pentobarbital; mazepine (CBZ) on electrolyte levels and pH in an epileptic animal model. Pento- Pentylenetetrazole; barbital decreased Ca2+ and Na+ levels without pentylenetetrazole (PTZ). After this, Carbamazepine; Ca2+ and Na+ levels continued to decrease except when CBZ was used, which Electrolytes preserved the Ca2+ levels PTZ may have opposed effects on PB. Our results suggest that PB causes changes in electrolyte levels and pH, but these changes are diminished by CBZ. # 2007 British Epilepsy Association. Published by Elsevier Ltd. All rights reserved. Introduction The conditions grouped under the term epilepsy constitute an area of continuing medical need. It has One of 11 people has epilepsy problems, experiencing been estimated that about 20% of the patients with at least one seizure at some points. The tendencies to epilepsy using the first generation of antiepileptic have recurrent, unprovoked seizures occur with a drugs (pentobarbital, phenytoin, carbamazepine, 1 prevalence of about 0.5%, and a cumulative lifetime sodium valproate and diazepam). prevalence of 3%. It cover different conditions with Carbamazepine (CBZ) is one of the most effective varying etiology.1 Epilepsy is not a disease, but a and regularly used antiepileptic drugs. This sub- syndrome of different cerebral disorders of the stance is effective in to manage various types of central nervous system, which is characterized by epilepsy, including partial and generalized tonic— 1 paroxysmal, excessive, and discharges of large clonic seizures. numbers of neurons.2 Pentobarbital is a major drug in the control for canine, feline, and human epilepsy and can signifi- cantly reduce the severity of seizures. PB raises the * Corresponding author. Tel.: +52 55 59 99 10 00x19303. E-mail address: [email protected] threshold for seizure discharge and inhibits the (A. Alfaro-Rodrı´guez). initiation, diffusion, and spread of discharge from 1059-1311/$ — see front matter # 2007 British Epilepsy Association. Published by Elsevier Ltd. All rights reserved. doi:10.1016/j.seizure.2007.02.010 398 R. Uribe-Escamilla et al. the neural focus. Blood-level PB is clinically effec- GABAbindstoitsrecognitionsiteontheGABAA tive 12—24 h after oral administration; it is meta- receptor complex, an opening of the chloride bolized by the liver and extracted by the kidney. The channel occurs with the subsequent influx of common side effects of PB are ataxia, sedation, chloride anions into a neuron, resulting in its polyuria, polydipsia, polyphagia, and it may depress hyperpolarization.3 both respiratory drive and mechanisms responsible Therefore, in this research, we directly proposed for the rhythmic character of respiration.2 to evaluate the effect on the levels of some elec- 2+ + + Pentobarbital is a known inducer of microsomal trolytes (Ca ,Na and K ), and pH, and HCO3 levels enzymes (cytochrome P-450 (CYP), NADPH-cyto- after seizures are induced in animal subjects. Two chrome P-450 reductase, NADPH oxidase, glu- different anesthetics, PB and ketamine and xylazine tathione-S-tranferase), which are responsible for (KX) mixture and CBZ, were employed to compare the metabolic breakdown of a large number of the impacts of PB in an attempt to establish an endogenous and exogenous chemical compounds.2 adequate epileptic animal model and a good clinical Studies in the last few years suggest that body method to study and monitor animals in laboratory electrolytes may be involved in some types of epi- experiments. lepsy and may increase the recurrence of seizures. Reports point to the vital role of body electrolytes sodium (Na+), potassium (K+), calcium (Ca2+), and Methods magnesium (Mg2+) for seizure conditions to develop. No abnormality was noticed in serum Na+ in epilep- Animals tic patients during and after a seizure. With unaltered Na+ level and hypokalemia patients, Twenty adult male Wistar rats (mean body weight, increase in recurrence of seizures was noted. That 448.8 g) were used as subjects in this study. Rats changes in Ca2+ levels are responsible for beginning were housed five in a cage under a 12-h light/12-h convulsions is well documented.3 dark cycle; food and water were available and Epilepsy is characterized by recurrent seizures administered ad libitum. Animals were treated occurring overlong periods of time, kindled seizures according to international standards on animal are achieved by electrical or chemical stimulation. handling. The procedure was approved by the Ethic Examples of chemicals produce kindling in rats and Investigation Committees of the National Reha- include pentylenetetrazole (PTZ), FG-7142, and bilitation Institute of Mexico City. picrotoxin.4 The rats were divided into three groups: Pentylenetetrazole induces prototypical sys- temic seizure in epileptic rodents. The different Group 1: Rats (n = 5) were anesthetized with PB susceptibility of the cortical and subcortical struc- 90 mg/kg i.p. They received a dose of 90 mg/kg tures to PTZ-induced drastic effects may be related body weight PTZ (Sigma, USA) dissolved in 0.9% to their gamma aminobutyric acid type A (GABAA) saline solution i.p. receptor density.5,6 Cognitive disorders were shown Group 2: Rats (n = 5) were anesthetized with PB to change with neuronal loss in the hippocampus. 90 mg/kg i.p. They received a dose of 50 mg/kg The animal models offer an opportunity to examine body weight of CBZ i.p. and posteriori 30 min changes associated with epilepsy.7,8 90 mg/kg body weight PTZ i.p., dissolved in PTZ-induced convulsions are linked with abnor- 0.9% saline solution. mal electrical recordings of brain activity. The Group 3: Rats (n = 5) were anesthetized with a beginning of seizures by PTZ is attributed to repress mixture of Ketamine 80 mg/kg and Xylazine GABAA receptor Cl-channel, which thus attenuates 8 mg/kg IM. They received a dose of 90 mg/kg GABA-dependent inhibition9 and/or activation or body weight PTZ i.p. dissolved in 0.9% saline 10—12 N-metyl-D-aspartate (NMDA) receptors. solution. GABA may mediate its synaptic events through two types of receptors–—ionotropic and metabotro- Blood samples (400—500 ml) were taken from the pic. Among ionotropic receptors associated with a heart by cardiac puncture under anesthesia at two chloride channel so called GABAA and GABAC recep- different times: first, basal register previously at tors are distinguished–—metabotropic ones linked to PTZ and CBZ administration, and the second an hour the cascade of second intraneuronal messengers after PTZ injection; the number of serial bleeds did 13 are GABAB receptors. GABAA receptor complex con- not exceed 1% of the rat’s body weight; syringes sists of a number of binding sites for GABA itself, were heparinized with 1000 UI/mL of blood to get benzodiazepines, barbiturates, ethanol and picro- electrolytes and do arterial blood gas measure- toxin which is a chloride channel blocker. When ments. Pentobarbital on pH and Electrolyte levels in epileptic rats 399 pH, bicarbonate (HCO3a), sodium (Na), potassium those in Group 3 had seizures for 2 h about 2 min (K) and ionized calcium (ICa) were measured by a after PTZ administration. blood gas analyzer (GEM mod. premier 3000). Data analysis Discussion For the experiments using blood gas and electrolytes The main purpose of this experiment was to investi- as variables, all values were expressed as mean gate pentobarbital release in the pH and electrolyte Æ standard error (S.E.). Results were analyzed by levels before and after induced seizure in rats. Sec- the U-Mann—Whitney test (SPSS for windows, ond, we employed pentobarbital rather than keta- release 10.0). In all cases, the probability of error mine and xylazine (KX) mixture to investigate if there less than 0.05 were selected as the criterion for are differences between the drugs effects because statistical significance from control values. we certainly consider that, the pentobarbital is bet- ter anticonvulsant and anesthetic compared with the ketamine and xylazine mixture. Results The PTZ model of epilepsy, not only produces epilepsy like seizure activity, but also mimics sei- During the study, we observed a mortality of 25%; zure-induced cognitive and emotional changes that the final number of sample subjects was 15 rats are similar to what is observed in human epilepsy, (n = 15). To compare PB effects on electrolytes, particularly those with temporal lobe foci,9,14 that’s we used another anesthetic in this study: the KX why this is a good model of epilepsy study. mixture. We took basal results with anesthetic mix- The results of this study showed an increase of ture as normal values. Then, we analyzed the dif- Ca2+ extracellular levels in Ketamine anesthetized ferences between Groups 1 and 2 with basal samples animals, suggesting that it causes an inhibiting and noticed significant differences in pH, Na+ and depolarizing response due to the Ca2+ in the NMDA Ca2+ ( p 0.047, 0.035 and 0.009) (Table 1). receptors. For this argument, we took these issues The next comparison was done with the treat- as normal values to compare and assess PB effects on ment involving PTZ administration after 1 h among pH and electrolyte levels.

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