Hyperthermic Seizures Research Articles

The Impact of Inflammation on Thermal Hyperpnea: Relevance for Heat Stress and Febrile Seizures.

Extreme heat caused by climate change is increasing the transmission of infectious diseases, resulting in a sharp rise in heat-related illness and mortality. Understanding the mechanistic link between heat, inflammation, and disease is thus important for public health. Thermal hyperpnea, and consequent respiratory alkalosis, is crucial in febrile seizures and convulsions induced by heat stress in humans. Here, we address what causes thermal hyperpnea in neonates and how it is affected by inflammation. Transient receptor potential cation channel subfamily V member 1 (TRPV1), a heat-activated channel, is sensitized by inflammation and modulates breathing and thus may play a key role. To investigate whether inflammatory sensitization of TRPV1 modifies neonatal ventilatory responses to heat stress, leading to respiratory alkalosis and an increased susceptibility to hyperthermic seizures, we treated neonatal rats with bacterial LPS, and breathing, arterial pH, invitro vagus nerve activity, and seizure susceptibility were assessed during heat stress in the presence or absence of a TRPV1 antagonist (AMG-9810) or shRNA-mediated TRPV1 suppression. LPS-induced inflammatory preconditioning lowered the threshold temperature and latency of hyperthermic seizures. This was accompanied by increased tidal volume, minute ventilation, expired CO2, and arterial pH (alkalosis). LPS exposure also elevated vagal spiking and intracellular calcium concentrations in response to hyperthermia. TRPV1 inhibition with AMG-9810 or shRNA reduced the LPS-induced susceptibility to hyperthermic seizures and altered the breathing pattern to fast shallow breaths (tachypnea), making each breath less efficient and restoring arterial pH. These results indicate that inflammation exacerbates thermal hyperpnea-induced respiratory alkalosis associated with increased susceptibility to hyperthermic seizures, primarily mediated by TRPV1 localized to vagus neurons.

A hyperthermic seizure unleashes a surge of spreading depolarizations in Scn1a-deficient mice.

Spreading depolarization (SD) is a massive wave of cellular depolarization that slowly migrates across the brain gray matter. Cortical SD is frequently generated following brain injury, while less is understood about its potential contribution to genetic disorders of hyperexcitability, such as SCN1A-deficient epilepsy, in which febrile seizure often contributes to disease initiation. Here we report that spontaneous SD waves are predominant EEG abnormalities in the Scn1a-deficient mouse (Scn1a+/R1407X) and undergo sustained intensification following a single hyperthermic seizure. Chronic DC-band EEG recording detected spontaneous SDs, seizures, and seizure-SD complexes in Scn1a+/R1407X mice but not WT littermates. The SD events were infrequent, while a single hyperthermia-induced seizure robustly increased SD frequency over 4-fold during the initial postictal week. This prolonged neurological aftermath could be suppressed by memantine administration. Video, electromyogram, and EEG spectral analysis revealed distinct neurobehavioral patterns; individual seizures were associated with increased motor activities, while SDs were generally associated with immobility. We also identified a stereotypic SD prodrome, detectable over a minute before the onset of the DC potential shift, characterized by increased motor activity and bilateral EEG frequency changes. Our study suggests that cortical SD is a pathological manifestation in SCN1A-deficient epileptic encephalopathy.

Microglia play beneficial roles in multiple experimental seizure models.

Seizure disorders are common, affecting both the young and the old. Currently available antiseizure drugs are ineffective in a third of patients and have been developed with a focus on known neurocentric mechanisms, raising the need for investigations into alternative and complementary mechanisms that contribute to seizure generation or its containment. Neuroinflammation, broadly defined as the activation of immune cells and molecules in the central nervous system (CNS), has been proposed to facilitate seizure generation, although the specific cells involved in these processes remain inadequately understood. The role of microglia, the primary inflammation-competent cells of the brain, is debated since previous studies were conducted using approaches that were less specific to microglia or had inherent confounds. Using a selective approach to target microglia without such side effects, we show a broadly beneficial role for microglia in limiting chemoconvulsive, electrical, and hyperthermic seizures and argue for a further understanding of microglial contributions to contain seizures.

Efavirenz restored NMDA receptor dysfunction and inhibited epileptic seizures in GluN2A/Grin2a mutant mice.

N-methyl-D-aspartate receptor (NMDAR) is one of the main receptor of the excitatory neurotransmitter glutamate in the brain, which is the key determinant of the excitatory/inhibitory balance of neural network. GluN2A/GRIN2A is one of the subunits of NMDAR and plays an important role in epilepsy. Approximately 78% of patients with GluN2A/Grin2a mutations have epilepsy, and the underlying mechanism of this association is not well characterized. We constructed a mouse model of hyperthermic seizure, and conducted in vitro and in vivo electrophysiological and behavioral studies to clarify the pathogenic characteristics and mechanism of GluN2A/GRIN2A-V685G mutation. In addition, the drug efavirenz (EFV), which is used to treat HIV infection, was administrated to mutant animals to assess whether it can restore the loss of function. Mutant mice showed no significant change in the mRNA or protein expressions of NMDAR compared with wild type (WT) mice. Mice with GluN2A/GRIN2A-V685G mutation exhibited shorter latency to seizure, increased frequency of seizure-like events, decreased peak current and current area of NMDAR excitatory postsynaptic current, and decreased event frequency of micro-inhibitory postsynaptic current, compared to WT mice. They also exhibited decreased threshold, increased amplitude, increased input resistance, and increased root number of action potential. EFV administration reversed these changes. The loss-of-function (LoF) mutation of NMDAR changed the excitatory/inhibitory balance of neural network, rendering animal more prone to seizures. EFV was indicated to hold its potential in the treatment of inherited epilepsy.

Features of the Effects of Glutamatergic System Modulators in the Model of Hyperthermal Seizures in Rat Pups

We studied the effect of lamotrigine, an anticonvulsant inhibiting the presynaptic release of glutamate, and LY341495, an antagonist of metabotropic glutamate 2/3 receptors, on the development of hyperthermic seizures and the content of LPO products in the brain of 8-10-day-old Wistar rats. Rat pups in the early postnatal period demonstrated pronounced seizures in response to thermal exposure, which was accompanied by an increase in the level of LPO products in the cerebral cortex. It was shown that the latency of generalized seizures increased after administration of both lamotrigine and LY341495. The most pronounced effect was observed in animals treated with lamotrigine. Both test substances prevented LPO intensification induced by hyperthermic exposure to varying degrees.

Augmented impulsive behavior in febrile seizure-induced mice.

Febrile seizure (FS) is one of the most prevalent etiological events in childhood affecting 2-5% of children from 3months to 5years old. Debates on whether neurodevelopmental consequences rise in later life following a febrile seizure or not are still ongoing however there is limited evidence of its effect, especially in a laboratory setting. Moreover, the comparative study using both male and female animal models is sparse. To examine the effect of FS on the behavioral features of mice, both sexes of ICR mice were induced with hyperthermic seizures through exposure to an infrared heat lamp. The mice were divided into two groups, one receiving a single febrile seizure at postnatal day 11 (P11) and one receiving three FS at P11, P13, and P15. Starting at P30 the FS-induced mice were subjected to a series of behavioral tests. Mice with seizures showed no locomotor and motor coordination deficits, repetitive, and depressive-like behavior. However, the FS-induced mice showed impulsive-like behavior in both elevated plus maze and cliff avoidance tests, which is more prominent in male mice. A greater number of mice displayed impaired CAT in both males and females in the three-time FS-induced group compared to the single induction group. These results demonstrate that after induction of FS, male mice have a higher susceptibility to consequences of febrile seizure than female mice and recurrent febrile seizure has a higher chance of subsequent disorders associated with decreased anxiety and increased impulsivity. We confirmed the dysregulated expression of impulsivity-related genes such as 5-HT1A and tryptophan hydroxylase 2 from the prefrontal cortices of FS-induced mice implying that the 5-HT system would be one of the mechanisms underlying the increased impulsivity after FS. Taken together, these findings are useful in unveiling future discoveries about the effect of childhood febrile seizure and the mechanism behind it.

Cognitive impairment following experimental febrile seizures is determined by sex and seizure duration

BackgroundFebrile seizures are the most common type of seizures in children. While in most children the outcome is favorable, children with febrile status epilepticus may exhibit modest cognitive impairment. Whether children with other forms of complex febrile seizure, such as repetitive febrile seizures within the same illness are at risk of cognitive deficits is not known. In this study, we used a well-established model of experimental febrile seizures in rat pups to compare the effects of febrile status epilepticus and recurrent febrile seizures on subsequent spatial cognition and anxiety. MethodsMale and female rat pups were subjected to hyperthermic seizures at postnatal day 10 and were divided into groups of rats with continuous seizures for ≥40 min or recurrent febrile seizures. They were then tested as adults in the active avoidance and spatial accuracy tests to assess spatial learning and memory and the elevated plus maze to measure anxiety. ResultsFebrile status epilepticus rats demonstrated impaired spatial cognition in active avoidance and spatial accuracy and exhibited reduced anxiety-like behavior in the elevated plus maze. Rats with recurrent febrile seizures did not differ significantly from the controls on any measures. There were also significant sex-related differences with females with FSE performing far better than males with FSE in active avoidance but demonstrating a navigational learning impairment relative to CTL females in spatial accuracy. However, once learned, females with FSE performed the spatial accuracy task as well as CTL females. ConclusionThere is a duration-dependent effect of febrile seizures on subsequent cognitive and behavioral outcomes. Febrile status epilepticus resulted in spatial cognitive deficits and reduced anxiety-related behaviors whereas rats with recurrent febrile seizures did not differ from controls. Sex had a remarkable effect on spatial cognitive outcome where males with FSE fared worse than females with FSE. The results demonstrate that sex should be considered as a biological variable in studies evaluating the effects of seizures on the developing brain.

Incidence And Characteristics Of Urinary Tract Infections Among Febrile Children In Early Childhood

Introduction: Fever is the most common cause for concern for parents and a reason to seek help from a GP or emergency centers. The high temperature in children in most cases is short-lived and is a protective reaction that stops or slows down the development of many microorganisms, stimulates the immune response, and provides rest to the sick child. Negative effects are dehydration, hypovolemia, hyperthermic seizures in childhood, hypotension to collapse. Urinary tract infections (UTIs) can occur only with fever or with fever and non-specific symptoms such as malaise, vomiting, abdominal pain, and jaundice. Antibiotic treatment for fever without a proven cause may mask an existing urinary tract infection. Aim : The aim of this article is to review the scientific literature for a period of 40 years on the incidence of UTIs in infancy and early childhood in children with fever. Methods: Analysis of Bulgarian and foreign literature sources according to the PubMed and Google Scholar databases for a period of 40 years has been conducted. Results: The analysis of the data from the scientific literature showed that the frequency of UTI varies depending on gender and age. In most studies, the incidence of UTI in febrile children under 24 months of age, both sexes, with or without additional symptoms of UTI, was between 5% and 15%. In boys, the prevalence is highest in the first 3 months of life and then shows a declining trend, while in girls the prevalence is highest in the first 12 months of life. There is evidence in the literature that fever (rectal temperature ≥ 39°C) and uncircumcised status are more likely to be linked to UTI in boys. E. coli is the most common bacterial infection in early childhood and is the leading cause of UTI in this age group. Conclusion : The GP needs to make efforts to educate parents on the diagnosis, consequences and appropriate treatment of obscure febrile conditions, and UTI should be excluded. It is necessary to pay attention to the method of measuring the temperature, the differences in the values in the different measuring points. In this aspect, the GP should perform an in-depth analysis for early diagnosis of UTI in all boys under 12 months of age and girls under 24 months of age with unexplained fever, temperature above ≥ 38°C measured rectally for 3 minutes.

Elucidation of the Role of Transient Receptor Potential Vanilloid-1 (TRPV1) Channels in Epileptogenesis

The transient receptor potential vanilloid-1 (TRPV1), previously known as the capsaicin receptor or vanilloid receptor 1 (VR1) is a nonselective cation channel that acts as an integrator of nociceptive information in sensory neurons and their sensory nerve endings with unmyelinated (C) or thin myelinated (Aδ) fibers. It is activated by capsaicin, resiniferatoxin, piperine, noxious heat (> 43ºC), protons, lipoxygenase products, and some endogenous cannabinoids. TRPV1 receptors are also expressed in the brain on neurons, glia cells and pericytes and might be involved in the modulation of epileptogenesis. TRPV1 modulates synaptic plasticity and neurotransmission, mediates long-term depression of glutamate release in the hippocampus and suppress excitatory transmission in dentate gyrus. TRPV1-knockout mice have altered susceptibility to hyperthermic seizures. Studies in vitro showed that capsaicin reduced epileptiform activity but increased neuronal discharge in excitable cells. Capsaicin given via systemic routes at low doses was shown to reduce seizures induced by kainic acid and pentylenetetrazole and to afford neuroprotection of hippocampus in vivo. These effects were associated with reduced oxidative stress and inflammation in brain. In contrast, high doses of capsaicin either elicited or enhanced seizures in animals. In addition, piperine, a TRPV1 agonist, demonstrated anti-epileptic activity in several animal models via a multiplicity of mechanisms. Moreover, non-psychotropic cannabinoids such as cannabidiol and cannabidivarin, the endocannabinoid anandamide, and acetaminophen demonstrated anti-epileptiform activity in vivo and in vitro via mechanisms that might involve TRPV1 receptors. By surveying recent research findings, this review article is intended to present the current research status on the involvement of TRPV1 receptors in epileptogenesis so as to stimulate further investigations into the detailed molecular mechanisms by which capsaicin as well as other chemical modalities impact epileptogenesis via modulating TRPV1 channels. (First online: Apr 12, 2021)

Risk Factors for Nontyphi Salmonella Bacteremia Over 10 Years in Fort-de-France, Martinique, West Indies.

Nontyphoidal Salmonella infections can result in bacteremia. This study was undertaken to determine the predictive factors for bacteremia in children aged less than 16 years. Medical data were collected for every child with positive nontyphoidal Salmonella cultures in blood or stools at the University hospital of Martinique, French West Indies, between January 2005 and December 2015. Among 454 patients, 333 were included; 156 cases had confirmed bacteremia, and 177 were included as control group with nontyphoidal Salmonella only isolated in stools. Age at diagnosis, delay before consulting, prematurity, immunosuppression, or hyperthermic seizures were not significantly associated with bacteremia. C-reactive protein was higher in cases of bacteremia (P = 0.01); however, after adjusting to the threshold of 30 mg/L, there was no longer any difference. There were also significant relations for electrolytes such as hyponatremia (odds ratio (OR) = 2.08 [95% CI = 1.31-3.95]; P < 0.01), high urea level (OR = 0.53 [95% CI = 0.32-0.88], P < 0.01). The infecting serotype was the most discriminant risk factor (P < 10-4). Among 28 serotypes isolated between 2005 and 2015, Salmonella panama was the most common serotype: 122 strains (78.2%) were isolated from bacteremic patients versus 60 (33.9%) from nonbacteremic patients (P < 10-4). Salmonella panama was the most important risk factor for bacteremia (OR = 7.37 [95% CI = 3.18-17.1], P < 10-4) even after multivariate analysis (OR = 13.09 [95% CI = 5.42-31.59], P < 10-4). After adjusting for bacteremia, S. panama was associated with a significantly higher body temperature than other Salmonella: 39°C (standard deviation [SD] = 0.92) versus 38.2°C [SD = 1.1], linear regression P < 10-3. Children with Salmonella serotype panama infection were at higher risk of bacteremia than children infected with other Salmonella serotypes.

Size of Subcortical Band Heterotopia Influences the Susceptibility to Hyperthermia-Induced Seizures in a Rat Model.

Studies conducted in human and rodent models have suggested that preexisting neurodevelopmental defects could predispose immature brains to febrile seizures (FS). However, the impact of the anatomical extent of preexisting cortical malformations on FS susceptibility was never assessed. Here, we induced hyperthermic seizures (HS) in rats with bilateral subcortical band heterotopia (SBH) and found variable degrees of HS susceptibility depending on inter-individual anatomical differences in size and extent of SBH. This indicates that an association exists between the overall extent or location of a cortical malformation, and the predisposition to FS. This also suggests that various predisposing factors and underlying causes may contribute to the etiology of complex FS.

Role of Melatonin Receptors in Hyperthermia-Induced Acute Seizure Model of Rats.

Melatonin is a neurohormone that has anticonvulsant activity in different experimental seizure models including hyperthermic febrile seizure. However, the mechanisms of this effect are not clear at the receptor level. The aim of the study was to determine which melatonin receptors involve in the hyperthermic febrile seizure model. 22-30days Wistar male rats were used, and in children, it corresponds to 1.5-2years. Groups were performed as (1) control, (2) ethanol/saline, (3) DMSO, (4) melatonin (MT), (5) MT + luzindole (LUZ), (6) MT + K-185, (7) MT + prazosin (PRZ), (8) MT + LUZ + K-185, (9) MT + LUZ + PRZ, (10) MT + K-185 + PRZ, and (11) MT + LUZ + PRZ + K-185. The hyperthermic febrile seizure pattern was established by keeping the rats in 45°C hot water, and the latency, duration, and severity of seizures were determined in all groups. MT, LUZ, K-185, and PRZ were given 15, 45, 15, and 30min before the induction of seizure, respectively. It was observed that melatonin shortened the duration of seizure, reduced the severity, and did not affect latency and that these effects were not completely blocked by receptor antagonists when compared with control, ethanol/saline, and DMSO groups. In conclusion, the fact that the anticonvulsant effect of melatonin is not completely blocked by all melatonin receptor antagonists. We can conclude that a multimodal mechanism may be responsible for the effect of melatonin receptors alone on the anticonvulsant effect of melatonin. It will be useful to design new pharmacological studies to make the subject clear.

Early-life hyperthermic seizures upregulate adenosine A2A receptors in the cortex and promote depressive-like behavior in adult rats

Febrile seizures (FS) represent one of the most frequent convulsive disorders in children which can be classified into simple and prolonged depending on the duration. Although simple FS are generally considered as benign, there is controversy about the outcome of prolonged FS. Here, we have used an animal model of prolonged FS to investigate persistent neurochemical and behavioral alterations in adult rats. Hyperthermic seizures were induced in 12-day-old rats using a warmed air stream from a hair dryer. Neonates exhibited arrest of heat-induced hyperkinesis followed by body flexion and rearing and falling over associated with hindlimb clonus seizures (stage 5 on Racine scale criteria) after hyperthermic induction. After 48 days, the animals were assayed on dark–light box and forced swim tests in order to detect if rats will show signs of anxiety or depression. Finally, animals were sacrificed 56 days after hyperthermia-induced seizures (HIS), and their effects on adenosine A2A receptor signaling and 5′-nucleotidase activity were studied in plasma membranes from the cerebral cortex by using radioligand-binding assay and by measuring the activities of adenylate cyclase and 5′-nucleotidase. Results obtained have shown that adult rats submitted to HIS during the neonatal period showed depressive-like behavior. Furthermore, animals exposed to hyperthermic insult showed an increase in A2A receptor level which was also accompanied by an increase in A2A receptor functionality.

Cerebellar oxidative stress and fine motor impairment in adolescent rats exposed to hyperthermia-induced seizures is prevented by maternal caffeine intake during gestation and lactation

Febrile seizures (FS) is one of the most common convulsive disorders in infants and young children that only occurs during the first years of life in humans, when the cerebellum is still developing. Several works have shown that maternal caffeine consumption during gestation and lactation can exert protective effects on developing brain under pathological conditions. Here, we have used an animal model of FS to know whether maternal caffeine consumption during gestation and lactation exhibited protective effects on rat cerebellum.Pregnant rats were allowed to freely drink water or caffeine (1 g/l) during gestation and lactation. At PD13, neonates were submitted to hyperthermia-induced seizures (HIS) whereas pups not subject to hyperthermic stimulus were used as controls. 48 h, 5 and 20 days after HIS, rats were killed and plasma membranes and cytosolic fractions were isolated from cerebella. The enzymatic activities of glutathione reductase, glutathione S-transferase, caspase-3, 5´-nucleotidase and the levels of thiobarbituric acid reacting substances, adenosine A1 and A2A receptors were studied in these preparations. Furthermore, rats were tested in balance beam test and footprint test 20 days after HIS (PD33) in order to investigate the effect on fine motor coordination and gait patterns.Results obtained suggest that maternal caffeine consumption during gestation and lactation exerts two kinds of beneficial effects on cerebellum from rats submitted to HIS: a) at short term, maternal caffeine abolishes hyperthermic seizures induced-oxidative stress and caspase-3 activation and b) in adolescent rats (PD33), maternal caffeine prevents fine motor coordination impairment and gait disturbances.

Temporal analysis of hippocampal CA3 gene coexpression networks in a rat model of febrile seizures.

ABSTRACTComplex febrile seizures during infancy constitute an important risk factor for development of epilepsy. However, little is known about the alterations induced by febrile seizures that make the brain susceptible to epileptic activity. In this context, the use of animal models of hyperthermic seizures (HS) could allow the temporal analysis of brain molecular changes that arise after febrile seizures. Here, we investigated temporal changes in hippocampal gene coexpression networks during the development of rats submitted to HS. Total RNA samples were obtained from the ventral hippocampal CA3 region at four time points after HS at postnatal day (P) 11 and later used for gene expression profiling. Temporal endpoints were selected for investigating the acute (P12), latent (P30 and P60) and chronic (P120) stages of the HS model. A weighted gene coexpression network analysis was used to characterize modules of coexpressed genes, as these modules might contain genes with similar functions. The transcriptome analysis pipeline consisted of building gene coexpression networks, identifying network modules and hubs, performing gene-trait correlations and examining changes in module connectivity. Modules were functionally enriched to identify functions associated with HS. Our data showed that HS induce changes in developmental, cell adhesion and immune pathways, such as Wnt, Hippo, Notch, Jak-Stat and Mapk. Interestingly, modules involved in cell adhesion, neuronal differentiation and synaptic transmission were activated as early as 1 day after HS. These results suggest that HS trigger transcriptional alterations that could lead to persistent neurogenesis, tissue remodeling and inflammation in the CA3 hippocampus, making the brain prone to epileptic activity.

Hydrogen Sulfide Promotes Learning and Memory and Suppresses Proinflammatory Cytokines in Repetitive Febrile Seizures

Objective: Hydrogen sulfide (H₂S), as a novel gasotransmitter, plays important roles in a number of physiological and pathological processes. Its effectiveness has been demonstrated in different types of brain disorders but not in repetitive febrile seizure (febrile status epilepticus; FSE) models. This study aims to test whether a donor of H₂S sodium sulfhydrate (NaHS) is also effective for FSE in rats. Methods: FSE was induced in rat pups on postnatal day 10 in water at 45.0 ± 0.1°C for 10 consecutive days with or without preadministration of NaHS. Following evaluation of the latency and duration of hyperthermic seizures, impairment in learning and memory was measured by the Morris water maze test. Moreover, alterations of the microglial response and the production of proinflammatory cytokines IL-1β and TNF-α were calculated in the hippocampus. Results: We found that NaHS significantly increased the latency and decreased the duration of hyperthermic seizures. Furthermore, NaHS-treated pups showed less impairment in learning and memory. In addition, NaHS inhibited FSE-induced microglial responses and suppressed the production of IL-1β and TNF-α in the hippocampus. Conclusion: NaHS appears to be effective for the treatment of FSE in infants and children, in part due to its anti-inflammatory action.

TRPV1 deletion exacerbates hyperthermic seizures in an age-dependent manner in mice

Febrile seizures (FS) are the most common seizure disorder to affect children. Although there is mounting evidence to support that FS occur when children have fever-induced hyperventilation leading to respiratory alkalosis, the underlying mechanisms of hyperthermia-induced hyperventilation and links to FS remain poorly understood. As transient receptor potential vanilloid-1 (TRPV1) receptors are heat-sensitive, play an important role in adult thermoregulation and modulate respiratory chemoreceptors, we hypothesize that TRPV1 activation is important for hyperthermia-induced hyperventilation leading to respiratory alkalosis and decreased FS thresholds, and consequently, TRPV1 KO mice will be relatively protected from hyperthermic seizures. To test our hypothesis we subjected postnatal (P) day 8–20 TRPV1 KO and C57BL/6 control mice to heated dry air. Seizure threshold temperature, latency and the rate of rise of body temperature during hyperthermia were assessed. At ages where differences in seizure thresholds were identified, head-out plethysmography was used to assess breathing and the rate of expired CO2 in response to hyperthermia, to determine if the changes in seizure thresholds were related to respiratory alkalosis. Paradoxically, we observed a pro-convulsant effect of TRPV1 deletion (∼4min decrease in seizure latency), and increased ventilation in response to hyperthermia in TRPV1 KO compared to control mice at P20. This pro-convulsant effect of TRPV1 absence was not associated with an increased rate of expired CO2, however, these mice had a more rapid rise in body temperature following exposure to hyperthermia than controls, and the expected linear relationship between body weight and seizure latency was absent. Based on these findings, we conclude that deletion of the TRPV1 receptor prevents reduction in hyperthermic seizure susceptibility in older mouse pups, via a mechanism that is independent of hyperthermia-induced respiratory alkalosis, but possibly involves impaired development of thermoregulatory mechanisms, although at present the mechanism remain unknown.

Lipopolysaccharide potentiates hyperthermia-induced seizures.

BackgroundProlonged febrile seizures (FS) have both acute and long-lasting effects on the developing brain. Because FS are often associated with peripheral infection, we aimed to develop a preclinical model of FS that simulates fever and immune activation in order to facilitate the implementation of targeted therapy after prolonged FS in young children.MethodsThe innate immune activator lipopolysaccharide (LPS) was administered to postnatal day 14 rat (200 μg/kg) and mouse (100 μg/kg) pups 2–2.5 h prior to hyperthermic seizures (HT) induced by hair dryer or heat lamp. To determine whether simulation of infection enhances neuronal excitability, latency to seizure onset, threshold temperature and total number of seizures were quantified. Behavioral seizures were correlated with electroencephalographic changes in rat pups. Seizure-induced proinflammatory cytokine production was assessed in blood samples at various time points after HT. Seizure-induced microglia activation in the hippocampus was quantified using Cx3cr1GFP/+ mice.ResultsLipopolysaccharide priming increased susceptibility of rats and mice to hyperthemic seizures and enhanced seizure-induced proinflammatory cytokine production and microglial activation.ConclusionsPeripheral inflammation appears to work synergistically with hyperthermia to potentiate seizures and to exacerbate seizure-induced immune responses. By simulating fever, a regulated increase in body temperature from an immune challenge, we developed a more clinically relevant animal model of prolonged FS.

Hyperthermia-induced seizures alter adenosine A1 and A2A receptors and 5'-nucleotidase activity in rat cerebral cortex.

Febrile seizure is one of the most common convulsive disorders in children. The neuromodulator adenosine exerts anticonvulsant actions through binding adenosine receptors. Here, the impact of hyperthermia-induced seizures on adenosine A1 and A2A receptors and 5'-nucleotidase activity has been studied at different periods in the cerebral cortical area by using radioligand binding, real-time PCR, and 5'-nucleotidase activity assays. Hyperthermic seizures were induced in 13-day-old rats using a warmed air stream from a hair dryer. Neonates exhibited rearing and falling over associated with hindlimb clonus seizures (stage 5 on Racine scale criteria) after hyperthermic induction. A significant increase in A1 receptor density was observed using [(3) H]DPCPX as radioligand, and mRNA coding A1 was observed 48h after hyperthermia-induced seizures. In contrast, a significant decrease in A2A receptor density was detected, using [(3) H]ZM241385 as radioligand, 48h after hyperthermia-evoked convulsions. These short-term changes in A1 and A2A receptors were also accompanied by a loss of 5'-nucleotidase activity. No significant variations either in A1 or A2A receptor density or 5'-nucleotidase were observed 5 and 20days after hyperthermic seizures. Taken together, both regulation of A1 and A2A receptors and loss of 5'-nucleotidase in the cerebral cortex suggest the existence of a neuroprotective mechanism against seizures. Febrile seizure is one of the most common convulsive disorders in children. The consequences of hyperthermia-induced seizures (animal model of febrile seizures) on adenosine A1 and A2A receptors and 5'-nucleotidase activity have been studied at different periods in cerebral cortical area. A significant increase in A1 receptor density and mRNA coding A1 was observed 48h after hyperthermia-induced seizures. In contrast, a significant decrease in A2A receptor density and 5'-nucleotidase activity was detected 48h after convulsions evoked by hyperthermia. These changes suggest the possible existence of a neuroprotective mechanism against seizures.

Revisiting hippocampal sclerosis in mesial temporal lobe epilepsy according to the “two-hit” hypothesis

Hippocampal sclerosis (HS) is the most common neuropathological pattern observed in pharmacoresistant epilepsy and represents a critical feature in mesial temporal lobe epilepsy syndrome. However, its pathophysiological mechanisms and neuropathological consequences on seizures remain mostly unresolved. The new international classification of hippocampal sclerosis aims at standardizing its description to allow comparisons between different clinical studies. However, several aspects are not considered in this classification (granule cell dispersion, sprouting, glial modifications…). In this chapter, we discuss these different features associated with hippocampal sclerosis in perspective with the “two-hit” hypothesis and propose mechanisms that could be involved in the modulation of some specific neuropathological aspects like early life stress, hyperthermic seizures, brain lesions or hormonal modifications.