Febrile Seizure

Kathryn Xixis; Debopam Samanta; Travis Smith; Michael Keenaghan

Febrile Seizure

Earn CME/CE in your profession:

Free Review Questions

Continuing Education Activity

Febrile seizures are generalized seizures, typically in children between the ages of 6 months and 5 years, that occur with a fever greater than 100.4 °F (38 °C) not associated with a central nervous system (CNS) infection, a known seizure-provoking etiology (eg, electrolyte imbalance, hypoglycemia, or substance abuse), or history of an afebrile seizure. No defined fever threshold is required to precipitate febrile seizures, as each patient's convulsive temperature threshold varies. The primary febrile seizure risk factors appear to include existing neurologic impairment, the presence of a viral infection, a family history of seizure, developmental delay, decreased serum zinc and iron levels, and maternal smoking and stress. Most febrile seizures resolve spontaneously without associated complications. However, some studies have evidence that some patients may be at higher risk of developing epilepsy or another seizure disorder following a febrile seizure. Some experts believe that either an underlying neurologic abnormality or the effect of a febrile seizure on a developing nervous system predisposes patients toward a seizure disorder. Febrile seizures are categorized as simple febrile seizures, consisting of a single seizure, lasting 15 minutes or less, or complex febrile seizures, characterized by multiple seizures occurring within 24 hours with focal neurologic features or a seizure lasting 15 minutes or more. Simple febrile seizures comprise most febrile seizures. Febrile status epilepticus refers to seizures lasting longer than 30 minutes and is a rare subset of febrile seizures associated with more adverse outcomes than simple febrile seizures.

The evaluation of febrile seizures primarily consists of characterizing a patient's type of febrile seizure and determining the fever's underlying cause through clinical assessment and diagnostic studies. Most febrile seizures spontaneously resolve and, therefore, may be expectantly managed. However, complex or longer-lasting febrile seizures may require pharmacologic therapy to stop the seizure activity. This activity for healthcare professionals is designed to enhance the learner's competence when managing febrile seizures, equipping them with updated knowledge, skills, and strategies for effective evaluation, timely treatment, and improved coordination of care, leading to better patient outcomes.

Objectives:

Differentiate between simple and complex febrile seizures.
Evaluate simple and complex febrile seizures and identify when diagnostic studies are indicated.
Implement the recommended evidence-based management strategies for febrile seizures.
Coordinate among interprofessional team members to improve outcomes for patients with febrile seizures.

Introduction

Febrile seizures are generalized seizures, typically in children between the ages of 6 months and 5 years, that occur with a fever greater than 100.4 °F (38 °C) not associated with a central nervous system (CNS) infection, a known seizure-provoking etiology (eg, electrolyte imbalance, hypoglycemia, or substance abuse), or history of an afebrile seizure.[1] No defined fever threshold is required to precipitate febrile seizures, as each patient's convulsive temperature threshold varies.[2][3] The primary febrile seizure risk factors appear to include existing neurologic impairment, the presence of a viral infection, a family history of seizure, developmental delay, decreased serum zinc and iron levels, and maternal smoking and stress.[1] Most febrile seizures resolve spontaneously without associated complications. However, some studies have evidence that some patients may be at higher risk of developing epilepsy or another seizure disorder following a febrile seizure. Some experts believe that either an underlying neurologic abnormality or the effect of a febrile seizure on a developing nervous system predisposes patients toward a seizure disorder.[1] Febrile seizures are categorized as simple febrile seizures, consisting of a single seizure lasting 15 minutes or less, or complex febrile seizures, characterized by multiple seizures occurring within 24 hours with focal neurologic features or a seizure lasting 15 minutes or more.[1] Simple febrile seizures comprise the majority of febrile seizures. Febrile status epilepticus refers to seizures lasting longer than 30 minutes and is a rare subset of febrile seizures associated with more adverse outcomes than simple febrile seizures.[1]

The evaluation of febrile seizures primarily consists of characterizing a patient's type of febrile seizure and determining the fever's underlying cause through clinical assessment and diagnostic studies. Most febrile seizures spontaneously resolve and, therefore, may be expectantly managed. However, complex or longer-lasting febrile seizures may require pharmacologic therapy to stop the seizure activity.[4] This activity for healthcare professionals is designed to enhance the learner's competence when managing febrile seizures, equipping them with updated knowledge, skills, and strategies for effective evaluation, timely treatment, and improved care coordination, leading to better patient outcomes.

Etiology

An estimated 10% to 33% of patients have a first-degree relative with a positive seizure history, along with a concordance rate of approximately 35% to 69% in monozygotic twins and 14% to 20% in dizygotic twins, which suggests that the cause of febrile seizures may have a genetic component.[5][6] An autosomal dominant mode of inheritance with reduced penetrance and a polygenic or multifactorial mode of inheritance may be present in addition to specific genes that increase the risk of febrile seizures and are found on the following loci of chromosomes: 1q31, 2q23*34, 3p24.2*23, 3q26.2*26.33, 5q14*15, 5q34, 6q22*24, 8q13*21, 18p11*2, 19p13*3, 19q, and 21q22.[5]

Another factor determining the risk of febrile seizures may be the highest temperature reached during a fever rather than the speed at which the temperature rises.[7][8][9] A contributing factor that can also affect fever's impact is the seizure threshold, which varies among individuals and changes with age and development. Infants have a higher risk of febrile seizures, but premature infants are at an even higher risk, especially those receiving postnatal corticosteroids.[10] Furthermore, infants generally have a lower seizure threshold, which may be modified by certain medications and water and electrolyte imbalances (eg, hyponatremia). Iron, zinc, vitamin B12, folic acid, selenium, calcium, and magnesium deficiencies increase the risk of febrile seizures.[5]

No specific fever etiology is more likely to cause febrile seizures; however, 80% of viral infections rather than bacterial infections are commonly associated with febrile seizures.[11] Roseolovirus is the most common virus associated with febrile seizures in the US and European countries and is observed in up to one-third of patients younger than 2 years.[12] Other studies have found that febrile seizures secondary to Roseolovirus are associated with a higher incidence of complex features, recurrence, and febrile status epilepticus.[13][14] In Asian countries, however, influenza A has been frequently associated with febrile seizures. Other commonly associated viral infections include human herpesvirus 7 (HHV-7), human coronavirus HKU1, adenovirus, RSV, cytomegalovirus, shigella, and herpes simplex virus (HSV).

Vaccines have also been shown to temporarily increase the risk of febrile seizures a few days postinoculation. These include the DTaP-IPV-Hib, MMRV, conjugated pneumococcal vaccine, and some formulations of inactivated influenza vaccines. The risk, although low, is also slightly higher in those getting more than one vaccination at a time. One study found the maximum estimated absolute excess risk due to concomitant administration of IIV3, PCV, and DTaP-containing vaccines was 30 febrile seizures per 100,000 persons vaccinated compared with administration on separate days.[15]

Epidemiology

Febrile seizures are the most common type of seizure in children between the ages of 6 months to 5 years. Febrile seizures are the most common type of seizures in childhood, with a slight male predominance of 1.6:1. Febrile seizures have an incidence of 2% to 5% of US and European children, which peaks between 12 to 18 months of age. A seasonal and diurnal association has also been observed in Japan, Finland, and the US, with more episodes occurring in the afternoon and winter months.[16] Some children have a single febrile seizure event, while 30% of children have multiple seizures during early childhood.

Pathophysiology

The exact pathophysiology of febrile seizures is not understood fully, but there is a recognized complex genetic predisposition, immaturity and vulnerability of the central nervous system, and various environmental factors. As a result of these various risk factors, the immature brain, with fever-enhanced neuronal excitation, is more susceptible to seizures and is one explanation as to why they occur more commonly in those younger than 3.[17]

History and Physical

Clinical History

A comprehensive medical history and detailed description of the seizure event are essential for the evaluation of a possible febrile seizure. Because febrile seizures most commonly occur in children, a parent or caregiver is critical to help provide the patient's history, including vaccination history, immunization status, family history of seizure activity, any recent illness, development, exposure to toxins, and personal medical history. Historical information regarding the interval between fever onset and seizure activity, seizure appearance, length, and postictal symptoms should also be obtained, as this can help differentiate simple febrile seizures from complex types.[5][4]

Simple febrile seizures usually have a single episode of generalized tonic-clonic movements, often involving facial and respiratory muscles, lasting less than 15 minutes with a short period of postictal drowsiness. Conversely, complex febrile seizures are characterized by focal seizures, usually limited to one side of the body, lasting 15 minutes or more, that can recur within 24 hours. Complex febrile seizures are frequently followed by postictal weakness or paralysis on one side of the body (ie, Todd paralysis). Other associated symptoms for both febrile seizure types include loss of consciousness, foaming at the mouth, shortness of breath, and cyanosis. Additionally, clinicians should inquire about possible central nervous system (CNS) infection and underlying structural abnormalities to determine whether an event of concern constitutes a febrile seizure or a more severe illness presenting with a seizure.[5][4]

Clinical Examination

Following seizure activity, patients must undergo a general physical and a neurologic exam to ensure that the patient has had a neurologic return to their baseline state. However, differential diagnoses should be considered if a patient continues to have acute neurologic impairment or symptoms (eg, headaches, cognitive dysfunction, or weakness) on an exam. During the physical exam, serial vital signs should be obtained, and findings that may suggest the underlying etiology of the fever should be noted (eg, erythematous bulging eardrums, a red pharynx, enlarged and inflamed tonsils, nuchal rigidity, bulging or tense fontanels, and Brudzinski sign). Clinicians should also perform a complete neurological examination, including a fundus examination, to assess increased intracranial pressure. Dermatologic signs that may indicate an underlying etiology should also be evaluated, such as the unilateral port-wine stain associated with Sturge–Weber syndrome, hypopigmented macules indicative of tuberous sclerosis, or café au lait spots and Lisch nodules suggestive of neurofibromatosis.[5][4]

Evaluation

Patients who have a presentation and clinical features consistent with simple febrile seizures do not need further diagnostic studies due to the benign nature of this type of febrile seizure. However, if a patient's history is consistent with a complex febrile seizure, a thorough evaluation is recommended, which usually involves ruling out any structural or infectious causes and obtaining an electroencephalogram (EEG). Laboratory studies (eg, complete blood count, complete metabolic profile, and urinalysis) should also be performed if a patient has signs of dehydration, poor fluid intake, vomiting, or diarrhea.[4] Some cases of complex febrile seizures may require hospital admission for observation and further studies.[3][18]

A lumbar puncture is not necessary for a patient with simple febrile seizures and a rapid return to baseline; however, the study is recommended when there are signs or concerns of a CNS infection. A lumbar puncture should also be considered in infants presenting after a febrile seizure who are younger than12 months, not adequately immunized against Streptococcus pneumoniae or Haemophilus influenza type B, had seizure 2 days after fever onset, or taking antibiotics which may mask meningitis or other CNS infection.[5]

Magnetic resonance imaging or computer tomography studies of the head for febrile seizures are not typically considered unless any of the following are present:[5]

Increased intracranial pressure
Focal neurologic abnormality
Suspected structural defect in the brain
Enlarged head
Severe head injury

Treatment / Management

No specific treatment for simple or complex febrile seizures is indicated other than supportive care and evaluation for possible underlying conditions causing the fever. Antipyretics have not been shown to prevent a recurrence of febrile seizures. In those who have recurrent febrile seizures, prevention is challenging. A few studies have examined the treatment with benzodiazepines as a bridging measure for a few days during subsequent febrile events; however, the adverse effects outweighed the potential benefits. Therefore, benzodiazepines are not a recommended preventative measure.[19][20][21]

Although most febrile seizures are a single occurrence and spontaneously resolve, febrile status epilepticus does occasionally occur in <10% of children during the first febrile seizure. In patients with febrile status epilepticus or seizures lasting longer than 5 minutes, intravenous benzodiazepines (eg, lorazepam), rectal diazepam, or intranasal midazolam can be used.[21][22] Furthermore, nonpharmacological methods (eg, removing clothing, directly fanning the child, and tepid sponging) to reduce a fever have not prevented fever recurrence.[23]

Differential Diagnosis

The differential diagnosis of febrile seizures includes:

Breath-holding spells
CNS infections (eg, aseptic meningitis, viral or bacterial meningitis, and encephalitis)
Drug-induced
Febrile delirium
Febrile myoclonus
Febrile infection-related epilepsy syndrome (FIRES)
Generalized/genetic epilepsy with febrile seizures plus (GEFS+)
Metabolic disturbances such as hyponatremia
Shaking chills or rigors
Simple febrile seizure
Tonic-clonic seizures

Prognosis

Febrile seizures are typically harmless and do not cause long-term neurological or cognitive problems. The majority of children who experience febrile seizures have normal developmental outcomes. Studies suggest that around 30% of children with a history of febrile seizures are at an increased risk of having recurrent episodes. Children younger than 12 months at the time of their first febrile seizure have a 50% chance of experiencing a second seizure within the first year. However, this risk decreased to 30% in the following year. Factors such as young age during the initial seizure, a family history of febrile seizures, low fever intensity during the seizure, and a short interval between fever onset and the seizure may indicate a higher likelihood of recurrent febrile seizures. On the other hand, features associated with complex febrile seizures do not necessarily increase the risk of recurrence.

Approximately 1% to 2% of children with simple febrile seizures, which is only slightly higher than the general population of .5% to .9%, may develop epilepsy later on. However, children with a history of complex febrile seizure, febrile seizure at an earlier age, prolonged febrile seizure, abnormal neurodevelopment, abnormal EEG, and a family history of epilepsy have an estimated 2% to 10% risk of developing epilepsy, depending now how many risk factors are present.[24] Notably, a single febrile seizure episode does not appear to be linked to learning disabilities, lower intelligence, behavioral problems, or executive functioning. However, in those with recurrent febrile seizures, an increased risk of delayed vocabulary development may be present.[5]

Complications

Although most febrile seizures are self-limited and have an excellent prognosis, rare complications may occur, including the following:

Unexpected death
Subsequent epilepsy
Encephalopathy
Autism spectrum disorder
Intellectual disability
Attention-deficit/hyperactivity disorder
Tourette syndrome
Allergic rhinitis
Asthma

Consultations

Consultation with specialized clinicians is typically necessary. These specialists typically include the following:

Pediatricians
Neonatologists
Neurologists

Pearls and Other Issues

No specific treatment for simple or complex febrile seizures is indicated other than supportive care and evaluation for possible underlying conditions causing the fever. In patients with febrile status epilepticus or seizures lasting longer than 5 minutes, intravenous benzodiazepines (eg, lorazepam), rectal diazepam, or intranasal midazolam can be used. Follow-up as an outpatient with their pediatrician and neurologist, as indicated.

Enhancing Healthcare Team Outcomes

Febrile seizures are a common condition in the pediatric population. Diagnosing and managing children with this condition should be done systemically in collaboration with an interprofessional team that includes pediatric or neonatology and neurology clinicians, pharmacists, EEG and laboratory technicians, and radiologists. The clinical team should educate the family that even though dramatic in appearance, these seizures do not lead to chronic neurological disease or dysfunction. The more parents are aware of this disorder, the less likely it is that they will rush to the emergency room or seek alternative, unproven remedies. However, the parents should also be educated on when to bring the child with a seizure to the emergency department because, in some cases, the cause may be a virus or a bacterial infection of the brain. The pharmacist should educate the family on managing the fever with acetaminophen, not aspirin. However, the family should also be educated that antipyretics do not prevent future febrile seizures.[25][26] Finally, patient families should be informed that febrile seizures do not lead to any adverse neurological or psychological problems. An interprofessional team approach to the care of febrile seizures will lead to the best outcomes.

Details

References

[1]

Sawires R, Buttery J, Fahey M A Review of Febrile Seizures: Recent Advances in Understanding of Febrile Seizure Pathophysiology and Commonly Implicated Viral Triggers. Frontiers in pediatrics. 2021 [PubMed PMID: 35096712]

Level 3 (low-level) evidence

[2]

Pavone P, Corsello G, Ruggieri M, Marino S, Marino S, Falsaperla R. Benign and severe early-life seizures: a round in the first year of life. Italian journal of pediatrics. 2018 May 15:44(1):54. doi: 10.1186/s13052-018-0491-z. Epub 2018 May 15 [PubMed PMID: 29764460]

[3]

Auvin S, Antonios M, Benoist G, Dommergues MA, Corrard F, Gajdos V, Gras Leguen C, Launay E, Salaün A, Titomanlio L, Vallée L, Milh M. [Evaluating a child after a febrile seizure: Insights on three important issues]. Archives de pediatrie : organe officiel de la Societe francaise de pediatrie. 2017 Nov:24(11):1137-1146. doi: 10.1016/j.arcped.2017.08.018. Epub 2017 Sep 29 [PubMed PMID: 28965695]

[4]

Smith DK, Sadler KP, Benedum M Febrile Seizures: Risks, Evaluation, and Prognosis. American family physician. 2019 Apr 1 [PubMed PMID: 30932454]

[5]

Leung AK, Hon KL, Leung TN. Febrile seizures: an overview. Drugs in context. 2018:7():212536. doi: 10.7573/dic.212536. Epub 2018 Jul 16 [PubMed PMID: 30038660]

Level 3 (low-level) evidence

[6]

Leung AK, Robson WL. Febrile seizures. Journal of pediatric health care : official publication of National Association of Pediatric Nurse Associates & Practitioners. 2007 Jul-Aug:21(4):250-5 [PubMed PMID: 17606162]

[7]

MILLICHAP JG. Studies in febrile seizures. I. Height of body temperature as a measure of the febrile-seizure threshold. Pediatrics. 1959 Jan:23(1 Pt 1):76-85 [PubMed PMID: 13613867]

[8]

MILLICHAP JG, MADSEN JA, ALEDORT LM. Studies in febrile seizures. V. Clinical and electroencephalographic study in unselected patients. Neurology. 1960 Jul:10():643-53 [PubMed PMID: 14422602]

[9]

Kumari PL, Rajamohanan K, Krishnan ASA. Risk Factors of First Episode Simple Febrile Seizures in Children Aged 6 Month to 5 Year: A Case Control Study. Indian pediatrics. 2022 Nov 15:59(11):871-874 [PubMed PMID: 36370015]

Level 2 (mid-level) evidence

[10]

Tu YF, Wang LW, Wang ST, Yeh TF, Huang CC. Postnatal Steroids and Febrile Seizure Susceptibility in Preterm Children. Pediatrics. 2016 Apr:137(4):. pii: e20153404. doi: 10.1542/peds.2015-3404. Epub 2016 Mar 24 [PubMed PMID: 27012746]

[11]

Yousefichaijan P, Eghbali A, Rafeie M, Sharafkhah M, Zolfi M, Firouzifar M. The relationship between iron deficiency anemia and simple febrile convulsion in children. Journal of pediatric neurosciences. 2014 May:9(2):110-4. doi: 10.4103/1817-1745.139276. Epub [PubMed PMID: 25250062]

[12]

Hall CB, Long CE, Schnabel KC, Caserta MT, McIntyre KM, Costanzo MA, Knott A, Dewhurst S, Insel RA, Epstein LG. Human herpesvirus-6 infection in children. A prospective study of complications and reactivation. The New England journal of medicine. 1994 Aug 18:331(7):432-8 [PubMed PMID: 8035839]

Level 3 (low-level) evidence

[13]

Epstein LG, Shinnar S, Hesdorffer DC, Nordli DR, Hamidullah A, Benn EK, Pellock JM, Frank LM, Lewis DV, Moshe SL, Shinnar RC, Sun S, FEBSTAT study team. Human herpesvirus 6 and 7 in febrile status epilepticus: the FEBSTAT study. Epilepsia. 2012 Sep:53(9):1481-8. doi: 10.1111/j.1528-1167.2012.03542.x. Epub 2012 Jun 14 [PubMed PMID: 22954016]

[14]

Hayakawa I, Miyama S, Inoue N, Sakakibara H, Hataya H, Terakawa T. Epidemiology of Pediatric Convulsive Status Epilepticus With Fever in the Emergency Department: A Cohort Study of 381 Consecutive Cases. Journal of child neurology. 2016 Sep:31(10):1257-64. doi: 10.1177/0883073816652234. Epub 2016 Jun 8 [PubMed PMID: 27280723]

Level 3 (low-level) evidence

[15]

Duffy J, Weintraub E, Hambidge SJ, Jackson LA, Kharbanda EO, Klein NP, Lee GM, Marcy SM, Nakasato CC, Naleway A, Omer SB, Vellozzi C, DeStefano F, Vaccine Safety Datalink. Febrile Seizure Risk After Vaccination in Children 6 to 23 Months. Pediatrics. 2016 Jul:138(1):. doi: 10.1542/peds.2016-0320. Epub 2016 Jun 6 [PubMed PMID: 27273711]

[16]

Mikkonen K, Uhari M, Pokka T, Rantala H. Diurnal and seasonal occurrence of febrile seizures. Pediatric neurology. 2015 Apr:52(4):424-7. doi: 10.1016/j.pediatrneurol.2015.01.001. Epub 2015 Jan 13 [PubMed PMID: 25682483]

[17]

Sharawat IK, Singh J, Dawman L, Singh A. Evaluation of Risk Factors Associated with First Episode Febrile Seizure. Journal of clinical and diagnostic research : JCDR. 2016 May:10(5):SC10-3. doi: 10.7860/JCDR/2016/18635.7853. Epub 2016 May 1 [PubMed PMID: 27437319]

[18]

Silverman EC, Sporer KA, Lemieux JM, Brown JF, Koenig KL, Gausche-Hill M, Rudnick EM, Salvucci AA, Gilbert GH. Prehospital Care for the Adult and Pediatric Seizure Patient: Current Evidence-based Recommendations. The western journal of emergency medicine. 2017 Apr:18(3):419-436. doi: 10.5811/westjem.2016.12.32066. Epub 2017 Mar 3 [PubMed PMID: 28435493]

[19]

Guedj R, Chappuy H, Titomanlio L, De Pontual L, Biscardi S, Nissack-Obiketeki G, Pellegrino B, Charara O, Angoulvant F, Denis J, Levy C, Cohen R, Loschi S, Leger PL, Carbajal R. Do All Children Who Present With a Complex Febrile Seizure Need a Lumbar Puncture? Annals of emergency medicine. 2017 Jul:70(1):52-62.e6. doi: 10.1016/j.annemergmed.2016.11.024. Epub 2017 Mar 2 [PubMed PMID: 28259480]

[20]

Renda R, Yüksel D, Gürer YKY. Evaluation of Patients With Febrile Seizure: Risk Factors, Reccurence, Treatment and Prognosis. Pediatric emergency care. 2020 Apr:36(4):173-177. doi: 10.1097/PEC.0000000000001173. Epub [PubMed PMID: 28486267]

[21]

Printz V, Hobbs AM, Teuten P, Paul SP. Clinical update: Assessment and management of febrile children. Community practitioner : the journal of the Community Practitioners' & Health Visitors' Association. 2016 Jun:89(6):32-7; quiz 37 [PubMed PMID: 27443029]

[22]

Offringa M, Newton R, Nevitt SJ, Vraka K. Prophylactic drug management for febrile seizures in children. The Cochrane database of systematic reviews. 2021 Jun 16:6(6):CD003031. doi: 10.1002/14651858.CD003031.pub4. Epub 2021 Jun 16 [PubMed PMID: 34131913]

Level 1 (high-level) evidence

[23]

Subcommittee on Febrile Seizures, American Academy of Pediatrics. Neurodiagnostic evaluation of the child with a simple febrile seizure. Pediatrics. 2011 Feb:127(2):389-94. doi: 10.1542/peds.2010-3318. Epub [PubMed PMID: 21285335]

[24]

Lee SH, Byeon JH, Kim GH, Eun BL, Eun SH. Epilepsy in children with a history of febrile seizures. Korean journal of pediatrics. 2016 Feb:59(2):74-9. doi: 10.3345/kjp.2016.59.2.74. Epub 2016 Feb 29 [PubMed PMID: 26958066]

[25]

Rasmussen NH, Noiesen E. [Parents of children with febrile convulsions. Multidisciplinary quality development of information and documentation]. Ugeskrift for laeger. 2001 Feb 19:163(8):1103-6 [PubMed PMID: 11242671]

Level 2 (mid-level) evidence

[26]

Sperling MR, Bucurescu G, Kim B. Epilepsy management. Issues in medical and surgical treatment. Postgraduate medicine. 1997 Jul:102(1):102-4, 109-12, 115-8 passim [PubMed PMID: 9224482]