1 / 45

Emergency Management of Seizures

Emergency Management of Seizures. Deb Funk, M.D., NREMT-P Medical Director; Albany MedFLIGHT Saratoga EMS. Goals. Review definitions, classifications and pathophysiology Discuss several patient scenarios Assessment Management

orde
Télécharger la présentation

Emergency Management of Seizures

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Emergency Management of Seizures Deb Funk, M.D., NREMT-P Medical Director; Albany MedFLIGHT Saratoga EMS

  2. Goals • Review definitions, classifications and pathophysiology • Discuss several patient scenarios • Assessment • Management • Discuss current pharmacologic techniques for management of ongoing seizures

  3. Definitions • Seizure: episodic abnormal neurologic functioning caused by abnormally excessive activation of neurons • Epilepsy: a clinical condition characterized by recurrent seizures • status epilepticus: >30min seizure or >2 seizures w/o recovery

  4. Epidemiology • 6-10% of US population will have at least 1 afebrile seizure during their lifetime • 1-2% have recurrent seizures • 100,000 new cases in US annually • Adult first time seizures represent 1% of all ED visits • incidence highest <20 and >60yrs • Male > female

  5. Classification • primary/secondary • Primary do not have obvious source • Secondary occur as a result of many types of injuries/illnesses • generalized/focal • generalized involves abnl neuron activity in both cerebral hemispheres • tonic/clonic, absence, myoclonic • focal involve 1 hemisphere • simple partial, complex partial, secondarily generalized

  6. Generalized: Tonic-Clonic Seizure • most common • vague prodromal symptoms • tonic phase • trunk flexion-->extension, eyes deviate up, mydriasis, vocalization • clonic phase • tonic contractions alternate with muscle atonia

  7. Generalized: Tonic-Clonic cont’d • loss of consciousness and autonomic alterations during both phases • any focality noted during or after seizure may point to the origin • hypocarbia (resp alkalosis/lactic acidosis), transient hyperglycemia, CSF pleocytosis, elevated serum prolactin • post ictal phase • coma-->confusional state-->lethargy, myalgia, headache

  8. Pathophysiology of Seizures • in general not well understood • neuronal recruitment is a common theory and has been demonstrated in some studies • propagation of abnormal electrical impulse to adjacent neurons along variable paths • the pathway involved usually determines the type of seizure seen • generalized sz: focus deep and midline, involving the RAS • focal sz: more limited focus of activity/does not cross midline

  9. Pathophysiology cont’d • typically self limited • bursts of electrical discharges from the focus terminate • reflex inhibition/neuronal exhaustion/alteration of neurotransmitter balance.

  10. Case 1 • 2 yr old previously healthy boy given Tylenol for tactile temp by Mom. Twenty min later had “shaking episode.” • What more do you need to know? • What do you look for on exam? • What is your assessment and plan?

  11. Febrile Seizure: Definitions • generalized seizure occurring during a sudden rise in temp in absence of intracranial infection or other defined etiology • Simple: single event lasting less than 15 min (90%) • Complex: exceed 15 min, occur more than once in 24hr period, or show focal motor manifestations (higher rate of epilepsy)

  12. Febrile Seizure: Statistics • 2-5% of children • most common pediatric seizure • 30% will have a single recurrence (1/2 of these will have multiple) • age of onset 6mos-5yrs (peak 18-24 mos) • family history conveys 2-3 times the general population risk • 2-9% develop afebrile seizures

  13. Febrile Seizures: Assessment • History • PMH/AMPLE (immunization hx) • Recent illness • Details of event • Physical Exam • MS/ABC’s • Detailed neuro exam • Search for source of fever (in ED)

  14. Febrile Seizure: management • ABCs and monitor VS • Check blood glucose • abort seizure if ongoing (benzodiazepine) • IV/IM/PR administration • Cooling measures • Transport to appropriate hospital Reference REMO Protocol P-10 Pediatric Seizures

  15. Case 2 • 42 y/o WM reportedly had a seizure at a Phish concert. Friends think he takes Dilantin. • What more do you need to know? • What do you look for on exam? • What is your assessment and plan?

  16. Epilepsy: Considerations • multiple different epilepsy syndromes • breakthrough vs noncompliance • provoking factors

  17. Epilepsy: statistics • Affects 1.5-2.5 million people in US • 30-40% patients with epilepsy continue to have breakthrough seizures despite appropriate medical management

  18. Epilepsy: assessment • History • determine: • intercurrent illness/trauma • Sleep deprivation • drug or etoh use • drug drug interactions • med compliance • recent change in dosing regimen • change in seizure pattern • Physical Exam • Evidence of injury • Detailed neuro exam

  19. Epilepsy: management • MS/ABC’s • Monitor VS and check blood glucose • Treat any injuries • Transport to appropriate hospital • IV and ALS monitor: • Multiple seizures • Single seizure without return to baseline state • Atypical seizure (type or pattern) Reference REMO Protocols M-2 Active Seizures

  20. Case 3 • 19 y/o female college student who “fell out” at a party. Witnesses describe generalized seizure activity. Confused/combative upon EMS arrival. • What more do you need to know? • What do you look for on exam? • What is your assessment and plan?

  21. Differential Considerations • Syncope • Hyperventilation syndrome • Prolonged breathholdling • toxic and metabolic disorders • ETOH abuse/withdrawal • hypoglycemia • other CNS event (TIA, migraine, narcolepsy) • movement disorders (hemiballismus, tics) • Psychiatric disorders (fugue state, panic attacks) • Functional Disorders (pseudoseizure)

  22. Characteristics of Seizure • abrupt onset • brief duration (90-120 sec) • Altered mental status (except simple partial) • purposeless activity • unprovoked (except febrile) • postictal state (except simple partial and absence)

  23. First Time Seizure: Statistics • Rates of recurrence 23-71% • Predictors of recurrence • Etiology of seizure • EEG findings

  24. Historical Information • History vital in determining the appropriate ED approach • description of event • preceding aura • loss of bowel/bladder • duration of event • post ictal period • clinical context (precipitating factors?) • febrile illness • head trauma • sleep deprivation • other stressor • baseline seizure pattern

  25. Initial Assessment • No longer seizing: recovery position, IV, glucose, medication history • preventative medications? • Is seizing still: • Airway assessment (npa, suction, ETT prn) • protect patient from self injury • pulseox, monitor, IV access, blood glucose • (hypoglycemia is the most common metabolic cause of sz, but can also be a result of prolonged sz…needs to be treated aggressively either way) • abortive therapies

  26. Detailed Physical Exam • Done after cessation of seizure activity • assess for injuries • posterior shoulder dislocation common • Temperature assessment • Bedside glucose determination • Cardiac Monitor • Assess for presence of systemic disease, toxic exposure, infection, focal neurologic event • serial neurologic exams • Todd’s paralysis: focal deficit following a seizure lasting less than 48 hours

  27. Typical Physical Exam Findings • HTN, tachycardia, tachypnea during seizure activity • incontinence, vomiting, tongue biting • low grade temp common after generalized seizure

  28. First Time Seizure: Management • MS/ABC’s • Monitor VS and check blood glucose • IV access (draw labs) • Cardiac monitor • Treat any injuries • Transport to appropriate hospital • No benzodiazepines unless seizure recurs or continues Reference REMO Protocols M-2 Active Seizures

  29. Case 4 • 6 y/o WF presents s/p “seizure.” During transport EMS witnesses a generalized tonic-clonic event. • What more do you need to know? • What do you look for on exam? • What is your assessment and plan?

  30. Status Epilepticus: Considerations • continuous clinical or electrical seizure activity or repetitive seizures with incomplete neurological recovery for >30 min • Continuous seizure activity for >10min should be treated as if in SE (most seizures last 1-2 min) • impending SE if >3 tonic-clonic seizures within 24hrs • Generalized or Partial

  31. Status Epilepticus: Considerations Generalized convulsive activity results in: • hypoxia • hyperpyrexia • BP instability and cerebral dysautoregulation • respiratory and metabolic acidosis • hyperazotemia/hypokalemia/hyponatremia • hyperglycemia followed by hypoglycemia • marked elevations of prolactin, glucagon, growth hormone and corticotropin • rhabdomyolysis may produce myoglobinuria and renal failure

  32. Status Epilepticus: Statistics • 195,000 episodes in US annually • 42,000 deaths annually in US • 50% due to acute CNS insults (anoxia, TBI, CVA, neoplasm, infection) • peds: fever/infection • elderly: cerebrovascular disease • 20% in epileptic patients during med adjustment or due to noncompliance • 30% undetermined etiology

  33. Status Epilepticus: Assessment • HPI/AMPLE • Detailed exam and history taking done once seizure has been stopped and patient has been stabilized

  34. Status Epilepticus: Management • Rapid Seizure control • Patients do better when seizure treated by EMS • Step 1: • ABC’s • NPA, OPA, ETT • If RSI needed use only short acting paralytics • blood glucose • Cardiac Monitor • IV access • HPI/PE • Further specific treatment based upon circumstance

  35. Status Epilepticus: Management • Step 2: 1st line drugs • Step 3: 2nd line drugs • Step 4: 3rd line drugs • The longer the seizure continues; • The more difficult it is to stop • The more likely permanent CNS injury will occur

  36. Medication Options • First line • diazepam (Valium) IV/ET/IO/PR • lorazepam (Ativan)IV/IN • midazolam (Versed)IV/IM/IN • Second line • phenytoin/fosphenytoin • phenobarbital • Lastly induction of anesthesia w. cont. EEG • Infusions of midazolam, diprivan, valproic acid, pentobarbital • Inhaled isoflurane

  37. Rectal Route of Administration • Surface area=200-400 cm2 (1/10,000 absorptive area of small intestine) • Highly vascularized • Passive diffusion

  38. Rates of Diazepam Absorption by Various Routes Moolenaar F. Int J Pharma. 1980.

  39. First Line Anticonvulsants

  40. Second Line Anticonvulsants

  41. Third Line Anticonvulsants

  42. Conclusions • Seizures are common presenting problems to EMS. • Status epilepticus must be treated rapidly to avoid significant morbidity. • Familiarity with protocols and medication options is crucial.

  43. Questions?

  44. References • American College of Emergency Physicians: Clinical policy for the initial approach to patients presenting with a chief complaint of seizure who are not in status epilepticus. Ann Emerg Med. May 1997;29:706-724. • ACEP, AAN, AANS, ASN: Practice parameter: Neuroimaging in the emergency patient presenting with seizure (summary statement). Ann Emerg Med. 1996;28:114-118. • Smith, BJ. Treatment of Status epilepticus. Neurologic Clinics. May 2001;19:2 • Bradford JC, Kyriakedes CG. Evaluation of the patient with seizures: an evidence based approach. Emergency Medicine Clinics of North America. Feb 1999;17:1

  45. References cont’d • Goetz. Epileptic Seizures. Textbook of Clinical Neurology, 1st ed. WB Saunders 1999. pp1062-1079 • Pollack CV. Seizures. Rosen’s Emergency Medicine: Concepts and Clinical Practice, 5th Ed. Mosby 2002. Pp145-149 • Hanhan UA, Fiallos MR, Orlowski JP. Status Epilepticus. Pediatric Clinics of North America. Jun 2001;48:3 • Lahat E, Goldman M, Barr J, et al. Comparison of intranasal midazolam with intravenous diazepam for treating febrile seizures in children: prospective randomised study. BMJ. July 200;321:83-86 • Hirtz D, Ashwal S, Berg A, et al. Practice parameter: evaluating a first nonfebrile seizure in children. Neurology. Sept 2000;55:5

More Related