Seizures

99 Seizures






Pathophysiology


Seizures are the result of inappropriate electrical activity in the brain, whereas syncope is caused primarily by transient hypoperfusion within the brain. Uncontrollable electrical discharges can originate from a single area as a result of an underlying structural condition (e.g., tumor, scar, bleeding), or it can be caused by an imbalance in inhibitory (γ-aminobutyric acid [GABA]) and excitatory (N-methyl-D-aspartate) receptor activities. The latter is usually due to toxic or metabolic causes.


The specific seizure activity is determined by the area in the brain involved (Box 99.1). Some of these abnormal electrical discharges may remain localized, whereas others may involve larger areas of the brain. Subsequently, the resultant clinical spectrum includes isolated focal motor activity, as well as generalized motor and sensory abnormalities, including altered mental status and behavioral changes.




Presenting Signs and Symptoms


If available, the previous medical history may reveal risk factors (Box 99.2) associated with the development of seizures. The history can be obtained from the patient (after normalization of mental status), family, primary care physicians, old medical records, or emergency medical service (EMS) personnel.





Differential Diagnosis and Medical Decision Making


The most common serious condition that can be misinterpreted as a seizure is syncope.5 There may be important clinical signs or preceding events that can help differentiate these two entities (Table 99.1). In many circumstances patients will be unable to provide critical information, so it is important to try to obtain an accurate description from anyone who witnessed the event (e.g., family, coworkers, EMS personnel). Aside from syncope, several other medical conditions need to be included in the differential diagnosis of seizures (Boxes 99.3 and 99-4; Table 99.2).


Table 99.1 Seizure Disorder versus Syncope











SEIZURES (SPECIFIC) NONSPECIFIC (CAN OCCUR IN BOTH) SYMPTOMS SYNCOPE (SPECIFIC)






Table 99.2 Seizure Work-up




































DIAGNOSTIC TEST COMMENT
Complete blood count May reveal anemia or an infectious process
Electrolytes (including Ca and Mg) Hypocalcemia and hypomagnesemia can be associated with seizures and should be corrected
Anticonvulsants—serum levels For patients currently taking anticonvulsants, see Table 99.5
Pregnancy test (women of childbearing age) Rule out eclamptic seizures
Serum glucose Should be determined immediately and corrected before further management
Computed tomography of the brain
Spinal tap In the event of suspected CNS infection or HIV/AIDS population
Electroencephalography Only if intubated in the emergency department or in a patient with persistent unconsciousness with an identifiable cause (rule out non–tonic-clonic status)
Magnetic resonance imaging May reveal additional CNS diagnosis and identify smaller CNS lesions
Electrocardiography Rule out dysrhythmias or drug toxicity (anticholinergics, sodium channel blockade, cyclic antidepressants)
Rule out a prolonged QTc or widened QRS interval

AIDS, Acquired immunodeficiency syndrome; CNS, central nervous system; HIV, human immunodeficiency virus.


Though rare, various disturbances in electrolytes may precipitate seizures, including hyponatremia, uremia, and hypocalcemia. A serum electrolyte assay is recommended for patients with new-onset seizures. Between 2.4% and 8% of patients with seizures will have electrolyte abnormalities. Despite the fact that the majority of these abnormalities will be clinically insignificant, they should be evaluated and can often be easily corrected in the ED.


If an overdose is suspected, both blood and urine toxicologic screens should be performed.


Measuring the serum prolactin level has no clinical utility in the ED because the results cannot be obtained in a timely manner. However, it may be useful for the consulting service that will conduct further work-up to help differentiate between epileptic (generalized tonic-clonic or complex partial seizures) and psychogenic nonepileptic seizures. It should be performed within 10 to 20 minutes after a suspected event. Prolactin levels of at least twice baseline are considered abnormal (positive). Prudent clinicians may decide to have prolactin levels measured, especially in patients with the symptoms suggestive of nonepileptic or psychogenic seizures.6

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Jun 14, 2016 | Posted by in EMERGENCY MEDICINE | Comments Off on Seizures

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