AssessmentsMeningitis, encephalitis and brain abscesses: Clinical practice
USMLE® Step 1 style questions USMLE
USMLE® Step 2 style questions USMLE
A 25-year-old woman is brought to the emergency department due to the recent onset of seizure. Her parents report that 2 days ago, she started complaining of headaches and fever after returning from a fishing trip to Florida. Temperature is 38.9°C (102°F), pulse is 75/min, and blood pressure is 120/85 mmHg. On physical examination, the patient is postictal and responds only to noxious stimuli. Pupils are equal and react sluggishly to light. Meningeal signs are positive. Imaging results are equivocal. Lumbar puncture is obtained, and the results are shown below:
Cerebrospinal fluid Opening pressure 500 mm H2O Protein 250 mg/dL Glucose 20 mg/dL RBCs 1000 cells//mm3 WBC count 10000/µL Neutrophils 90% Lymphocytes 10% Gram stain Negative Wet mount
Retrieved from: Wikimedia Commons
Which of the following is the most appropriate treatment for this patient’s condition?
Content Reviewers:Rishi Desai, MD, MPH
If pathogens make their way into these layers, the inflammatory response results in meningitis.
And if a pathogen walls itself off - it’s called a brain abscess.
Meningitis can be caused by viruses, bacteria - including mycobacteria like TB, fungi, and parasites.
Now, the most common causes of acute bacterial meningitis depend on the individual’s age.
It’s also important to consider Listeria monocytogenes in adults over the age of 50 or those who are immunocompromised.
Other less common, but extremely important bacterial causes include Mycobacterium tuberculosis, lyme meningitis, rocky mountain spotted fever, and neurosyphilis. These are separated from the other causes because they’re usually associated with a specific risk factor.
For example, tuberculous meningitis occurs in individuals with a history of exposure to tuberculosis, oftentimes infants living in endemic areas.
Finally, Rocky Mountain Spotted Fever is caused by Rickettsia rickettsii and is carried by the Dermacentor dog tick and is endemic to central and south America, as well as the southeast United States.
Now, viruses can cause aseptic meningitis, meningoencephalitis or pure encephalitis.
Pure encephalitis without meningitis is usually caused by viruses. The most common cause is a group of viruses called enteroviruses, like echovirus and coxsackie virus. From their name, these viruses make their way into the body through the intestines.
Herpes simplex virus, or HSV, is a very important cause of meningoencephalitis.
Other viruses include arboviruses like West Nile virus, which use a mosquito vector.
Measles can cause encephalitis in the acute phase of the illness. However, even after the acute infection has resolved, a form of encephalitis called subacute sclerosing panencephalitis or SSPE can appear up to 10 years later!
Additionally, Coccoides immitis is a potential cause of fungal meningitis, especially in the Southwestern United States.
As for parasites, a particularly fatal form of meningoencephalitis is caused by Naegleria fowleri is primary amebic meningoencephalitis. This organism is called the “brain-eating amoeba”, and it’s usually acquired from freshwater. It makes its way to the brain through the nasal passages - like when someone dives into water and it rushes up through the cribriform plate.
Finally, it’s important to remember that the same pathogens that can cause meningitis can also cause meningoencephalitis.
Acute bacterial meningitis and HSV meningoencephalitis usually present within hours to a few days.
Viral meningitis, Cryptococcal meningitis, Lyme disease, and Rocky Mountain Spotted Fever usually present over the course of days to weeks, while tuberculosis, coccidioides, and syphilis tend to present over the course of months.
Importantly, infants can present more subtly with irritability and poor feeding.
Additionally, some clinical clues on physical exam may point towards a specific cause.
Also on examination, resistance to flexion of the neck indicates neck rigidity, and fundoscopy of the eye can reveal papilledema, which indicates an increased intracranial pressure. Sometimes, there may also be focal neurological deficits like cranial nerve, motor, or sensory deficits.
Helpful signs include the Kernig and Brudzinski signs.
To illicit the Kernig sign, place the individual in a supine position. Then, flex the hip to 90 degrees and attempt to extend the knee. If the individual has pain with full extension of the knee, that’s a positive Kernig sign.
To illicit the Brudzinski sign, you have to passively flex the neck, and if there’s involuntary flexion of the hips due to pain, then that’s a positive Brudzinski sign.
A helpful way to remember these signs is: “Kernig” starts with a “K”, like “knee”, and Brudzinski starts with a “B”, like “back of the head”.
Now, these signs aren’t particularly sensitive, so negative Kernig and Brudzinski signs don’t exclude meningitis.
When meningitis or encephalitis is suspected, it’s important to first identify any risk factors for increased intracranial pressure because increased intracranial pressure is a risk factor for cerebral herniation precipitated by a lumbar puncture, and that can be lethal.
In individuals without any of these risk factors, the lumbar puncture is done right away without needing a CT scan.
The logic behind giving IV dexamethasone before IV antibiotics is that it reduces that inflammatory response that usually occurs when antibiotics destroy bacterial cells.
Steroids decrease mortality and the risk of complications like hearing loss, cranial nerve palsies and seizures, particularly from Streptococcus pneumoniae as well as Haemophilus influenzae in children. So, if these pathogens are suspected or found based on the gram stain or culture, then dexamethasone is continued for 4 days. If not, the IV dexamethasone is stopped.
In addition to empiric antibiotics, if the individual has features of encephalitis, such as the presence of abnormal brain function in an adult or fussiness or lethargy in an infant, or temporal lobe enhancement on CT scan, then empiric intravenous acyclovir should be added, because it’s crucial to not delay treatment if herpes simplex encephalitis is a possibility.
If the individual does have one of the risk factors of increased intracranial pressure, then blood cultures are obtained, IV dexamethasone is given, and then 15 minutes later IV antibiotics are started, along with IV acyclovir if herpes simplex encephalitis is suspected.
After that a head CT is obtained, which can identify any mass lesions which might cause the symptoms of an increased intracranial pressure. The head CT might also show some helpful clues. For example, herpes simplex encephalitis commonly cause temporal lobe enhancement, and tuberculous meningitis often involves the brainstem. So, if the CT scan is normal, then the lumbar puncture can be done safely.
There are five key things that are looked at in cerebrospinal fluid: opening pressure, white blood cell count and differential, protein level, glucose level, and gram stain and culture. These can help differentiate between normal CSF and a bacterial, viral, fungal or tuberculous cause of meningitis.
Normally, the opening pressure is below 200 millimeters of water, and only up to 5 white blood cells are present per cubic millimeter. 70 percent of those white blood cells are lymphocytes, 30 percent are monocytes, and very few are neutrophils.
Normal cerebrospinal fluid protein levels range between 15 to 50 milligrams per deciliter, and glucose levels are usually between 45 to 100 milligrams per deciliter. The glucose in cerebrospinal fluid is often two-thirds of that in the serum.
Now, the opening pressure is usually over 200 millimeters of water in all forms of meningitis.
There’s also an elevated white blood cell count in the cerebrospinal fluid called pleocytosis, and is usually in the thousands in bacterial meningitis, and in the hundreds in viral, fungal, and tuberculous meningitis.