Background
Intramedullary spinal cord abscesses are infrequently encountered in everyday neurosurgical practice. Hart reported the earliest documented spinal cord abscess in 1830. Since then, fewer than 100 cases have been reported in the medical literature. With modern antibiotics and neurosurgical techniques, even fewer of these infections are expected to be encountered in the future.Since the original publication of this article, several other case reports have been published that discuss intramedullary spinal cord abscesses.These case reports, while detailing several unusual presentations of patients with intramedullary spinal cord abscesses, add little to the core concepts promulgated in the original article. Patients with intramedullary spinal cord abscesses present with neurological findings related to the level of spinal cord involvement; MRI with gadolinium is still the procedure of choice for early diagnosis; and successful outcomes depend upon early diagnosis, aggressive surgical treatment, and appropriate antibiotic treatment following surgery. Even when these guidelines are followed, 70% of patients are left with neurological sequelae.
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Problem
Spinal
cord abscesses arise in spinal cord parenchyma and can be solitary or
multiple, contiguous or isolated, and chronic or acute, depending upon
the organism and individual patient. As may be expected, solitary
lesions are more common and most likely appear in the thoracic cord.
Holocord abscesses have been reported in approximately 5 patients. Some
authors divide these abscesses into primary and secondary, depending on
the source of infection. Abscesses are considered primary when no other
infection source can be found. Secondary abscesses arise from another
infection site, either distant from or contiguous to the spinal cord,
most commonly from the lung, spine, heart valves, and genitourinary
system. Intramedullary spinal cord abscesses most commonly arise from a
secondary source such as the cardiopulmonary system or from a contiguous
source such as the mediastinum. These classifications rarely affect
treatment or patient outcome.
Epidemiology
Frequency
Fewer than 100 cases have been reported. Spinal cord abscesses occur more frequently in males than females with a peak incidence in the first and third decades of life. Too few cases have been reported to define any racial predilection. Patients with a history of intravenous drug abuse are at particularly high risk, as are other immunocompromised patients such as those with HIV, diabetes, or multiple organ failure.Etiology
The most common organisms cultured from spinal cord abscesses include Staphylococcus and Streptococcus
species, followed by gram-negative organisms. Mixed flora abscesses are
also encountered. Other unusual organisms have been reported, including
Actinomyces, Listeria, Proteus, Pseudomonas, Histoplasma capsulatum, and the tapeworm Sparganum.
In 1899, Hoche demonstrated that abscesses may occur in areas of
infarction, thus explaining the common incidence of septic spread to the
lower half of the thoracic cord. The Batson plexus (the confluence of
epidural veins in the spinal canal) may contribute to the origin of an
abscess by allowing organisms to lodge and thus develop in the spinal
cord and its surrounding parenchyma.
Pathophysiology
Spinal
cord abscesses have many of the same characteristics of abscesses in
other locations. Blood vessel involvement surrounded by an area of
infection characterizes hematogenous spread. Areas of softening and
early abscess formation characterize subacute infections (1-2 wk
duration), whereas a classic abscess wall of fibrotic gliosis
surrounding necrotic purulent material characterizes chronic infections.
However, spinal cord abscesses do not destroy fiber tracts. Instead,
the abscess displaces fiber tracts and spreads along axonal pathways.
Presentation
As
with most neurological diseases, signs and symptoms depend upon the
abscess location and duration. In an acute presentation, symptoms of
infection (eg, fever, chills, back pain, malaise) are common.
Neurological symptoms and signs include weakness, paresthesia,
dysesthesia, bladder and bowel incontinence, and acute paraplegia. The
neurological signs and symptoms are dependent upon the location in the
spinal cord of the abscess; the most common location for an
intramedullary abscess is the thoracic spinal cord. Clinical symptoms
are similar to those of patients with epidural abscesses, but percussion
tenderness is not noted.
In more chronic cases, signs and symptoms mimic those of an intramedullary tumor, and neurological symptoms predominate over those of a systemic infection. The neurological progression is gradual. A high degree of awareness is necessary to diagnose chronic spinal cord abscess; in contrast, acute abscesses are generally encountered in extremely ill patients presenting with acute onset of back pain.
In more chronic cases, signs and symptoms mimic those of an intramedullary tumor, and neurological symptoms predominate over those of a systemic infection. The neurological progression is gradual. A high degree of awareness is necessary to diagnose chronic spinal cord abscess; in contrast, acute abscesses are generally encountered in extremely ill patients presenting with acute onset of back pain.
Indications
The
presumptive diagnosis of intramedullary abscess requires prompt
definitive diagnosis. This of course necessitates demonstration of an
infection with subsequent identification of that organism; therefore,
laminectomy to diagnose and culture the organism is usually required.
Relevant Anatomy
Since
abscesses may occur anywhere along the spinal axis, anatomy varies with
location involved. As noted above, the most common location for an
intramedullary abscess is the posterior thoracic spinal cord.
Contraindications
No well-defined contraindications exist to treating spinal cord abscesses.
