EMBARGOED FOR RELEASE ON APRIL 16
WASHINGTON (April 16, 2007) - In 2006, it was estimated
that 18,820 new cases were diagnosed and 12,820 deaths were associated with
malignant tumors of the brain and other parts of the central nervous system.
In brain tumor surgery, the goal is always to maximize the resection while
minimizing the loss of critical neurological functions. Surgically removing
brain tumors adjacent to “eloquent” or functional regions of the
brain poses significant risks for causing neurological impairments. In order
to minimize such risks, awake brain surgery with brain mapping has long been
advocated by many neurosurgeons.
Researchers at MD Anderson Cancer Center analyzed neurological outcomes of
309 consecutive patients with brain tumors occurring near or in the eloquent
cortex, the region of the brain that if disturbed, can result in loss of language
skills as well as cause varying degrees of paralysis. The most common areas
of eloquent cortex are in the left temporal and frontal lobes for speech and,
occipital lobes for vision, parietal lobes for sensation, and motor cortex
for movement.
The results of this study, Awake Craniotomy for Brain Tumors near Eloquent
Cortex: Correlation of Intraoperative Cortical Mapping with Neurological
Outcome in 300 Consecutive Patients, will be presented by Stefan Kim,
MD, 4:15 to 4:30 p.m. on Monday, April 16, 2007, during the 75th Annual Meeting
of the American Association of Neurological Surgeons in Washington, D.C.
Co-authors are Ian E. McCutcheon, MD, FRCSC, Raymond Sawaya, MD, Jeffrey
S. Weinberg, MD, Frederick F. Lang, MD, Amy B. Heimberger, MD, Franco DeMonte,
MD, FRCSC, Samuel J. Hassenbusch, MD, PhD, Laurence Rhines, MD, David Z.
Ferson, MD, Jeffrey Wefel, PhD, Dima Suki, PhD, and Sujit S. Prabhu, MD,
FRCS. This research is being honored with the Mahaley Award.
Because every individual is unique in the organization of the functional
areas of his or her brain, brain mapping technique is used to establish a real-time
functional map of the brain surface. The patient is awake, and a small area
of the brain is stimulated with a hand-held probe that emits a small electric
current. The stimulation, in essence, causes that portion of the brain to temporarily
become inactivated. Any disruption of speech or motor function signifies an
area that must not be disturbed during tumor removal. Thus, brain mapping delineates
a safe boundary for tumor resection with maximal preservation of neurological
functions. The relevancy of this technique is further corroborated by several
studies that suggest the extent of tumor removal is a strong prognostic factor
for patient survival. Without brain mapping, aggressive tumor removal near
the functional areas may not be safely carried out.
Although many have argued that functioning brain regions must be identified
and spared prior to surgical resection of the tumor, it is unclear whether
a positive identification of the eloquent areas is always necessary to minimize
functional impact of the surgery. In other words, if a series of stimulations
of the presumed eloquent areas around the tumor margin shows no disruption
of functions (meaning negative mapping) and thus no functional areas are identified
before the tumor removal is undertaken, it is not clear whether this poses
an increased risk for worsened neurological impairment after the surgery. This
research compares the results of brain mapping with neurological outcomes to
evaluate whether negative mapping adversely influences the neurological outcomes
or the extent of tumor resection.
In the study, 309 brain tumor patients were clinically evaluated before undergoing
surgery, immediately and one month post surgery. Craniotomy was tailored to
encompass tumor plus adjacent areas presumed to contain eloquent cortex. Intraoperative
cortical stimulation for language, motor, and/or sensory function was performed
in all patients to safely maximize surgical resection. Sixty-five percent of
patients had greater than 95 percent tumor removal, while 78 percent had greater
than 85 percent tumor removal. Brain mapping results, whether the eloquent
areas were identified or not, had no significant effect on the extent of resection.
The following additional outcomes were noted:
- In the early post surgery period, 36 percent of patients experienced new
or worse deficits.
- At one month post surgery, 84 percent of patients showed improved or stable
neurological status, while only 16 percent continued to exhibit new or worse
deficits.
- Eloquent areas were identified in 65 percent of patients; worsened deficits
were noted in 21 percent of this group, whereas only 10 percent of patients
with negative mapping showed such deficits.
- Positive brain mapping, extent of resection less than 95 percent, and
presence of intraoperative neurological changes were all predictors of worsened
neurological outcomes using multivariate logistic regression statistical
analysis.
- Sixty-six percent of the 59 patients who underwent rigorous neuropsychological
testing showed a significant decline from the baseline. The patients who
had positive mapping of the eloquent areas and better preoperative test performances
were more likely to evidence postoperative declines in expressive language.
“Brain mapping during awake brain surgery allows surgeons to maximize
tumor resection in eloquent brain while minimizing the morbidity associated
with its disturbance. This research shows that as long as the brain mapping
technique is properly carried out, a negative mapping of eloquent areas appears
to provide a safe margin with a lower incidence of neurological deficits, but
with a comparable extent of tumor resection,” stated Dr. Kim.
“Identification of eloquent areas did not eliminate postoperative neurological
deficits, most likely indicating close proximity of functional brain area to
tumor. What must also be emphasized is that even when these deficits do occur,
they are seldom severely debilitating. In other words, most patients who experienced
worsened neurological outcome continued to maintain similar performance status
before and after the surgery. This study again demonstrates the importance
of brain mapping before the surgeon removes the tumor because without it, the
outcome could be much more devastating to the patient,” concluded Dr.
Kim.
Founded in 1931 as the Harvey Cushing Society, the American Association of
Neurological Surgeons (AANS) is a scientific and educational association with
more than 6,800 members worldwide. The AANS is dedicated to advancing the specialty
of neurological surgery in order to provide the highest quality of neurosurgical
care to the public. All active members of the AANS are certified by the American
Board of Neurological Surgery, the Royal College of Physicians and Surgeons
(Neurosurgery) of Canada or the Mexican Council of Neurological Surgery, AC.
Neurological surgery is the medical specialty concerned with the prevention,
diagnosis, treatment and rehabilitation of disorders that affect the entire
nervous system, including the spinal column, spinal cord, brain and peripheral
nerves.
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Media Representatives: If you would like to cover
the meeting or interview a neurosurgeon - either on-site or via telephone -
please contact the AANS Communications Department at (847) 378-0517 or call
the Annual Meeting Press Room beginning Monday, April 16 at (202) 249-4010.
