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Table of Contents
Terms Used In This Article
dura - thick, outer covering of the brain and spinal cord
duraplasty - surgical technique where the dura is expanded by sewing
a patch into it
foramen magnum - opening at the base of the skull through which the
brain connects with the spinal cord
intraoperative - during a surgical procedure
posterior fossa decompression (PFD) - in this study, refers to Chiari
surgery in which the dura was not opened
posterior fossa decompression with duraplasty (PFDD) - in this study,
refers to Chiari surgery which included duraplasty,
prospective - type of research study which follows patients forward
from a point in time
retrospective - type of research study which uses medical records to
look back in time
ultrasound - imaging technique which is sometimes used during Chiari
surgery to determine if the dura needs to be opened
Common Chiari Terms cerebellar tonsils -
portion of the cerebellum located at the bottom, so named because of their
shape
cerebellum - part of
the brain located at the bottom of the skull, near the opening to the spinal
area; important for muscle control, movement, and balance
cerebrospinal fluid (CSF) - clear liquid in the brain and spinal
cord, acts as a shock absorber
Chiari malformation I -
condition where the cerebellar tonsils are displaced out of the skull area
into the spinal area, causing compression of brain tissue and disruption of
CSF flow
decompression surgery -
general term used for any of several surgical techniques employed to
create more space around a Chiari malformation and to relieve compression
syringomyelia -
condition where a fluid filled cyst forms in the spinal cord
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July 31, 2008 -- For several years now many surgeons have been using a
type of imaging known as intraoperative ultrasound to determine whether it
is necessary to open the dura during surgery. However, a recent study
from Johns Hopkins (McGirt et al.) and published in the July, 2008 issue of
the Journal of Neurosurgery: Pediatrics shows that ultrasound may not
be reliable in determining whether a duraplasty is required.
As reported numerous times in this publication
(including in this issue), there is an ongoing debate in the surgical
community about whether and when to open the dura as part of Chiari surgery.
Some surgeons, especially pediatric ones, have recently begun performing
what are called bone only decompressions on selected patients. The
major advantage of removing only bone and not opening the dura is that it
dramatically reduces CSF related complications and in general is a less
traumatic procedure. The drawback is that in some cases it may not be
sufficient and a full duraplasty may be required in a follow-up procedure.
Even the advocates of bone only decompression admit that patient selection
is the key to success with the less invasive procedure, however objective
guidelines for finding good candidates have failed to materialize.
That is why some surgeons have turned to using
ultrasound, which can provide images using sound waves, during surgery to
make the decision on whether to open the dura. Now the study from
Hopkins calls into question the effectiveness of this practice.
Specifically, the researchers looked at the rate of symptom persistence and
recurrence in 256 pediatric Chiari cases treated surgically over a ten year
period. The average age of the patients was 10 years and 47% were
boys. Twenty-seven percent had syringomyelia and 11% had scoliosis.
The extent of each patient's tonsillar herniation was classified as follows
(note this has nothing to do with their symptom severity):
Using this criteria, the vast majority of the cases had moderate herniation
(76%, Figure 1).
The decision on whether to recommend surgery was based
on the imaging and whether patients had symptoms commonly associated with
Chiari, such as headaches and brainstem related problems. In general,
cases with very mild herniations and symptoms which were vague were
discouraged from having surgery.
Three surgeons performed similar procedures on all the
patients. Ultrasound was used to visualize the space around the
tonsils and it was left to each surgeon's discretion whether to open the
dura as part of the procedure. Overall, duraplasty was performed 55%
of the time (140 patients). The group was followed for an average of
29 months and tracked for symptom persistence and/or recurrence.
As a group, symptoms resolved 78% of the time and
persisted or recurred 22% of the time. In nineteen children (7%), the
symptoms were severe enough to require additional surgery. When the
researchers compared the duraplasty patients to the bone only patients, they
found that for moderate and severe herniations, patients who had a bone only
decompression were twice as likely to experience symptom recurrence.
In other words, for herniations at the C1 level and beyond, the
intraoperative ultrasound did not seem to do a good job in indicating
whether the dura should be opened. However for mild herniations, the
ultrasound appeared to be adequate.
An accompanying Editorial points out several
limitations of this study which the authors readily acknowledge.
Specifically, that the selection of patients for surgery in the beginning
was subjective, that the interpretation of the ultrasound results during
surgery was subjective, and that the outcome assessments are based on
patient self-reports. Interestingly, the Editor calls for something
that Conquer Chiari has begun pushing for in the research community, namely
a validated assessment measure of the severity of Chiari symptoms and/or a
quantitative MRI measurement which correlates with symptom severity.
In addition, the Editor makes a general call, which Conquer Chiari
wholeheartedly supports, for greater scientific rigor in the structure and
methods of Chiari research.
On the positive side, McGirt and his colleagues have
begun using what can be called actuarial reporting of their outcome data
(which the journal Editor applauded). This style of data report shows
the patient outcomes over the entire time period of follow-up rather than
just at one or two points in time. What it also shows is something
many Chiari patients know first-hand, that while they may feel better right
after surgery, in a significant number of cases, symptoms start to come back
over time.
-- Rick Labuda
Back to Table of Contents |
Key Points
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Recently, many surgeons have begun
to use intraoperative ultrasound to guide whether the dura should be opened
as part of surgery
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No real data has been published on
how this affects outcomes
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Study from Johns Hopkins looked at
symptom persistence/recurrence in 256 pediatric Chiari cases where
ultrasound was used to decide whether to open the dura
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In all, the dura was opened 55% of
the time and a bone only decompression was performed 45% of the time
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Although overall results were good,
for herniations below the level of C1, a bone only decompression was twice
as likely to result in symptom recurrence
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Authors believe that larger
herniations can not be judged using ultrasound unless more objective
measures are developed
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An accompanying editorial called for
the development of a validated Chiari assessment instrument and the adoption
of stricter standards in Chiari research
Figure 1: Extent of
Tonsillar Herniation (256 Patients)
| Extent of Herniation |
Number of Patients |
Percent |
| FM - C1 |
38 |
15% |
| C1-C2 |
195 |
76% |
| Below C2 |
23 |
9% |
Notes: FM = foramen
magnum; C1 = first cervical vertebra, C2 = second cervical vertebra
Source: McGirt MJ, Attenello FJ, Datoo G, Gathinji M, Atiba A,
Weingart JD, Carson B, Jallo GI.Intraoperative ultrasonography as a guide to
patient selection for duraplasty after suboccipital decompression in
children with Chiari malformation Type I.J Neurosurg Pediatrics. 2008
Jul;2(1):52-7
Related C&S News
Articles:
Ultrasound Can Determine Extent Of Surgery Necessary
Study Shows Promise For
Conservative Surgery In Adults
New Dural Patch Found To Be Safe And
Effective
Limited
Surgery Shown To Be Effective In Children
To Open or Not To Open The Dura; That Is The Question |