Compartmental Syndromes.
Edited By: Frederick A. Matsen III, M.D., Winston J. Warme, MD
Last updated Thursday, February 10, 2005
Figure 1 - Tissue pressure monitoring Figure 2 - Formal exercise tests Recurrent compartmental syndromesSyndromes due to exercise Recurrent leg pain with exercise is a commonly observed symptom. A
relatively small number of patients with this symptom have recurrent
compartmental syndromes due to intensive use of muscles.
Recurrent compartmental syndromes often produce pain, muscle
tightness, and weakness that require the patient to slow down or cease
exercising altogether.
These syndromes may be diagnosed by examination of the patient
during and after exercise as well as at rest. Tissue pressure
monitoring during a standard exercise test is helpful.
Careful evaluation is required to differentiate this condition from tendinitis, shin splints, and fatigue fractures.
Patients with well-documented recurrent compartmental syndromes due
to intensive use of muscles benefit from decompression of the affected
compartment.
Intensive muscular work increases muscle volume and thus can lead to
increased intracompartmental pressure. Although increased intramuscular
pressure from exercise may resolve without producing any symptoms, it
may also give rise to two varieties of compartmental syndromes: an
acute form and a recurrent form. The acute compartmental syndrome from
intensive use of muscles is diagnosed and treated as other
compartmental syndromes along the lines presented in the foregoing
chapters. Recurrent compartmental syndromes from exercise produce a
somewhat different clinical picture and thus deserve a separate
discussion. The term "recurrent" is preferred over the more familiar
term "chronic" because the patient does not have chronic disability,
but rather is asymptomatic between recurrences. l-6 Pathophysiology Muscle volume may increase at least 20% with exercise because of both
increased capillary filtration and an increased blood content of
exercising muscle. 7-9 If the compartmental fascia is sufficiently lax,
this increase in compartmental content can be accommodated without a
significant increase in intracompartmental pressure. However, if
increased muscle volume with exercise produces an increase in tissue
pressure sufficient to interfere with muscle blood flow, a
compartmental syndrome results. Vigorous muscle contraction alone can
increase intramuscular pressure to levels that compromise muscle blood
flow. 10 Thus, the maintenance of circulation adequate to meet the high
metabolic demands of rhythmically exercising muscle requires the rapid
recovery of blood flow between contractions. 9 In a recurrent
compartmental syndrome, tissue pressure remains high between
contractions, impeding muscle blood flow and producing a relative
circulatory insufficiency as long as the vigorous exercise continues.Diagnosis Clinically, recurrent compartmental syndromes differ from the acute
variety in that symptoms are brought on by excessive exercise of the
affected compartment and dissipate with a period of rest, generally in
the order of minutes. Whereas a high degree of exertion is often
required to precipitate the symptoms, a slower pace of exercise may
allow these symptoms to resolve. In many cases symptoms recur
predictably with approximately the same amount of exercise.
Recurrent compartmental syndromes of the leg are usually found in
athletes and military recruits. The patient typically notes a painful,
tight sensation in the affected compartment along with weakness of the
muscles in that compartment. For example, a patient with a recurrent
anterior compartmental syndrome of the leg may develop a foot-slap on
heel strike due to weakness of the tibialis anterior muscle.
Occasionally, paresthesias are experienced in the distribution of the
nerves running through the affected compartment. Recurrent
compartmental syndromes are encountered most frequently in the anterior
and lateral compartments of the leg. 5 The deep and superficial
posterior compartments of the leg may also be involved.
The physical examination of the nonexercising patient with a
recurrent compartmental syndrome is often unremarkable. However,
Reneman 5 noted fascial hernias in the majority of his patients with
this condition. Garfin et al 11 pointed out that these fascial defects
tend to occur at the site of emergence of the superficial peroneal
nerve. Thus, symptoms may arise from the compartmental syndrome, from
herniation of muscle through the defect, or from local compression of
the nerve.
Because this syndrome is produced by exercise, it is most useful to
examine the compartment during and after vigorous exertion of the
muscles in the compartment. The compartment may be most conveniently
exercised by asking the patient to repeatedly contract the
compartmental muscles against manual resistance until characteristic
symptoms are produced. At this point the compartment may be palpated
for tenseness and the muscles examined for weakness. When involvement
is unilateral, the opposite side is used for comparison. The patient
may also be asked to perform exactly the exercise that causes his
symptoms with the physician running or biking at his side. This type of
"on the scene" evaluation gives the physician the most accurate idea of
what is occurring in the patient's extremities. Pain that occurs with
the first few steps, but that can be "run through," cannot be
attributed to a recurrent compartmental syndrome. Pain that comes on
after a more or less predictable amount of exercise and that requires
the patient to slow his pace or stop exercising is much more typical,
particularly if associated with a tight compartment and weakness of the
intracompartmental muscles.
Reneman 5 provided good evidence that increased tissue pressure is
important in recurrent compartmental syndromes. With the use of an
injection technique, he measured tissue pressures in the anterior
compartment of the leg before exercise and at zero, three, and six
minutes after a standard exercise test (repeated dorsiflexion of the
foot against resistance). This test was carried out in normal
volunteers and in a group of male patients in whom the need for
surgical decompression had been determined on clinical grounds. Resting
pressures were only slightly elevated in the patients requiring
surgical decompression. However, the tissue pressure six minutes after
exercise was significantly increased in all 34 of these patients.
We have used the continuous infusion technique (see Chapter 2) in a
similar exercise test to evaluate patients for recurrent compartmental
syndromes. In this application an 18-gauge catheter and an infusion
rate of 0.1 cc per hour provide a better dynamic response than the
smaller catheter and slower infusion rate used in monitoring limbs at
risk for acute compartmental syndromes. Use of the infusion technique
provides continuous pressure monitoring during and immediately after
exercise. With the catheter in the muscle of the compartment, base-line
readings are obtained. The compartmental muscles are then contracted
against resistance at a rate of one per second for three minutes.
Particular notice is taken if the patient's symptoms are reproduced
during the exercise test. In the examination of the anterior
compartment of the leg, resistance to foot dorsiflexion may be applied
manually or with the use of a hinged footboard connected through a
pulley to a 6-kg weight.
We studied seven anterior compartments of the leg in five patients
believed to have recurrent compartmental syndromes because of their
clinical findings. We also studied a control group consisting of six
male and six female volunteers (age range- 12 to 61 years; average age,
28 years). The results are quite interesting. In our patient group,
resting anterior compartment pressure averaged 16+2 mm Hg compared with
11+2 mm Hg in our control group (mean +SD). The postexercise pressure
curve in the patient group deviated dramatically from that of the
control group. For the patients, the postexercise pressures were higher
and did not return to pre-exercise levels within six minutes. These
results are identical to those of Reneman. 5 Differential diagnosis The common diagnoses requiring differentiation from recurrent
compartmental syndromes include tendinitis, fatigue fractures, and the
poorly understood entity known as shin splints. These conditions are
probably more common causes of exercise-related leg pain than are
recurrent compartmental syndromes. Although they may produce leg
symptoms similar to those of recurrent compartmental syndromes, these
conditions are not accompanied by indications of increased
intracompartmental pressure. In addition, whereas many patients can run
through symptoms due to these conditions, such is not the case with
compartmental syndromes.
Symptoms of tendinitis usually persist after the exercise has been
stopped; pain is often reproduced by passively stretching the affected
tendon. In fatigue fractures, a sharply defined area of bone tenderness
usually extends Mom one side of the bone to the other. Radiographic
evidence of periosteal new bone formation may be present in
long-standing cases. Bone scans frequently indicate locally increased
bone turnover. In shin splints, pain is usually located just behind the
medial tibial crest, often at the junction of the middle and distal
thirds of the tibia. The area of tenderness is often 10 cm or more in
length. While roentgenograms remain normal, the bone scan may show
increased bone turnover along the area of tenderness. In our
experience, patients with shin splints do not demonstrate increased
tissue pressure at rest or after exercise. Therefore, we cannot
recommend surgical decompression of the deep posterior compartment in
the treatment of this condition as suggested by Puranen. 12 Treatment Many patients with recurrent compartmental syndromes due to
intensive use of muscles are relieved to gain an understanding of their
condition and are willing to modify their exercise program to avoid the
resulting symptoms. Some serious athletes, however, are unable to
modify their exercise program and request surgical decompression.
In recurrent compartmental syndromes due to intensive use of
muscles, the surgical procedure is quite different from that used for
treating acute compartmental syndromes. First, the procedure is not an
emergency. Second, one compartment can usually be clearly identified as
being responsible for the patient's symptoms. Third, postischemic
swelling is not anticipated after the operative procedure; thus,
subcutaneous fasciotomy is appropriate. The fascial incision is made
through two small skin incisions and runs the entire length of the
compartment, leaving no fascial bridges. Care is required to avoid
injuring the branches of the superficial peroneal nerve in
decompressing the anterior compartment of the leg, as pointed out by
Garfin et al. 11 At the end of the procedure, the skin is closed with a
cosmetic suture. The patient is warned that the extremity may swell
with dependency for a few days up to a few weeks after the procedure. A
progressive exercise program is instituted one week after surgery.
To date we have operated on five anterior compartments of the leg in
four patients. These have included a runner, a race walker, an ice
skater, and a professional soccer referee. All had significant
improvement after their surgical procedure and returned to their
activities. Reneman 5 6 also noted excellent results from his treatment
of patients with this condition. Thirty-six of 40 patients who
submitted to surgery were able to resume physical activities that had
been prohibited by symptoms before surgery. One patient did not
experience improvement, and three were lost to follow-up.
The following case report presents an instructive example of a
recurrent compartmental syndrome due to intensive use of muscles:
A 32-year-old white male world class race walker had a 15-year
history of painful tightness in both anterior compartments during
exercise. His symptoms would typically appear in the first three or
four miles of race walking at a competitive speed, although they could
be avoided if he walked at a somewhat slower pace. The pain was
accompanied by weakness of foot dorsiflexion noted as a foot-slap on
heel strike. The patient also observed a vague numbness over the dorsum
of his foot after the onset of pain. Although he was able to complete
longer races and marathons, his speed was retarded by his symptoms.
Routine physical examination was unremarkable. No fascial hernias
were detected. Upon repeated dorsiflexion of his foot against
resistance, his anterior compartments became tense and his symptoms
were reproduced. Formal exercise tests were conducted while anterior
compartmental pressures were monitored using the continuous infusion
technique. Resting anterior compartment pressures measured 15 mm Hg on
the left and 14 mm Hg on the right. Postexercise pressures were
markedly elevated and showed a retarded return toward the pre-exercise
level.
Subcutaneous fasciotomies of both anterior compartments were
performed. Six weeks after operation the patient was asymptomatic. A
repeat pressure test during exercise at this time revealed a normal
response. The patient returned to full training and competition. He
placed in the top five in the Pan American games six months after
surgery and at this writing is a strong candidate for the United States
Olympic race walking team. Surgery for Compartmental Syndromes at the University of Washington If you are interested in making an appointment to discuss this procedure, you can request an appointment using our online referrals website. To request a referral online, please click here. You can also call 206-598-BONE (2663) to make an appointment.
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