Athletes'' leg pains.

The frequency and nature of exertion pains of the leg in athletes were studied in 2,750 cases of overuse injuries treated at the Sports Clinic of the Deaconess Institute of Oulu, Finland, during the years 1972-1977. 465 cases of exertion pain (18%) were located in the shin. The medial tibial syndrome was the most common overuse injury among these athletes, comprising 9.5% of all exertion injuries and 60% of the leg exertion pains. Together with stress fracture of the tibia, the second most common exertion pain of the leg, it accounted for 75% of the total leg pains. There are certain difficulties in differentiating between the medial tibial syndrome and stress fracture of the tibia. They both occur at the same site with similar symptoms. Radiological examination and isotope scanning are needed. The medial tibial syndrome is an overuse injury at the medial tibial border caused by running exercises. The pain is elicited by exertional ischaemia. The pathogenesis is explained by increased pressure in the fascial compartment of the deep flexor muscles due to prolonged exercise. Similar chronic ischaemic pains from exercise are also found in other fascial compartments of the leg, especially in the anterior compartment. The only treatment needed for stress fractures is rest from training. Fascial compartment pains also usually subside. If chronic fascial syndromes prevent training, fasciotomy is recommended as a reliable method to restore the athlete to normal training without pains.     

Long-term results of fasciotomy of the anterior compartment in patients with exercise-induced pain in the lower leg

This prospective study aims to describe the results of fasciotomy in patients with exercise-induced pain in the lower leg with suspected (chronic) exertional compartment syndrome. The diagnosis of (chronic) exertional compartment syndrome was made if pain in the lateral side of the lower leg after a standard physical load was accompanied by elevated tissue pressures in the anterior muscle compartment. Tissue measurements were performed in 114 patients. In 56 patients (106 compartments) increased tissue pressure was found (> 50 mmHg measured immediately after exercise, or > 30 mmHg if the pressure before exercise > 20 mmHg, or if the pressure five minutes after exercise is still > 30 mmHg). Two years after fasciotomy, (remaining) complaints were evaluated on the basis of a questionnaire: 87 % of the patients had significant reduction in complaints. Patients who were not found to have increased tissue pressure were also asked to report developments through the questionnaire. In 18 patients a fasciotomy was performed on the basis of the typical history, despite normal or slightly increased intramuscular pressures. Twelve of these patients (24 compartments) were asymptomatic after surgery. Fasciotomy in patients with a (chronic) exercise-induced compartment syndrome in the anterior compartment of the lower leg, based on our criteria, gave a marked reduction in symptoms in 87 % of the patients. Further research has to be done for the minimum tissue pressures above which fasciotomy may be successful in terms of reducing complaints.     

A prospective blinded evaluation of exercise thallium-201 SPET in patients with suspected chronic exertional compartment syndrome of the leg.

This study compared the quantitative and qualitative results of leg thallium-201 single-photon emission tomography (SPET) imaging in patients with and without raised intracompartmental pressure associated with exercise-related leg pain. The purpose of this study was to clarify the aetiology of chronic exertional compartment syndrome (CECS), and to investigate the diagnostic applications of 201Tl SPET in CECS. Thirty-four study participants underwent compartment pressure testing (CPT) between March and August 2000. There were 25 positive CPT results (patient group), and nine negative CPT results (control group). All 34 participants underwent scintigraphy. Quantitative and qualitative assessments were performed for the anterolateral and deep posterior compartments of the lower leg. There was no significant difference in either quantitative or qualitative assessments of perfusion between those compartments with and those without CECS. In contrast, a marked effect of exercise type upon compartment perfusion pattern was noted. Results of this study indicate that there is no compartment perfusion deficit in those patients with raised intracompartmental pressure associated with CECS, and suggest a non-ischaemic basis for the pain associated with CECS. They also suggest no role for exercise perfusion scintigraphy in the diagnosis of this syndrome.     

Chronic Leg Pain

Chronic pain in the calf, tibia, fibula, or muscle compartments of the leg must be carefully evaluated to make the proper diagnosis and define the most appropriate course of treatment. The most common overuse leg injuries are stress fractures, chronic exertional compartment syndrome, medial tibial stress syndrome, and strains and sprains. The history is the key component of the evaluation. Targeted questions can suggest which ancillary tests can confirm the working diagnosis. Infection, tumors, radiculopathy, and vascular compromise other than compartment syndrome are rare but must be considered in the differential.     

A prospective blinded evaluation of exercise thallium-201 SPET in patients with suspected chronic exertional compartment syndrome of the leg

This study compared the quantitative and qualitative results of leg thallium-201 single-photon emission tomography (SPET) imaging in patients with and without raised intracompartmental pressure associated with exercise-related leg pain. The purpose of this study was to clarify the aetiology of chronic exertional compartment syndrome (CECS), and to investigate the diagnostic applications of ²⁰¹Tl SPET in CECS. Thirty-four study participants underwent compartment pressure testing (CPT) between March and August 2000. There were 25 positive CPT results (patient group), and nine negative CPT results (control group). All 34 participants underwent scintigraphy. Quantitative and qualitative assessments were performed for the anterolateral and deep posterior compartments of the lower leg. There was no significant difference in either quantitative or qualitative assessments of perfusion between those compartments with and those without CECS. In contrast, a marked effect of exercise type upon compartment perfusion pattern was noted. Results of this study indicate that there is no compartment perfusion deficit in those patients with raised intracompartmental pressure associated with CECS, and suggest a non-ischaemic basis for the pain associated with CECS. They also suggest no role for exercise perfusion scintigraphy in the diagnosis of this syndrome.     

Intramuscular pressures in antigravity muscles using gravity-independent, pneumatic hardware

INTRODUCTION: Resistive exercise helps prevent muscle atrophy in microgravity, but better exercise equipment is needed. Therefore, the purpose of this study was to determine if a pneumatic, gravity-independent leg-press device (LPD) provides sufficient force to leg musculature. We hypothesized that intramuscular pressure (IMP), a quantitative index of muscle force, is greater in the antigravity superficial posterior and deep posterior compartments than in the non-antigravity anterior compartment during bilateral leg-press exercise. METHODS: Millar pressure transducers were inserted into the anterior, lateral, superficial posterior, and deep posterior muscle compartments of the left leg of eight healthy subjects (three women, five men). Subjects were supine on the Keiser SX-1, a pneumatic LPD. Then maximal voluntary contraction (MVC) was determined; each subject performed three consecutive voluntary contractions at approximately 18%, 50%, and 100% MVC while continuously measuring IMP. Repeated measures ANOVA were used to determine differences of IMPs between compartments and loads. RESULTS: The magnitudes of IMP (mean +/- SEM) at 18 - 3% (abbreviated approximately 18%), 50%, and 100% MVC in the superficial and deep posterior compartments were significantly greater than that in the anterior compartment during exercise (P < 0.05). Additionally, IMPs in all four compartments significantly rose as resistance increased at approximately 18%, 50%, and 100% MVC (P < 0.05). CONCLUSION: The LPD provides significantly increased resistance to all four compartments, but with greater loading of the antigravity compartments as compared to the non-antigravity compartment. Since antigravity muscles of the leg are contained primarily in the superficial and deep posterior compartments, the LPD may help prevent muscle atrophy associated with microgravity.     

Fasciotomy for exertional anterior compartment syndrome: is lateral compartment release necessary?

The standard surgery for exertional anterior compartment syndrome is fasciotomy of the anterior and lateral compartments of the leg. We prospectively studied the necessity of lateral compartment release, which can add morbidity and extend recovery. We performed 30 anterior compartment releases in 20 patients (10 bilateral operations) with exertional anterior compartment syndrome but not lateral compartment involvement. We alternately performed only an anterior compartment release or both anterior and lateral compartment releases on 10 patients. The 10 patients who underwent bilateral surgery each had, during the same surgery, an anterior and lateral compartment release on one leg and only an anterior compartment release on the other. All were athletes involved in running sports. Overall, satisfactory outcomes were seen in 90% of the limbs--93% (14 of 15) that had anterior compartment release and 87% (13 of 15) that had release of both compartments (no statistically significant difference). For the patients who had unilateral surgery, the average time for full return to sports was 8.1 weeks after anterior release only and 11.4 weeks after release of both compartments, a statistically significant difference. The average time for full return to sports after bilateral surgery was 12.1 weeks. Among these patients, seven said that the leg with only anterior release seemed to recover faster. We concluded that when doing a fasciotomy for exertional anterior compartment syndrome alone, a lateral compartment release is not necessary.     

Chronic exertional compartment syndrome

Chronic exertional compartment syndrome is a relatively common, but often overlooked cause of leg pain in athletes. A careful history and physical examination is essential in the diagnosis of CECS. Affected individuals have recurrent, activity-related leg pain that recurs at a consistent duration or intensity and is only relieved by rest. Measurement of baseline and postexercise compartment pressures confirms the diagnosis and helps in the planning of treatment. Surgical treatment with fasciotomy of the involved compartments is successful in allowing patients to return to full activity levels. With surgical treatment, it is critical to address all affected compartments as well as releasing any fascial defects, both of which may cause recurrent symptoms if neglected. With appropriate diagnosis and treatment, excellent outcomes can be achieved and allow athletes to return to full, unrestricted activity levels.     

Diagnosis,treatment options,and rehabilitation of chronic lower leg exertional compartment syndrome

Chronic exertional compartment syndrome of the lower leg is a well-described and documented cause of exercise-related pain in recreational, elite, and military athletes. Although this condition is common, the exact underlying mechanisms, those most at risk, long-term effects on muscular strength if unrecognized, and prevention strategies are relatively uncertain. Runners are most commonly affected and can be markedly impaired by the recurrent, often predictable pain that develops with exercise. An accurate history, high index of suspicion, and compartment pressure testing before and after symptomatic exercise confirms the diagnosis. Conservative therapy is minimally effective. Fasciotomy is the treatment of choice for athletes who are unwilling to modify their exercise or sport.     

Effort-related chronic compartment syndrome of the lower extremity

Effort-related chronic compartment syndrome (ERCCS) of the lower extremity is often misdiagnosed, requiring repeated visits to the physician and subsequent delay in definitive treatment. The most significant causes of chronic leg pain in physically active individuals are stress fractures, shin splints, and "exercise-induced" or effort-related chronic compartment syndrome. In patients susceptible to ERCCS, the fascial compartments are too small to accommodate the associated 20% increase in muscle mass that typically occurs with heavy exercise. The increased pressure within a small unyielding compartment limits circulation and subsequent muscle function. The only appropriate conservative treatment is cessation of the offending activity. Early suspicion of the condition is paramount, because the definitive treatment is fasciotomy. ERCCS has only recently been recognized, and therefore it may be underdiagnosed. Family physicians and general medical officers caring for otherwise healthy soldiers and athletes should be aware of ERCCS so that prompt orthopedic referral for evaluation and definitive treatment will not be delayed.     

Chronic compartment syndrome caused by aberrant fascia in an aerobic walker

The following is a case presentation of a 36-yr-old female athlete who presented with the symptoms and signs of chronic anterior compartment syndrome. Pre-exercise and post-exercise tissue pressure measurements revealed increased compartment pressures in both of her anterior leg compartments. Aberrant fascial bands overlying and compressing the anterior compartments were discovered at the time of surgery. Fasciotomies led to complete recovery and return to previous levels of athletic activity. This is the first report of aberrant fascia as a cause of chronic anterior compartment syndrome.     

Intramuscular pressures in exercise-induced lower leg pain

Intramuscular pressures were measured in 12 patients with symptoms of medial tibial syndrome and in 12 patients with chronic anterior compartment syndrome. Measurements were performed with the wick catheter technique simultaneously in the deep posterior and the anterior tibial muscle compartments before, during, and after exercise. In the deep posterior compartment there was no pressure increase during or after exercise as compared to controls in either patient group. However, a significant pressure increase was present in the anterior tibial compartment during and after exercise in the patients with chronic anterior compartment syndrome as compared to normal resting values. The medial tibial syndrome patients demonstrated in the anterior tibial muscle compartment, exercise and post-exercise pressures, which were between those of the healthy controls and the chronic anterior compartment syndrome patients. The so-caLled medial tibial syndrome is probably not a compartment syndrome in the deep posterior muscle compartment. Intramuscular pressure measurement is a valuable tool in diagnosing a chronic compartment syndrome and in selecting patients in whom fasciotomy of the affected compartment is indicated.     

Analysis of pre- and postexercise compartment pressures in the medial compartment of the foot

Growing awareness of chronic exertional compartment syndrome of the foot has led to the need for site-specific analysis of normative resting and postexertional intracompartment pressures. Thirty-four asymptomatic athletes underwent pressure testing of the medial foot compartment with an intracompartmental pressure measurement apparatus. Pressure measurements were recorded before exercise and after 20 minutes of running. Mean resting intracompartment pressure was 7.7 mm Hg, whereas mean pressures 1 and 5 minutes after exercise were 19.1 mm Hg and 10.7 mm Hg, respectively. These data were then compared with data from compartment pressure studies performed in nine symptomatic subjects, each with a clinical history suggestive of chronic exertional compartment syndrome of the medial foot compartment. The results demonstrated normative compartment pressures of the medial foot compartment are comparable with previously measured pressures of the leg. This study shows that previously defined criteria for diagnosis of chronic exertional compartment syndrome of the leg may also be used for diagnosis of chronic exertional compartment syndrome of the foot.     

The evaluation and treatment ofexertional compartment syndrome

Exertional compartment syndrome (ECS) is becoming increasingly recognized as a cause of exercise-induced legpain in the athletic population. Unfortunately, the pathophysiology is not clearly understood. The use of 31P-NMR has shown that ischemia is not a significant component of ECS because it is in the acute syndrome. A primary diagnosis can be made after a thorough history and physical examination. In a young patient with leg pain that is only exercise induced, reproducible and associated with a normal physical examination, a diagnosis of ECS is likely and does not need to be a diagnosis of exclusion. Confirmation with intracompartmental pressure measurement still remains the gold standard before further management. Nonoperative management is usually ineffective and fasciotomies of the affected leg(s) and compartment is the recommended treatment in the symptomatic patient. At our center, the use of a two-incision anterior and lateral compartment release, and a one-incision posterior compartment release has been very successful in returning athletes symptom free to their sporting level.     

Acute and recurrent effort-related compartment syndrome in sports

An effort-related compartmental syndrome is a condition in which increased pressure in a muscle compartment impedes blood flow and compromises metabolic demands of the tissues within that space. One can clinically distinguish acute irreversible and chronic reversible types. The aetiology relates in most instances to a limiting noncompliant fascia surrounding the affected muscle compartment. Sports activity leads to increased muscle volume and if there is a noncompliant fascia this will result in an excessive intracompartmental pressure which interferes with muscle blood flow. As a consequence of a reduced intracompartmental blood flow a reversible (recurrent) or irreversible (acute) exercise ischaemia, a so-called 'compartmental syndrome' occurs. A compartment syndrome is typically encountered in the lower leg, but it can be also observed in the upper leg and even in the forearm. Clinical history plays a key role in the diagnosis. Pain, muscle tightness and cramp-like feeling are the most common complaints. Weakness, paralysis and numbness are seen, especially in the acute syndrome. Symptoms appear at a certain intensity of activity and disappear at rest in the chronic compartment syndrome, but in the acute type pain will persist and will be severe. It is clearly an effort-related pain syndrome. Physical examination is not always useful in diagnosing a recurrent syndrome, but in the acute syndrome one will find high sensitivity to pressure and tenseness over the involved muscle compartment. Decreased or loss of active motion and sensation in the involved compartment are frequently seen. Tissue pressure monitoring can confirm the diagnosis for both types.(ABSTRACT TRUNCATED AT 250 WORDS)     

Modified criteria for the objective diagnosis of chronic compartment syndrome of the leg

One hundred fifty-nine patients were referred to the authors for evaluation of chronic exertional leg pain from 1978 to 1987. The records of 131 patients were complete and available for retrospective review. Forty-five patients were diagnosed as having a chronic compartment syndrome (CCS) and seventy-five patients had the syndrome ruled out by intramuscular pressure recordings. The only significant difference found between the two groups on history and physical examination was a 45.9% incidence of muscle herniae in the patients with CCS, compared to a 12.9% incidence in those without the syndrome. One-third of the patients with the syndrome and over one-half of those without it reported persistent, moderate to severe pain at 6 month to 9 year followup. Modified, objective criteria were developed for the diagnosis of CCS. The criteria were based upon the intramuscular pressures recorded with the slit catheter before and after exercise in 210 muscle compartments without CCS. In the presence of appropriate clinical findings, we consider one or more of the following intramuscular pressure criteria to be diagnostic of chronic compartment syndrome of the leg: 1) a preexercise pressure greater than or equal to 15 mm Hg, 2) a 1 minute postexercise pressure of greater than or equal to 30 mm Hg, or 3) a 5 minute postexercise pressure greater than or equal to 20 mm Hg.     

Chronic leg pain in athletes due to a recurrent compartment syndrome

A series of 29 patients, all engaged in sports activity on a regular basis, suffering from recurrent compartmental syndrome, is reported. The syndrome is not restricted only to long distance runners but to athletes involved in a variety of sports activities (soccer, volleyball, cycle racing, gymnastics, judo, physical education, and long distance running). Although most patients presented activity-related leg pain, some patients mainly complained of ankle weakness and recurrent ankle distortions at fatigue. The wick catheter technique proved to be most useful to determine which compartments were involved. The severity of clinical symptoms correlated highly with the anomalies of the tissue pressure measurements. The predominance of deep posterior compartment and multiple compartment involvement are in contrast with most previous reports. Conservative treatment was unsuccessful in every patient, whereas surgical decompression of the involved compartments yielded favorable results in those cases where all the involved compartments were released.     

Venous obstruction in healthy limbs: a model for chronic compartment syndrome?

PURPOSE: Chronic exertional compartment syndrome (CECS) in the anterior tibial (AT) compartment is generally believed to be the result of reduced venous blood flow caused by restrictive compartments and increased intramuscular pressures. If this is so, then restricting venous flow in the muscles of healthy subjects during exercise should mimic CECS. METHODS: This hypothesis was tested in 10 control subjects (aged 19-41 yr, five males) with and without external venous occlusion induced by a sphygmomanometer cuff fitted just below the knee and inflated to 80 mm Hg. Twenty CECS patients (20-39 yr, 16 males) were studied without external occlusion. Subjects performed intermittent, isometric maximal voluntary contractions (MVC) of the AT for 20 min (1.6-s contractions, 0.5 duty cycle). MVC, tetanic force (2 s at 50 Hz), muscle thickness (ultrasound imaging), and pain were measured during exercise and 10 min of recovery. RESULTS: Venous occlusion in the controls induced greater pain, fatigue, and increase in muscle thickness (P < 0.01). Initially the patients fatigued more slowly than the occluded controls, but at the end of exercise, the fatigue and pain were similar in these two groups. The controls showed a greater increase in muscle size (P = 0.01). Recovery was similar in all three groups, although the size of the patients' muscles recovered rather more slowly. CONCLUSION: External venous occlusion of the AT muscles in control subjects induces changes very similar to those of CECS patients, although the different time courses indicate that different processes are involved. The AT compartment of CECS patients is capable of distension.     

Posteromedial pain in the lower leg

Intramuscular pressure was recorded in 28 patients with exercise-induced posteromedial pain in the lower leg. Pressure was recorded simultaneously in the posterior tibial muscle and in the flexor digitorum muscle during an exercise test and at rest after exercise. This study shows that intramuscular pressures during exercise and the time period for normalization of the pressure at rest after exercise were within normal limits. The result of pressure recording depends on which muscle in the deep posterior compartment is investigated and on the type of work performed. This article describes some of the difficulties associated with pressure recording in the deep posterior compartment. Chronic compartment syndrome in the deep posterior compartment as a reason for pain in the posteromedial part of the lower leg could not be demonstrated.