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 exertional compartment syndrome of the forearm

Chronic exertional compartment syndrome (CECS) is an overuse injury characterized by increased intracompartmental pressure during exercise. CECS has been described in the foot, thigh, and trunk, but 95% of cases occur in the lower leg. Interestingly, CECS may also affect the upper extremities and has been best described in the forearms. Unfortunately, due to the rarity of this condition, there is no consensus regarding its diagnosis and treatment. This review seeks to discuss the prevalence, etiology, diagnosis, and treatment of CECS of the forearms, which has been described in the literature.     

Evaluation of Tc-99m-tetrofosmin single-photon emission computed tomography for detection of chronic exertional compartment syndrome of the leg

Chronic exertional compartment syndrome (CECS) of the leg is a common, painful condition related to exercise and associated with increased muscle compartment pressure (CP). Invasive methods are currently the method of choice for diagnosing the condition. We investigated the use of Tc-99m-tetrofosmin perfusion single-photon emission computed tomography (SPECT) as a diagnostic tool compared with the gold standard, muscle CP measurement. In 14 subjects perfusion SPECT and CP were measured before and immediately after exercise leading to pain in the lower legs. Six subjects had increased pressures indicating the presence of CECS. In three (50%) of these muscular hypoperfusion was observed by perfusion SPECT. In eight subjects with normal CPs SPECT suggested muscular hypoperfusion. Because of the low diagnostic rates, sensitivity 50% and specificity 63%, Tc-99m-tetrofosmin perfusion SPECT seems not to be a useful method for diagnosing CECS.     

Near infrared spectroscopy in the diagnosis of chronic exertional compartment syndrome

BACKGROUND: Patients with chronic exertional compartment syndrome (CECS) experience pain during exercise. An abnormal increase in intracompartmental pressure (ICP) leads to impaired local tissue perfusion resulting in ischemia and pain. At cessation of exercise, pain subsides. Diagnosis is confirmed through postexercise ICP. Near infrared spectroscopy (NIRS) can measure tissue oxygen saturation (StO(2)) noninvasively. HYPOTHESIS: NIRS can diagnose CECS by showing tissue deoxygenation. STUDY DESIGN: Prospective, nonrandomized clinical trial. METHOD: Volunteers completed a standardized exercise protocol. Those suspected of CECS did so preoperatively and postoperatively. StO(2) and ICP were monitored. Data were compared between volunteers and patients and prefasciotomy and postfasciotomy. RESULTS: Significant differences between the StO(2) values of volunteers and patients with CECS were found. Average peak exercise StO(2) value for those with CECS was lower than for the healthy (27 versus 56, P <.05). Patients showed more absolute and percentage change between baseline and peak exercise StO(2) (absolute: 60 versus 35, P <.05; percentage: 67 versus 38, P <.05). StO(2) values in legs with confirmed CECS returned to normal range postfasciotomy. All changes differed significantly with preoperative values. CONCLUSION: StO(2) can distinguish healthy from diseased legs. This study provides evidence supporting NIRS as a noninvasive, painless alternative to ICP in the diagnosis of CECS.     

A new non-invasive test for the detection of compartment syndromes

Chronic exertional compartment syndrome (CECS) is currently diagnosed using invasive pressure measurements. We report the use of 99Tcm-methoxyisobutyl isonitrile (99Tcm-MIBI) scintigraphy as a new non-invasive method of diagnosis. Forty-six patients with suspected chronic compartment syndrome underwent graded treadmill exercise to reproduce the presenting symptoms. At peak exercise, 300 MBq of 99Tcm-MIBI were injected intravenously. Subsequent cross-sectional imaging provided by emission tomography demonstrated regional abnormalities in muscle perfusion in the calf. A repeat study was performed at rest the following day. All patients in whom there was a strong clinical suspicion of CECS were considered for invasive pressure measurements. Statistical analysis of the results for investigation of CECS using 99Tcm-MIBI versus pressure studies gave P = 0.06. A comparison of 99Tcm-MIBI versus outcome gave P < 0.0001. The sensitivity was 80% and the specificity 97% for 99Tcm-MIBI studies based on outcome. The positive predictive value was 89% and the negative predictive value 94%. Thus 99Tcm-MIBI can detect compartment syndromes with good positive and negative predictive values. It is relatively simple, cheap and less invasive than pressure measurements. This technique shows promise in the diagnosis of CECS.     

Implementation of myocardial perfusion imaging in the early triage of patients with suspected acute coronary syndromes

The risk of overlooking an underlying acute coronary syndrome remains an important challenge in patients complaining of chest pain but who have a non-diagnostic ECG (CP). Indeed, myocardial scintigraphy associated with exercise testing (exercise SPET) represents a valuable tool for excluding coronary artery disease (CAD) especially in patients with CP and delayed presentation to the emergency department. We sought to implement diagnoses of CAD in the early triage of CP patients by exercise gated SPET and compare diagnoses with outcomes. A total of 306 consecutive patients presenting with CP were found to be free of CAD at first line work-up including clinical evaluation, markers of myocardial injury and echocardiogram. These patients were studied initially with exercise SPET, and those with perfusion defects underwent angiography, while those with normal scans were discharged and followed up. Patients with positive scans (34%, n=105) had documented coronary stenoses in 43% (n=45); patients with negative scans (66%, n=201) had evidence of non-fatal coronary events at 6 months in 1.5% (n=3). When imaging was analysed with gating by the presence of transmural perfusion defects associated with wall motion abnormalities (n=86), only one patient, among 19 excluded, was recognized as having coronary stenosis by angiography (SPET vs gated SPET: negative predictive value 98.5% and 98%, respectively, P=NS; diagnostic accuracy 79% and 85%, respectively; P< or =0.03). Therefore, implementation of myocardial perfusion imaging in the early triage of patients with suspected acute coronary syndromes was effectively obtained by early exercise gated SPET, especially in patients with transmural myocardial perfusion defects associated with wall motion abnormalities.     

Chronic deep posterior compartment syndrome of the leg in athletes: postoperative results of fasciotomy

The present study evaluates the efficacy of two treatment regimens in individuals possibly suffering from chronic exercise induced compartment syndrome (CECS) of the deep posterior compartment of the leg. We hypothesised that the current method of fasciotomy of the deep posterior compartment of the leg is a procedure with a limited success rate. Dynamic intra-compartmental pressure measurements were applied to 46 patients that had symptomatology of a posterior CECS. Only those patients that met predefined pressure criteria, the "high-pressure group" (27 patients), were offered surgical treatment in the form of fasciotomy. The other 19 patients, "low-pressure group", received conservative treatment, consisting of inlays and physiotherapy. In addition, these patients were examined more closely in order to exclude different pathology. Efficacy of both approaches was evaluated by a questionnaire after a mean three-year follow-up. Fifty-two percent of the high-pressure group judged their operation successful, whereas 48 % did not. The majority of the low-pressure group (84 %) was free of symptoms, after conservative treatment as well as following treatment of other pathology. The present study shows that the success rate of patients surgically treated for posterior CECS is relatively low (52 %). The established cut-off points for the compartment pressure to deselect patients for an operation are justified based on the long-term success rate of the low-pressure group.     

Intracompartmental pressure testing: results of an international survey of current clinical practice, highlighting the need for standardised protocols

Despite more recent non-invasive modalities generating some credence in the literature, intracompartmental pressure testing is still considered the 'gold standard' for investigating chronic exertional compartment syndrome (CECS). Intracompartmental pressure testing, when used correctly, has been shown to be accurate and reliable. However, it is a user-dependent investigation, and the manner in which the investigation is conducted plays a large role in the outcome of the test. Despite this, a standard, reproducible protocol for intracompartmental pressure testing has not been described. This results in confusion regarding interpretation of results and reduces the tests' reliability. A summary of the current understanding of CECS is presented, along with the results of a survey of specialists in Australia and New Zealand who perform intracompartmental pressure testing, which confirms that a uniform approach is currently not used in clinical practice. This highlights the need for a consensus and standardised approach to intracompartmental pressure testing.     

The effect of gender on intramuscular pressure in patients with chronic exertional compartment syndrome of the lower leg

This study aimed to compare intramuscular pressure (IMP) in all four compartments of the lower leg between men and women in patients with suspected chronic exertional compartment syndrome (CECS), and to assess possible effects of gender in relation to covariation factors. A consecutive series of patients with exertional leg pain (n = 962, median age 27 years, 56.2% women) underwent IMP measurements between 2009 and 2019. The CECS diagnosis was confirmed (n = 491, 48% women) or ruled out (n = 471, 65% women) based on the patient's history, clinical examination, and IMP measurements. IMP values of the compartments were compared between genders. A multiple linear regression analysis was performed for IMP in the anterior and lateral compartments, where the number of patients was large enough to investigate the possible impact of other factors such as height, age, and duration of pain. Among those with a confirmed CECS diagnosis, one-minute post-exercise IMP was significantly lower in women than in men for all four muscle compartments: anterior (median [range] mmHg 44 [24–120] vs. 50 [24–130]), lateral (35 [20–89] vs. 40 [26–106]), deep posterior (31 [25–36] vs. 34 [24–53]), and superficial posterior (32 [27–39] vs. 37 [22–54]). In the multiple regression analysis, gender differences remained significant in the anterior compartment but not the lateral compartment, where only height remained a significant predictor of IMP. Gender should be considered when using cut-off values for IMP in diagnosing CECS, especially for the anterior compartment.     

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.     

Comparison of 201Tl SPET and treadmill exercise testing in patients with Kawasaki disease

About 4% of children with Kawasaki disease ultimately develop ischaemic heart disease. Therefore, the early detection, non-invasive monitoring and long-term follow-up of myocardial ischaemia are essential. We compared the sensitivity and specificity of 201Tl single photon emission tomography (SPET) and treadmill exercise in the detection of myocardial ischaemia in 23 patients (19 boys, 4 girls) with Kawasaki disease. They were divided into two groups according to the results of coronary angiography. Group I consisted of 11 patients with coronary abnormalities; Group II consisted of 12 patients with no coronary abnormalities. The sensitivity, specificity, false-positive and false-negative rates for detecting coronary arterial lesions were 72.7% (8/11), 58.3% (7/12), 38.5% (5/13) and 30% (3/10) for 201Tl SPET, and 45.5% (5/11), 100% (12/12), 0% (0/5) and 33.3% (6/18) for treadmill exercise, respectively. We conclude that 201Tl SPET is more sensitive than treadmill exercise for the detection of coronary arterial abnormalities, but that the specificity of treadmill exercise is better than that of 201Tl scintigraphy. Coronary artery lesions detected by coronary angiography have good concordance of ischaemic areas with perfusion defects detected by 201Tl SPET. When ischaemic findings on 201Tl SPET and/or positive treadmill exercise testing are noted, coronary angiography is strongly indicated to detect possible stenotic lesions in the coronary arteries.     

Transient ischemic stunning of the myocardium in stress thallium-201 gated SPET myocardial perfusion imaging: segmental analysis of myocardial perfusion,wall motion and wall thickening changes

Prolonged and persistent myocardial stunning has recently been demonstrated using technetium-99m sestamibi gated single-photon emission tomography (SPET) myocardial perfusion imaging post exercise or pharmacological stress test. In this study, we investigated the early postischemic transient myocardial stunning on early and delayed poststress thallium-201 gated SPET myocardial perfusion imaging using segmental wall motion (WM) and wall thickening (WT) analysis. A total of 1,680 segments from 84 patients' studies (53 men and 31 women, mean age 60 years) were evaluated on both early and delayed thallium-201 gated SPET treadmill exercise (59) or dobutamine stress (25) myocardial perfusion imaging. Semiquantitative analysis of perfusion, WM and WT in all segments was performed by two observers. Segments were classified according to changes in WM and WT between early and delayed images into normal, fixed abnormality, or improved abnormality (transient stunning), and were further classified according to changes in perfusion into normal, fixed defects, or ischemic. There were significant correlations between perfusion and WM, perfusion and WT, and WM and WT segmental scores on both early and delayed images. Transient stunning was seen significantly ( P < 0.001) more often in ischemic segments than were normal or fixed perfusion defects using WM (58%) and WT (50%) assessments. There was also a significant correlation between the severity of ischemia and transient stunning with either WM ( P < 0.05) or WT ( P < 0.005) evaluation. Segmental myocardial contractility assessment from gated SPET (201)Tl myocardial perfusion imaging using WM and WT was comparable, and results correlated well with the myocardial perfusion assessment. Early transient myocardial stunning was frequently observed in ischemic segments and was related to the severity of myocardial ischemia.     

The diagnostic value of intracompartmental pressure measurement, magnetic resonance imaging, and near-infrared spectroscopy in chronic exertional compartment syndrome: a prospective study in 50 patients

BACKGROUND: Patients with chronic exertional compartment syndrome have pain during exercise that usually subsides at rest. History and physical examination may raise suspicion of the syndrome; diagnosis is usually confirmed with intracompartmental pressure measurement after exercise. Studies have shown that magnetic resonance imaging and near-infrared spectroscopy have diagnostic ability in this syndrome. HYPOTHESIS: Magnetic resonance imaging and near-infrared spectroscopy can be used to diagnose chronic exertional compartment syndrome. STUDY DESIGN: Cohort study (diagnosis); Level of evidence, 2. METHODS: Patients were enrolled if there was clinical suspicion of chronic exertional compartment syndrome, and a fasciotomy was performed based on this suspicion. Before fasciotomy, intracompartmental pressure, near-infrared spectroscopy, and magnetic resonance imaging data were collected during and after exercise on a treadmill. Near-infrared spectroscopy and intracompartmental pressure values were recorded in the same manner after fasciotomy. Retrospective proof that diagnosis of the syndrome had been correct was the absence of exertional complaints from the preoperative examination during exercise at postfasciotomy visit. RESULTS: Fifty patients (100 legs) participated in the prefasciotomy visit; 3 refused fasciotomy; 2 were lost to follow-up. Of 45 patients who completed the postfasciotomy visit, the diagnosis of chronic exertional compartment syndrome was retrospectively confirmed in 42 patients and discarded in 3 patients. The sensitivity for intracompartmental pressure (cutoff point, 35 mmHg) found in this study was 77% (67%-86%, exact 95% confidence interval), lower than estimates from the literature (93%). The sensitivity (previously defined cutoff) for near-infrared spectroscopy was 85% (76%-92%, exact 95% confidence interval), validating the estimate found in the literature (85%). Sensitivity of magnetic resonance imaging was comparable to that of intracompartmental pressure and near-infrared spectroscopy; associated specificity at a given sensitivity appeared to be lower with magnetic resonance imaging. CONCLUSION: This study validates the sensitivity of near-infrared spectroscopy and provides estimates for the sensitivity and specificity of magnetic resonance imaging in chronic exertional compartment syndrome in a large group of patients. The sensitivity of noninvasive near-infrared spectroscopy is clinically equivalent to that of invasive intracompartmental pressure measurements.     

Chronic exertional compartment syndrome of the lower extremities: improved screening using a novel dual birdcage coil and in-scanner exercise protocol

Objective The purpose of this study was to design and evaluate an MRI screening protocol for chronic exertional compartment syndrome (CECS) of the lower legs using an in-scanner exercise protocol and novel dual birdcage coil design for improved imaging. Materials and methods Coil and phantom studies: a custom-made dual birdcage coil designed for this protocol was evaluated for uniformity and signal-to-noise ratio (SNR) compared with a conventional phased-array receive-only torso coil and the body coil. Phantom and normal subject studies were performed to confirm coil performance. In-vivo studies: eight unaffected subjects and 42 patients with lower extremity symptoms suggestive of CECS were imaged with the dual birdcage coil and an in-scanner exercise protocol which included imaging at rest, during isometric resisted dorsi flexion, at rest (recovery), during isometric resisted plantar flexion and, again, at rest. Of 42 patients, 14 had confirmed CECS and 28 had lower extremity anomalies attributable to other causes. Ratios of relative T2-weighted signal intensities were calculated for exercise and recovery images compared to baseline after processing of images, including re-registration for motion, smoothing and segmentation to remove bone and pulsation artifacts from blood vessels. Results Receiver operating characteristic (ROC) analysis showed a threshold for the ratio of relative T2-weighted signal intensity of 1.54 to have a sensitivity of 96%, specificity of 90% and accuracy of 96% for CECS. Patients with CECS had their peak ratio of signal intensity compared with baseline during the first recovery period after isometric dorsi flexion, whereas unaffected subjects and patients with other causes of exercise-induced lower extremity pain reached their peak values during exercise (P < 0.001). Conclusion We have developed the first in-scanner MRI exercise protocol for the assessment of patients with suspected CECS. The technique shows high accuracy, sensitivity and specificity for diagnosis in this small cohort of patients with CECS. Further study may allow this non-invasive test to be used as a triage tool for invasive intracompartmental pressure measurements in patients with suspected CECS.     

Evaluation,diagnosis, and treatment of chronic exertional compartment syndrome: a review of current literature

Chronic exertional compartment syndrome (CECS) is a rare condition that usually affects distance runners and other running athletes. It is characterized by pain and pressure in one or multiple muscle compartments with repetitive physical activity. Reduction in pain typically occurs with cessation of activity. Evaluation of CECS consists of a thorough history of patient symptoms and ruling out of other causes of symptoms. Post-exercise pressure measurements can help confirm the diagnosis when symptoms are consistent and imaging evaluation negative for other causes. Non-operative treatment is a viable option for hindfoot runners and patients with anterior compartment syndrome of the leg. Limited-incision fasciotomy has been shown to be the most effective treatment and remains the gold standard for treatment. Minimal-incision open fasciotomy and endoscopic fasciotomy have surgical outcomes similar to wide-open fasciotomy. Military patients treated with fasciotomy have higher failure rates compared to civilians. Pediatric patients have similar outcomes compared to adults.     

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.     

Relieving the Pain of Shin Splints

The pain and swelling associated with exertional compartment syndrome is caused by raised intracompartmental pressures possibly induced by muscle swelling or increased osmotic pressure. Although either the acute or chronic form of exertional compartment syndrome may occur, chronic is more common. Patients typically experience pain and swelling and may also have sensory deficits or paresthesias, and motor loss or weakness. Diagnosis is confirmed by intracompartmental pressure measurements before and after exercise. Although activity modification may alleviate symptoms, fasciotomy may be required.     

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.     

Dipyridamole and exercise SPET provide different estimates of myocardial ischaemic areas: role of the severity of coronary stenoses and of the increase in heart rate during exercise

In patients unable to perform a maximal exercise test, dipyridamole single-photon emission tomography (SPET) has a higher capacity than exercise SPET to detect coronary artery disease (CAD). However, in patients with myocardial ischaemia who are able to perform a maximal exercise test, it is not known whether these two tests may be equally used to assess the areas of myocardial ischaemia. This study was aimed at comparing the results provided by dipyridamole and exercise SPET in CAD patients with documented exercise myocardial ischaemia. Forty CAD patients who had undergone exercise thallium-201 SPET and who had myocardial ischaemia documented by an unequivocally positive exercise test underwent an additional 201Tl SPET study after dipyridamole infusion and low-level (40 W) exercise. The extent of defects was compared between the two tests and predictors of discrepant results were sought among data from exercise testing and coronary angiography. The extent of SPET defects was equivalent between the two tests in only 11 patients (28%), larger defects being observed with exercise in 18 [average difference: 12%+/-5% of left ventricle (LV)] and with dipyridamole in 11 (average difference: 15%+/-11% of LV). The best independent predictors of discrepancies between the two tests were: (1) increase in heart rate at exercise SPET, with defects being smaller at exercise than after dipyridamole in none of the patients with an increase >60 bpm (0/14), but in 42% of the others (11/26; P=0.004); and (2) an ischaemic territory related to a <70% coronary stenosis, for which SPET defects were always induced at exercise (10/10) but in only 30% (3/10) with dipyridamole (P=0.0004). Exercise and dipyridamole SPET provide different estimates of myocardial ischaemic areas. Dipyridamole allows the unmasking of perfusion abnormalities in patients who have low increases in heart rate at exercise SPET. However, dipyridamole is also much less efficient at inducing perfusion abnormalities in the ischaemic areas supplied by coronary stenoses of intermediate severity at rest angiography.