Osteochondral fractures of the dome of the talus.

Osteochondral fracture of the talar dome is an uncommon lesion occurring after ankle inversion and tearing of the lateral ligaments. This lesion can be overlooked if internal oblique radiographs are not obtained. The value of tomography is discussed. Symptoms may persist for many months if accurate radiographic diagnosis is delayed. Prompt arthrotomy is indicated to prevent post-traumatic arthritis of the ankle joint.     

Posttraumatic subchondral bone contusions and fractures of the talotibial joint: occurrence of "kissing" lesions

OBJECTIVE: The objective of this study was to determine the presence and location of subchondral bone contusions, fractures, and "kissing" lesions of the talotibial joint after a sprain of the ankle shown on MR imaging. MATERIALS AND METHODS: We retrospectively reviewed the images of all consecutive patients who underwent MR imaging of the ankle after acute or recurrent sprain occurring between January and December 1997. The number and location of subchondral contusions or fractures revealed on MR imaging were recorded, and a comparison was made with the radiographs obtained for each patient. RESULTS: Of the 146 ankles, 42 osteochondral lesions were revealed on MR imaging in 26 ankles (18%) involving 23 patients. Twenty-three lesions were localized in the dome of the talus and 19, in the tibiofibular plafond. In 16 (11%) of the 146 ankles, the lesions were present in the opposing bones of the joint ("kissing" lesions). Only six of the 12 talar fractures and none of the tibial fractures involving the 26 ankles were seen on conventional radiography. CONCLUSION: Subchondral lesions in the talus and tibia are relatively common after ankle trauma, occurring in 18% of patients in our series. Kissing lesions were present in more than half of the lesions in these patients.     

Arthroscopic treatment of osteochondral lesions of the talus

A retrospective study of the arthroscopic treatment of transchondral fractures of the talar dome in 18 patients was conducted. Followup ranged from 3 months to 3 years; 10 patients had an average followup of 2 years (Group A) and 8 of 6.5 months (Group B). The 10 male and 8 female patients ranged in age from 14 to 40 years. Thirteen lesions were posteromedial while five were anterolateral. Fourteen of the 18 patients reported an inversion type injury to the ankle from playing various sports on weekends. One patient had a bimalleolar fracture of the ankle sustained in a car accident 18 months prior to referral, while the last patient in the series had a bilateral fracture of the os calcis from a work-related falling incident. All patients underwent conservative care for at least 4 months prior to referral. Arthroscopic treatment consisted of partial synovectomy, debridement of osteochondral lesions with removal of loose fragments, curettage, abrasion, and, in one case, drilling. For analysis of postoperative management, patients were divided into two groups, 10 with the 2 year followup comprising Group A and the 8 with the 6.5 month followup in Group B. Group A was nonweightbearing for 6 weeks while Group B was ambulatory 2 weeks postoperatively. Group A was fully ambulatory when the 6 week nonweightbearing period expired. All patients had a full range of motion at the time of suture removal (1 week to 10 days). Both groups were evaluated objectively and subjectively. Excellent or good results were obtained in 88% of the patients.(ABSTRACT TRUNCATED AT 250 WORDS)     

Osteochondral lesions of the talus in a sports medicine clinic. A new radiographic technique and surgical approach

A retrospective review of 11 patients seen at the University of British Columbia Sports Medicine Clinic with osteochondral lesions of the talus was undertaken. From our data, a number of points became apparent. There was a predominance of posteromedial talar dome lesions. A flexion-inversion ankle injury could be documented in the majority of cases. There was frequently a long delay in diagnosing these ankle sprain mimics. Historical details which should raise one's index of suspicion include: (1) history of flexion-inversion injury; (2) exercise-related ankle pain; (3) sensations of "clicking and catching"; and (4) persistent swelling. Surgery produced consistently good early results in these active patients without osteotomizing the medial malleolus. Experimental analysis and clinical experience suggest that the optimal radiographic technique for identifying the posteromedial osteochondral lesion consists of an anteroposterior view of the ankle in maximum plantar flexion with the kilovoltage set at 70.     

Arthroscopic treatment of anterolateral impingement of the ankle

We studied 31 patients (17 females, 14 males; average age, 34) with more than 2 years of followup who had chronic anterolateral ankle pain following inversion injury. All had failed to respond to at least 2 months of conservative treatment and had negative stress radiographs to rule out instability. On physical examination, tenderness was localized to the anterolateral corner of the talar dome. Magnetic resonance imaging was the most useful diagnostic screening test, showing synovial thickening consistent with impingement in the anterolateral gutter. At an average of 24 months after injury, all patients underwent ankle arthroscopy, which showed proliferative synovitis and fibrotic scar tissue in the lateral gutter, often with associated chondromalacia of the talus. Operative arthroscopic treatment consisted of partial synovectomy with debridement of scar tissue from the lateral gutter. Postoperatively, patients walked with crutches allowing weightbearing as tolerated. Average return to sports was 6 weeks. Histopathologic analysis performed on the resected tissue showed synovial changes consistent with chronic inflammation. Results of treatment after at least 2 year followup were 15 excellent, 11 good, 4 fair, and 1 poor. Since there are several distinct causes of chronic ankle pain, we prefer to call this problem "anterolateral impingement of the ankle" and believe the term "chronic sprain pain" should be discarded.     

The distal fascicle of the anterior inferior tibiofibular ligament as a cause of tibiotalar impingement syndrome: a current concepts review

Impingement syndromes of the ankle involve either osseous or soft tissue impingement and can be anterior, anterolateral, or posterior. Ankle impingement syndromes are painful conditions caused by the friction of joint tissues, which are both the cause and the effect of altered joint biomechanics. The distal fascicle of the anterior inferior tibiofibular ligament (AITFL) is possible cause of anterior impingement. The objective of this article was to review the literature concerning the anatomy, pathogenesis, symptoms and treatment of the AITFL impingement and finally to formulate treatment recommendations. The AITFL starts from the distal tibia, 5 mm in average above the articular surface, and descends obliquely between the adjacent margins of the tibia and fibula, anterior to the syndesmosis to the anterior aspect of the lateral malleolus. The incidence of the accessory fascicle differs very widely in the several studies. The presence of the distal fascicle of the AITFL and also the contact with the anterolateral talus is probably a normal finding. It may become pathological, due to anatomical variations and/or anterolateral instability of the ankle resulting from an anterior talofibular ligament injury. When observed during an ankle arthroscopy, the surgeon should look for the criteria described to decide whether it is pathological and considering resection of the distal fascicle. The presence of the AITFL and the contact with the talus is a normal finding. An impingement of the AITFL can result from an anatomical variant or anteroposterior instability of the ankle. The diagnosis of ligamentous impingement in the anterior aspect of the ankle should be considered in patients who have chronic ankle pain in the anterolateral aspect of the ankle after an inversion injury and have a stable ankle, normal plain radiographs, and isolated point tenderness on the anterolateral aspect of the talar dome and in the anteroinferior tibiofibular ligament. The impingement syndrome can be treated arthroscopically.     

Arthroscopic findings in chronic lateral ankle instability: do focal chondral lesions influence the results of ligament reconstruction?

BACKGROUND: There are few studies that have assessed the influence of focal chondral lesions on the results of ligament reconstruction for chronic lateral ankle instability. HYPOTHESIS: Focal chondral lesions do not influence the results of ligament reconstruction. STUDY DESIGN: Case series; Level of evidence, 4. METHODS: Arthroscopic examination of the ankle was performed on 30 consecutive patients immediately before ligament reconstruction using the palmaris longus tendon. Clinical assessment was performed using the Karlsson scoring scale. A radiologic assessment was performed on stress radiographs of the ankle. Preoperative anteroposterior and lateral weightbearing radiographs of the ankle did not show any joint space narrowing in any ankle. The mean duration of follow-up was 38 months. RESULTS: On arthroscopy, focal chondral lesions were found in 19 ankles (63%). Chondral lesions were located on the medial side of the tibial plafond in 13 ankles (43%), on the lateral side in 2 ankles (7%), on the lateral side of the talar dome in 3 ankles (10%), and on the medial side in 9 ankles (30%). Postoperative mean Karlsson scores in patients without chondral lesions and in those with chondral lesions were 99.1 and 98.4 points, respectively. Postoperative mean talar tilt angles in patients without chondral lesions and in those with chondral lesions were 5.9 degrees and 4.7 degrees , respectively. There were no significant differences in the clinical and radiologic results between patients with chondral lesions and those without chondral lesions. CONCLUSIONS: Reconstruction of the lateral ligament can be successful regardless of the presence of focal chondral lesions in patients with chronic lateral ankle instability when preoperative weightbearing radiographs of the ankle do not show any joint space narrowing.     

The posteromedial impingement lesion of the ankle. A series of six cases

We report on a series of six cases of posteromedial impingement lesion of the ankle operated on during a 3-year period with excellent or good results and a return of the patients to preinjury levels of activity. This lesion occurs, on occasion, after a severe ankle-inversion injury in which the deep posterior fibers of the medial deltoid ligament become crushed between the medial wall of the talus and the medial malleolus. Initially, posteromedial symptoms do not predominate, compared with the symptoms of the lateral ligament disruption, and they usually resolve without specific treatment. Occasionally, however, thick, disorganized fibrotic scar tissue persists and impinges between the medial wall of the talus and the posterior margin of the medial malleolus. Clinically, the patient has persistent medial to posteromedial activity-related ankle pain after a severe inversion injury, despite a sound ankle rehabilitation program. There is deep soft tissue induration immediately behind the medial malleolus with localized tenderness and reproduction of symptomatic pain on provocative testing by palpating this site while moving the ankle into plantar flexion and inversion. The posteromedial impingement lesion has a distinct pathologic picture and can coexist with other ankle lesions that cause pain after lateral ligament injury.     

Peroneal reflex contribution to the development of functional instability of the ankle joint

Sprain of the lateral ligament complex of the ankle joint is one of the most common athletic injuries. Following initial injury a large percentage of individuals develop complaints of repetitive ankle sprain, such that they feel that the ankle “gives way” or feels unstable. These complaints of “giving way” and the occurrence of repeated inversion injury have been termed functional instability of the ankle joint.Previously it was proposed that functional instability developed as a result of articular deafferentation, whereby damage to mechanoreceptors in the ankle joint supporting ligaments and capsule at the time of initial injury resulted in reduced afferent feedback to the evertor musculature of the ankle joint. Consequently it was hypothesized that the evertor musculature could not reflexively stabilize the ankle joint if it was subjected to a sudden inversion perturbation. The aim of this paper was to review the literature relating to the reflex response times of the evertor musculature of the ankle joint to sudden unexpected inversion perturbation, and thus, discuss the role of reflex activity in the peroneal muscles to the development of functional instability of the ankle joint. There is conflicting evidence regarding the extent to which ligament mechanoreceptors induce reflex stabilization of the ankle joint in response to rapid inversion movements. Even if such reflex mechanisms do exist it is unlikely that they would be fast enough to provide adequate joint protection during dynamic activity, suggesting that their actual functional relevance is limited.     

The course of the superficial peroneal nerve in relation to the ankle position: anatomical study with ankle arthroscopic implications

Despite the fact that the superficial peroneal nerve is the only nerve in the human body that can be made visible; iatrogenic damage to this nerve is the most frequently reported complication in anterior ankle arthroscopy. One of the methods to visualize the nerve is combined ankle plantar flexion and inversion. In the majority of cases, the superficial peroneal nerve can be made visible. The portals for anterior ankle arthroscopy are however created with the ankle in the neutral or slightly dorsiflexed position and not in combined plantar flexion and inversion. The purpose of this study was to undertake an anatomical study to the course of the superficial peroneal nerve in different positions of the foot and ankle. We hypothesize that the anatomical localization of the superficial peroneal nerve changes with different foot and ankle positions. In ten fresh frozen ankle specimens, a window, only affecting the skin, was made at the level of the anterolateral portal for anterior ankle arthroscopy in order to directly visualize the superficial peroneal nerve, or if divided, its terminal branches. Nerve movement was assessed from combined 10° plantar flexion and inversion to 5° dorsiflexion, standardized by the Telos stress device. Also for the 4th toe flexion, flexion of all the toes and for skin tensioning possible nerve movement was determined. The mean superficial peroneal nerve movement was 2.4 mm to the lateral side when the ankle was moved from 10° plantar flexion and inversion to the neutral ankle position and 3.6 mm to the lateral side from 10° plantar flexion and inversion to 5° dorsiflexion. Both displacements were significant (P < 0.01). The nerve consistently moves lateral when the ankle is manoeuvred from combined plantar flexion and inversion to the neutral or dorsiflexed position. If visible, it is therefore advised to create the anterolateral portal medial from the preoperative marking, in order to prevent iatrogenic damage to the superficial peroneal nerve.     

The effect of tape, braces and shoes on ankle range of motion

Sport injuries are unwanted adverse effects accompanying participation in sports. In a wide variety of sports the most common location of injury is the ankle, frequently resulting from a forced plantar flexed inversion of the foot exceeding the physiological range of motion (ROM). Historically the purpose of external support systems is to prevent acute ankle injuries by restricting abnormal ankle ROM. It is believed that a superior restrictive effect also implies a superior preventive effect. The purpose of this review was to examine the literature regarding the restricting effect of adhesive taping, prophylactic ankle stabilisers (PAS) and high-top shoes on ankle ROM. It has been found that tape restricts ankle eversion and inversion ROM significantly following application. However, tape loosens significantly following standardised exercise and sports activities. Studies regarding PAS reported that both semi-rigid and nonrigid stabilisers give a significant post-application restriction of ankle inversion motion. The nonrigid stabilisers show loosening over time during exercise, while the semi-rigid stabilisers maintain their restrictive effect over the same time span. High-top shoes in comparison to low-top shoes are more effective in restricting mechanically imposed ankle inversion ROM. Low-top shoes, however, also limit mechanically imposed ankle inversion stress with the ankle in the position in which ankle injury occurs most frequently. One must keep in mind, however, that a superior mechanical restriction of ankle ROM does not necessarily imply a superior preventive effect. Only well-controlled randomised studies can show such an effect, and these studies have shown a reduction of ankle injury incidence for all 3 prophylactic measures reviewed.     

Arthroscopic drilling with debridement of remaining cartilage for osteochondral lesions of the talar dome in unstable ankles

BACKGROUND: Arthroscopic examination has shown that the regenerative cartilage that appears after arthroscopic drilling for the treatment of osteochondral lesions of the talar dome does not always cover the cartilage defect sufficiently. HYPOTHESIS: The remaining degenerative cartilage at the lesions may obstruct the healing of the articular cartilage. STUDY DESIGN: Prospective cohort study. METHODS: Thirty-nine patients underwent arthroscopic drilling that kept the remaining cartilage at the lesion (group A), and 30 patients underwent arthroscopic drilling that removed the remaining cartilage at the lesion (group B). At 1 year after the operation, we performed ankle arthroscopy to evaluate the cartilage condition. RESULTS: The arthroscopic findings revealed that in group A, 11 cases (28.2%) were improved, 12 cases (30.8%) were unchanged, and 16 cases (41.0%) had deteriorated; in group B, 27 cases (93.1%) were improved and 2 cases were unchanged. There were significant differences between group A and group B in the rate of cases whose cartilage condition was seen to improve under arthroscopic examination (P < 0.0001). CONCLUSIONS: The study shows that in the treatment of osteochondral lesions of the talar dome, the removing of the remaining degenerative cartilage may be of some benefit in the treatment of these lesions.     

Magnetic resonance imaging findings of chronic lateral ankle instability

The ankle inversion injury is one of the most common types of injury that is encountered in athletes and active individuals. There are a wide variety of acute injuries associated with ankle inversion, including peroneal tendon tears, osteochondritis dessicans of the talus, anterior talofibular ligament avulsion, peroneal retinaculum avulsion, and calcaneofibular ligament tears. Chronic sequelae include impingement, posttraumatic degenerative arthritis, and an attenuated peroneal retinaculum. Most inversion injuries to the ankle have multiple associated injuries and isolated ligament injuries are uncommon. Chronically, the injured ankle usually demonstrates the injuries found at the time of the initial injury. Subsequently, there is a high frequency of these injuries in patients evaluated for symptoms of chronic lateral ankle instability. A high index of suspicion for the specific types of injuries associated with ankle inversions may result in a higher rate of injury detection and more expeditious and accurate diagnoses. Given the persistence of these injuries seen in patients with chronic posterolateral instability, injury patterns of ankle inversion are important to recognize even in the absence of acute trauma. We review the various types of injuries with their associated magnetic resonance (MR) imaging characteristics seen in patients with chronic lateral ankle instability.     

Injuries of the lateral ankle ligaments: classification with tenography and arthrography

To assess the value of tenography of the peroneal tendon sheaths and of arthrography of the tibiotalar joint for the diagnosis and classification of recent ruptures of the lateral ankle ligaments, the authors performed a prospective study on 108 patients with inversion trauma of the ankle. All patients underwent tenography. Arthrography was performed if results of tenography were negative. All patients with positive tenographic or arthrographic results underwent surgery. Tenography proved to be reliable in the diagnosis of injuries of the calcaneofibular ligament (sensitivity, 88%; specificity, 87%-94%). The positive predictive value of tenography in combination with arthrography was 100% for the diagnosis of lateral ligament ruptures. The authors conclude that a combination of arthrography and tenography is a reliable method for diagnosing recent ruptures of the lateral ankle ligaments and for differentiating between isolated ruptures of the talofibular ligament and combined lesions of both the talofibular and the calcaneofibular ligaments.     

Stability of the loaded ankle. Relation between articular restraint and primary and secondary static restraints

The stabilizing capacity of the ligaments and articular surface in the ankle was determined under defined physiologic loading conditions. The concept of primary and secondary constraints was adapted to the ankle. With physiologic loading, the articular surface accounted for 30% and 100% of stability in rotation and version, respectively. That the articular surface was the sole source of inversion and eversion stability under the prescribed physiologic loading conditions has not been previously reported. The demonstration that the articular surface resists inversion displacement in the loaded ankle supports the conclusion of previous studies that rotation, rather than inversion, may account for a type of clinically symptomatic ankle instability. Further, ankle instability may occur during loading and unloading but not once the ankle is fully loaded. The results of our study confirm the importance of the anterior talofibular and calcaneofibular ligaments and suggest an important role for the deltoid ligament.     

The effect of recurrent ankle inversion sprain and taping on proprioception at the ankle

PURPOSE: A common explanation for the tendency for ankle inversion sprains to recur is that proprioception is impaired by the initial sprain. It is further hypothesized that the application of tape prevents further sprains by enhancing proprioceptive acuity. The purpose of this study was to determine whether proprioception was impaired in people with recurrent ankle inversion sprain, and whether taping the ankle provided enhanced proprioceptive ability. METHODS: We compared the ability to perceive passive plantarflexion and dorsiflexion movements imposed at the relaxed ankle in 25 subjects with recurrent ankle inversion sprain, with a group of 18 healthy control subjects, matched for age, height, weight, and activity level. Subjects were tested with the ankle both taped and untaped. Detection thresholds were determined at three velocities, 0.1 degrees x s(-1), 0.5 degrees x s(-1), and 2.5 degrees x s(-1). Velocity of the imposed movements and testing of the taped and untaped conditions were randomized. RESULTS: There was no significant difference in the ability to perceive ankle movements between subjects with sprains and healthy controls at any velocity of movement tested. In addition, there was no significant difference in movement perception between the taped and untaped conditions for either subject group at any velocity. CONCLUSION: The ability to detect passive plantarflexion and dorsiflexion movements is not impaired in subjects with recurrent ankle inversion sprain. Furthermore, the protective effect of taping was shown not to arise from enhanced proprioception in the dorsiflexion-plantarflexion plane.     

Reliability of isokinetic ankle inversion- and eversion-strength measurement in neutral foot position, using the Biodex dynamometer

This study was designed to investigate the intratester and intertester reliability of isokinetic ankle inversion and eversion-strength measurement in neutral foot position in healthy adults using the Biodex dynamometer. Twenty-five men and women performed five maximal concentric contractions at 60 and 180°/s angular velocities. Two physicians tested each subject. The first physician applied the test four times, and the second physician three times. Reliability of peak torque was assessed by calculating the intraclass correlation coefficient (ICC). At both angular velocities, inversion strength was greater than eversion, and when the angular velocity was increased, inversion and eversion strength were decreased, as tested by both physicians. The first measurements of inversion and eversion strength of the first physician were significantly lower than the other measurements (p<0.01). The intratester ICCs for ankle inversion in healthy young adults were highly reliable (ICC 0.92–0.96), and for the eversion values ranged from 0.87 to 0.94. Intertester ICCs for ankle inversion and eversion peak torque values demonstrated a value of 0.95. Isokinetic tests of ankle inversion and eversion strength at 60 and 180°/s angular velocities in neutral foot position for healthy adults are highly reliable with the Biodex dynamometer.     

Effects of an ankle brace on the in vivo kinematics of patients with chronic ankle instability during walking on an inversion platform

BackgroundAs in vivo tibiotalar and subtalar joint kinematics are not currently known following the application of an ankle brace, an investigation of these kinematics may provide insight into the mechanisms of ankle braces.Research questionThis study aimed to determine the effect of an ankle brace on in vivo kinematics of patients with chronic ankle instability.MethodsEleven patients with chronic ankle instability were recruited in this study. A dual fluoroscopic imaging system and a solid modeling software were utilized to calculate the joint positions of the participants as they walked barefooted on a level platform, walked barefooted on a 15° inversion platform, and walked with an ankle brace on a 15° inversion platform. The joint positions during the three walking conditions were compared.ResultsTibiotalar joints were more inverted (pose 2, p = .004), and subtalar joints were more anteriorly translated (pose 2–6, p = .003), more plantarflexed (pose 2, p = .008; pose 3, p = .013; pose 5, p = .008; pose 6, p = .016) and more inverted (pose 1–5, p = .003; pose 6, p = .013) during barefooted walking on the inversion platform than during walking on the level platform. The inversion of subtalar joints was decreased after the brace application (pose 2–4, p = .003; pose 5, p = .004; pose 7, p = .016).SignificanceBrace application reduced the increased subtalar inversion induced by the inversion platform. Nevertheless, increased subtalar anterior translation and plantarflexion persisted after brace application. The ankle brace might be beneficial for clinical populations with increased subtalar inversion.     

Inversion injury biomechanics in functional ankle instability: a cadaver study of simulated gait

The purpose of this study was to test pathogenetic models for the "unprovoked" ankle inversion injuries seen in functional ankle unstable subjects. The consequence of spatial mal-alignment of the ankle/foot complex on the risk of producing an ankle inversion torque at heel-strike and during swing-phase follow through was analyzed in cadaver simulations. Heel-strike was simulated using a 5 degrees of freedom rig in a material testing machine. A set-up capable of accelerating lower limb specimens towards a support surface simulated swing-phase follow through. Joint excursions were monitored with flexible wire goniometers. The unloaded ankle/foot complex was placed in increasing positions of talar and subtalar joint excursions. The consequences of these settings on the behavior of the ankle/foot complex at heel-strike and when the lateral part of the foot "caught" the ground during swing-phase follow through were monitored. An inversion torque at heel-strike was first seen when the unloaded foot was set in positions exceeding 30 degrees of inversion combined with full plantar flexion and 10 degrees of internal tibial rotation. A collision between the lateral border of a 20 degrees inverted, but otherwise neutral ankle/foot complex and the ground surface during swing-phase follow through forced the foot into the full limit of inversion, plantar flexion and internal tibial rotation measurable in this set-up. Clinical consequence: The study showed that the foot/ankle complex exhibits a high degree of intrinsic stability at heel-strike. The foot will thus stabilize itself and move into normal eversion at the beginning of the stance-phase even though it is set to the ground in a substantial degree of mal-alignment. In contrast, the swing-phase collision model provides a link that can connect the small deficits in inversion angle awareness measured in chronic functional ankle unstable subjects with an increased risk in this group of sustaining ankle inversion injuries.     

Inversion and eversion strengths in the weightbearing ankle of young women. Effects of plantar flexion and basketball shoe height

Maximum isometric ankle inversion and eversion muscle strengths were measured under full unipedal weightbearing in 20 healthy young adult women. When the women wore a low-top shoe, the mean (standard deviation) maximum external eversion moments resisted with the foot in 0 degrees and 32 degrees of ankle plantar flexion were 24.1 (7.6) and 24.1 (8.1) N x m, respectively, while the corresponding values for maximum inversion moments resisted were 14.7 (6.8) and 17.4 (6.4) N x m, respectively. Both shoe height and ankle plantar flexion affected the overall inversion moment resisted by 17% (P = 0.03) at 0 degrees of ankle plantar flexion to 11.9% (P = 0.003) at 32 degrees of ankle plantar flexion. However, neither shoe height nor ankle plantar flexion significantly affected the maximum eversion moment resisted. Although eversion muscle strength of the young women averaged 39% less than the corresponding value found in young men, the sex difference was not significant when ankle strengths were normalized by body size (body weight x height). Thus, when data from healthy young men and women were averaged, eversion and inversion strengths averaged 1.6% and 2.7%, respectively, of body weight x height.