Ligament Laxity Following Inversion Injury with and without Chronic Ankle Instability

2008 ◽  
Vol 29 (3) ◽  
pp. 305-311 ◽  
Author(s):  
Tricia J. Hubbard
Keyword(s):  
Repeated Measures ◽  
Mixed Model ◽  
Ankle Instability ◽  
Chronic Ankle Instability ◽  
Ankle Sprains ◽  
Significant Group ◽  
Lateral Ankle ◽  
Anterior Displacement ◽  
Ligament Laxity ◽  
And Inversion

Background: Not all patients develop chronic ankle instability (CAI) after one or more lateral ankle sprains; some seem to heal or adjust to the ankle laxity after injury. Why do some patients develop CAI and others are able to cope and return to normal function? The purpose of this study was to examine ligament laxity between subjects with and without CAI. Materials and Methods: Sixteen subjects with unilateral CAI and 16 subjects without participated in the study. Ligament laxity was measured with an instrumented ankle arthrometer. The arthrometer measured ankle joint motion for anterior/posterior displacement (mm) during loading at 125 N and inversion/eversion rotation (degrees of ROM) during loading at 4000 N/mm. For each dependent variable a 2 × 2 mixed model ANOVA was run with the between factor being group (CAI, No CAI) and the within factor with repeated measures being side (involved, uninvolved). Results: A significant group by side interaction for anterior displacement (F1,30 = 370.085, p < 0.001), and inversion rotation (F1,30 = 7.455, p = 0.010) was found. There was significantly more anterior displacement and inversion rotation for the involved ankles of the CAI group than the involved ankles of the stable group and the uninvolved ankles of the CAI group. Conclusion: Based on the results of this study it appears that the increased anterior displacement and inversion rotation compared to patients without instability may be why subjects develop CAI. Although the patients without instability have a history of more than one lateral ankle sprain, they did not demonstrate increased laxity, which may be the reason why they do not complain of the functional impairment demonstrated in subjects with CAI.

scholarly journals Evaluating and Differentiating Ankle Instability

2019 ◽  
Vol 54 (6) ◽  
pp. 617-627 ◽  
Author(s):  
Phillip A. Gribble
Keyword(s):  
Ankle Instability ◽  
Chronic Ankle Instability ◽  
High Rate ◽  
Diagnostic Tools ◽  
Ankle Sprains ◽  
Lateral Ankle ◽  
The Status ◽  
History Of ◽  
Ankle Complex

Given the prevalence of lateral ankle sprains during physical activity and the high rate of reinjury and chronic ankle instability, clinicians should be cognizant of the need to expand the evaluation of ankle instability beyond the acute time point. Physical assessments of the injured ankle should be similar, regardless of whether this is the initial lateral ankle sprain or the patient has experienced multiple sprains. To this point, a thorough injury history of the affected ankle provides important information during the clinical examination. The physical examination should assess the talocrural and subtalar joints, and clinicians should be aware of efficacious diagnostic tools that provide information about the status of injured structures. As patients progress into the subacute and return-to-activity phases after injury, comprehensive assessments of lateral ankle-complex instability will identify any disease and patient-oriented outcome deficits that resemble chronic ankle instability, which should be addressed with appropriate interventions to minimize the risk of developing long-term, recurrent ankle instability.

scholarly journals Surgical Management of Lateral Ankle Instability in Athletes

2019 ◽  
Vol 54 (6) ◽  
pp. 639-649 ◽  
Author(s):  
Luis D. Camacho ◽  
Zachary T. Roward ◽  
Yu Deng ◽  
L. Daniel Latt
Keyword(s):  
Surgical Management ◽  
Ankle Instability ◽  
Chronic Ankle Instability ◽  
Anatomic Reconstruction ◽  
Ankle Sprains ◽  
Functional Rehabilitation ◽  
Ankle Ligaments ◽  
Lateral Ankle ◽  
Initial Surgery ◽  
Lateral Ankle Ligaments

Ankle sprains are common injuries involving the lateral ankle ligaments and affect athletes of all levels. Most patients heal uneventfully, but those with symptoms persisting past 3 months should be evaluated for chronic ankle instability and its associated conditions as well as for the presence of varus malalignment. Chronic ankle instability is initially treated nonoperatively, with surgical management reserved for those who have failed to improve after 3 to 6 months of bracing and functional rehabilitation. Anatomic repair using a modification of the Broström procedure is the preferred technique for initial surgery. Anatomic reconstruction with tendon graft should be considered when repair is not possible, as it maintains physiological joint kinematics. Nonanatomic reconstructions are seldom indicated. Arthroscopic repair or reconstruction of the lateral ankle ligaments is a promising new technique with results similar to those of open surgery.

scholarly journals Gait Kinematics After Taping in Participants With Chronic Ankle Instability

2014 ◽  
Vol 49 (3) ◽  
pp. 322-330 ◽  
Author(s):  
Lisa Chinn ◽  
Jay Dicharry ◽  
Joseph M. Hart ◽  
Susan Saliba ◽  
Robert Wilder ◽  
...  
Keyword(s):  
Confidence Intervals ◽  
Gait Cycle ◽  
Sagittal Plane ◽  
Ankle Instability ◽  
Knee Kinematics ◽  
Chronic Ankle Instability ◽  
Mean Difference ◽  
Ankle Sprains ◽  
Lateral Ankle ◽  
Gait Kinematics

Context: Chronic ankle instability is characterized by repetitive lateral ankle sprains. Prophylactic ankle taping is a common intervention used to reduce the risk of ankle sprains. However, little research has been conducted to evaluate the effect ankle taping has on gait kinematics. Objective: To investigate the effect of taping on ankle and knee kinematics during walking and jogging in participants with chronic ankle instability. Design: Controlled laboratory study. Setting: Motion analysis laboratory. Patients or Participants: A total of 15 individuals (8 men, 7 women; age = 26.9 ± 6.8 years, height = 171.7 ± 6.3 cm, mass = 73.5 ± 10.7 kg) with self-reported chronic ankle instability volunteered. They had an average of 5.3 ± 3.1 incidences of ankle sprain. Intervention(s): Participants walked and jogged in shoes on a treadmill while untaped and taped. The tape technique was a traditional preventive taping procedure. Conditions were randomized. Main Outcome Measure(s): Frontal-plane and sagittal-plane ankle and sagittal-plane knee kinematics were recorded throughout the entire gait cycle. Group means and 90% confidence intervals were calculated, plotted, and inspected for percentages of the gait cycle in which the confidence intervals did not overlap. Results: During walking, participants were less plantar flexed from 64% to 69% of the gait cycle (mean difference = 5.73° ± 0.54°) and less inverted from 51% to 61% (mean difference = 4.34° ± 0.65°) and 76% to 81% (mean difference = 5.55° ± 0.54°) of the gait cycle when taped. During jogging, participants were less dorsiflexed from 12% to 21% (mean difference = 4.91° ± 0.18°) and less inverted from 47% to 58% (mean difference = 6.52° ± 0.12°) of the gait cycle when taped. No sagittal-plane knee kinematic differences were found. Conclusions: In those with chronic ankle instability, taping resulted in a more neutral ankle position during walking and jogging in shoes on a treadmill. This change in foot positioning and the mechanical properties of the tape may explain the protective aspect of taping in preventing lateral ankle sprains.

scholarly journals Systematic Review of Postural Control and Lateral Ankle Instability, Part I: Can Deficits Be Detected With Instrumented Testing?

2008 ◽  
Vol 43 (3) ◽  
pp. 293-304 ◽  
Author(s):  
Patrick O. McKeon ◽  
Jay Hertel
Keyword(s):  
Postural Control ◽  
Ankle Sprain ◽  
Ankle Instability ◽  
Chronic Ankle Instability ◽  
Effect Sizes ◽  
Ankle Sprains ◽  
Lateral Ankle Sprain ◽  
Lateral Ankle ◽  
Increased Risk ◽  
Clinical Questions

Abstract Objective: To answer the following clinical questions: (1) Is poor postural control associated with increased risk of a lateral ankle sprain? (2) Is postural control adversely affected after acute lateral ankle sprain? (3) Is postural control adversely affected in those with chronic ankle instability? Data Sources: PubMed and CINAHL entries from 1966 through October 2006 were searched using the terms ankle sprain, ankle instability, balance, chronic ankle instability, functional ankle instability, postural control, and postural sway. Study Selection: Only studies assessing postural control measures in participants on a stable force plate performing the modified Romberg test were included. To be included, a study had to address at least 1 of the 3 clinical questions stated above and provide adequate results for calculation of effect sizes or odds ratios where applicable. Data Extraction: We calculated odds ratios with 95% confidence intervals for studies assessing postural control as a risk factor for lateral ankle sprains. Effect sizes were estimated with the Cohen d and associated 95% confidence intervals for comparisons of postural control performance between healthy and injured groups, or healthy and injured limbs, respectively. Data Synthesis: Poor postural control is most likely associated with an increased risk of sustaining an acute ankle sprain. Postural control is impaired after acute lateral ankle sprain, with deficits identified in both the injured and uninjured sides compared with controls. Although chronic ankle instability has been purported to be associated with altered postural control, these impairments have not been detected consistently with the use of traditional instrumented measures. Conclusions: Instrumented postural control testing on stable force plates is better at identifying deficits that are associated with an increased risk of ankle sprain and that occur after acute ankle sprains than at detecting deficits related to chronic ankle instability.

Patient with an Ankle Sprain

2016 ◽  
Author(s):  
Andrea Trescot
Keyword(s):  
Complex Regional Pain Syndrome ◽  
Ankle Sprain ◽  
Ankle Instability ◽  
Age Groups ◽  
Pain Syndrome ◽  
The Elderly ◽  
Chronic Ankle Instability ◽  
Ankle Sprains ◽  
Lateral Ankle ◽  
High Ankle Sprain

Ankle sprains are a very common injury, suffered by approximately 25,000 patients per year, and affect all age groups, including children, athletes, and the elderly. The recognition of the type of ankle sprain (medial, lateral, syndesmotic) affects early and late management of ankle sprains. Also discussed are the acute diagnosis and treatment of ankle sprains, as well as the consequences of chronic ankle instability, which may include serious conditions such as complex regional pain syndrome and chronic ankle instability. Surgical and nonsurgical treatment, evaluation, prognosis, and prevention are also discussed. Key words: ankle pain, ankle sprain, chronic ankle instability, complex regional pain syndrome, cryoneuroablation, high ankle sprain, lateral ankle sprain, medial ankle sprain, 

Effects of a 4-Week Biomechanical Ankle Platform System Protocol on Balance in High School Athletes With Chronic Ankle Instability

2017 ◽  
Vol 26 (1) ◽  
pp. 1-7 ◽  
Author(s):  
Mary Spencer Cain ◽  
Stacy Watt Garceau ◽  
Shelley W. Linens
Keyword(s):  
High School ◽  
Athletic Training ◽  
Outcome Measures ◽  
Ankle Instability ◽  
Chronic Ankle Instability ◽  
Ankle Sprains ◽  
High School Athletes ◽  
Balance Test ◽  
Significant Group ◽  
Platform System

Context:Chronic ankle instability (CAI) describes the residual symptoms present after repetitive ankle sprains. Current rehabilitation programs in the high school population focus on a multistation approach or general lower-extremity injury-prevention program. Specific rehabilitation techniques for CAI have not been established.Objective:To determine the effectiveness of a 4-wk biomechanical ankle platform system (BAPS) board protocol on the balance of high school athletes with CAI.Design:Randomized control trial.Setting:Athletic training facility.Patients:Twenty-two high school athletes with “giving way” and a history of ankle sprains (ie, CAI) were randomized into a rehabilitation (REH) (166.23 ± 0.93 cm, 67.0 ± 9.47 kg, 16.45 ± 0.93 y) or control (CON) (173.86 ± 8.88 cm, 84.51 ± 21.28 kg, 16.55 ± 1.29 y) group.Interventions:After baseline measures, the REH group completed a progressive BAPS rehabilitation program (3 times/wk for 4 wk), whereas the CON group had no intervention. Each session consisted of 5 trials of clockwise/counterclockwise rotations changing direction every 10 s during each 40-s trial. After 4 wk, baseline measurements were repeated.Main Outcome Measures:Dependent measures included longest time (time-in-balance test), average number of errors (foot lift test), average reach distance (cm) normalized to leg length for each reach direction (Star Excursion Balance Test [SEBT]), and fastest time (side hop test [SHT]).Results:Significant group-by-time interactions were found for TIB (F1,20 = 9.89, P = .005), FLT (F1,20 = 41.18, P < .001), SEBT-anteromedial (F1,20 = 5.34, P = .032), SEBT-medial (F1,20 = 7.51, P = .013), SEBT-posteromedial (F1,20 = 12.84, P = .002), and SHT (F1,20 = 7.50, P = .013). Post hoc testing showed that the REH group improved performance on all measures at posttest, whereas the CON group did not.Conclusion:A 4-wk BAPS rehabilitation protocol improved balance in high school athletes suffering from CAI. These results can allow clinicians to rehabilitate in a focused manner by using 1 rehabilitation tool that allows benefits to be accomplished in a shorter time.

scholarly journals Ankle Bracing and the Neuromuscular Factors Influencing Joint Stiffness

2009 ◽  
Vol 44 (4) ◽  
pp. 363-369 ◽  
Author(s):  
Steven M. Zinder ◽  
Kevin P. Granata ◽  
Sandra J. Shultz ◽  
Bruce M. Gansneder
Keyword(s):  
Health Care Professionals ◽  
Repeated Measures ◽  
Mixed Model ◽  
Ankle Instability ◽  
Ankle Sprains ◽  
Rotational Stiffness ◽  
Maximal Voluntary Isometric Contraction ◽  
Factors Influencing ◽  
Ankle Brace ◽  
Ankle Bracing

Abstract Health care professionals commonly prescribe external stabilization to decrease the incidence and severity of ankle sprains. The mechanism for this decrease is not clearly understood. Examining the effects of ankle bracing on biomechanical stability and influencing factors may provide important information regarding the neuromuscular effects of bracing.Context: To study the effects of 2 different ankle braces on the neuromuscular factors influencing ankle stiffness.Objective: Mixed-model repeated-measures design.Design: Research laboratory.Setting: Twenty-eight physically active participants composing 2 groups: 14 with unilateral functional ankle instability (age  =  26.19 ± 6.46 years, height  =  166.07 ± 12.90 cm, mass  =  69.90 ± 13.46 kg) and 14 with bilaterally stable ankles (age  =  23.76 ± 5.82 years, height  =  174.00 ± 11.67 cm, mass  =  68.60 ± 13.12 kg).Patients or Other Participants: Participants were fitted with surface electromyography electrodes over the peroneus longus, peroneus brevis, tibialis anterior, and soleus muscles. Each participant received transient motion oscillations to his or her ankle on a custom-built medial-lateral swaying cradle in each of 3 conditions: no ankle brace (NB), lace-up brace (LU), and semirigid brace (SR).Intervention(s): Ankle stiffness as measured by the cradle and preactivation levels (percentage of maximal voluntary isometric contraction) of the 4 test muscles.Main Outcome Measure(s): Stiffness levels increased across brace conditions (NB  =  24.79 ± 6.59 Nm/rad, LU  =  28.29 ± 7.05 Nm/rad, SR  =  33.22 ± 8.78 Nm/rad; F2,52  =  66.185, P &lt; .001). No differences were found between groups for rotational stiffness (stable  =  27.36 ± 6.17 Nm/rad, unstable  =  30.18 ± 8.21 Nm/rad; F1,26  =  1.084, P  =  .307). Preactivation levels did not change for any of the tested muscles with the application of an ankle brace (F2,52  =  1.326, P  =  .275).Results: The increase in ankle rotational stiffness with the addition of an ankle brace and the lack of any demonstrable neuromuscular changes suggested ankle braces passively contributed to the stability of the system.Conclusions:

scholarly journals Risk Factors for Lateral Ankle Sprains and Chronic Ankle Instability

2019 ◽  
Vol 54 (6) ◽  
pp. 611-616 ◽  
Author(s):  
Eamonn Delahunt ◽  
Alexandria Remus
Keyword(s):  
Risk Factors ◽  
Sports Medicine ◽  
Injury Risk ◽  
Ankle Instability ◽  
Chronic Ankle Instability ◽  
Ankle Sprains ◽  
Lateral Ankle ◽  
External Risk ◽  
Injury Causation

Lateral ankle sprains (LASs) are a common injury sustained by individuals who participate in recreational physical activities and sports. After an LAS, a large proportion of individuals develop long-term symptoms, which contribute to the development of chronic ankle instability (CAI). Due to the prevalence of LASs and the propensity to develop CAI, collective efforts toward reducing the risk of sustaining these injuries should be a priority of the sports medicine and sports physiotherapy communities. The comprehensive injury-causation model was developed to illustrate the interaction of internal and external risk factors in the occurrence of the inciting injury. The ability to mitigate injury risk is contingent on a comprehensive understanding of risk factors for injury. The objective of this current concepts review is to use the comprehensive injury-causation model as a framework to illustrate the risk factors for LAS and CAI based on the literature.

scholarly journals Muscle Spindle Traffic in Functionally Unstable Ankles During Ligamentous Stress

2013 ◽  
Vol 48 (2) ◽  
pp. 192-202 ◽  
Author(s):  
Alan R. Needle ◽  
Swanik Charles B. (Buz) ◽  
William B. Farquhar ◽  
Stephen J. Thomas ◽  
William C. Rose ◽  
...  
Keyword(s):  
Muscle Spindle ◽  
Repeated Measures ◽  
Ankle Instability ◽  
Ankle Sprains ◽  
Ankle Motion ◽  
Ankle Arthrometer ◽  
Joint Forces ◽  
Peripheral Sensory ◽  
And Inversion

Context: Ankle sprains are common in athletes, with functional ankle instability (FAI) developing in approximately half of cases. The relationship between laxity and FAI has been inconclusive, suggesting that instability may be caused by insufficient sensorimotor function and dynamic restraint. Research has suggested that deafferentation of peripheral mechanoreceptors potentially causes FAI; however, direct evidence confirming peripheral sensory deficits has been elusive because previous investigators relied upon subjective proprioceptive tests. Objective: To develop a method for simultaneously recording peripheral sensory traffic, joint forces, and laxity and to quantify differences between healthy ankles and those with reported instability. Design: Case-control study. Setting: University laboratory. Patients or Other Participants: A total of 29 participants (age = 20.9 ± 2.2 years, height = 173.1 ± 8.9 cm, mass = 74.5 ± 12.7 kg) stratified as having healthy (HA, n = 19) or unstable ankles (UA, n = 10). Intervention(s): Sensory traffic from muscle spindle afferents in the peroneal nerve was recorded with microneurography while anterior (AP) and inversion (IE) stress was applied to ligamentous structures using an ankle arthrometer under test and sham conditions. Main Outcome Measure(s): Laxity (millimeters or degrees) and amplitude of sensory traffic (percentage) were determined at 0, 30, 60, 90, and 125 N of AP force and at 0, 1, 2, 3, and 4 Nm of IE torque. Two-factor repeated-measures analyses of variance were used to determine differences between groups and conditions. Results: No differences in laxity were observed between groups (P &gt; .05). Afferent traffic increased with increased force and torque in test trials (P &lt; .001). The UA group displayed decreased afferent activity at 30 N of AP force compared with the HA group (HA: 30.2% ± 9.9%, UA: 17.1% ± 16.1%, P &lt; .05). Conclusions: The amplitude of sensory traffic increased simultaneously with greater ankle motion and loading, providing evidence of the integrated role of capsuloligamentous and musculotendinous mechanoreceptors in maintaining joint sensation. Unstable ankles demonstrated diminished afferent traffic at low levels of force, suggesting the early detection of joint loading may be compromised.

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