Immediate Weightbearing After Operative Treatment of Bimalleolar and Trimalleolar Ankle Fractures: Faster Return to Work for Patients with Nonsedentary Occupations.

The goal of this study was to compare immediate weightbearing (IWB) and traditional weightbearing (TWB) postoperative protocols in unstable ankle fractures, as this has not been compared in prior works. We hypothesize that an immediate weightbearing protocol after ankle fracture fixation will lead to an earlier return to work. An ankle fracture registry was reviewed for operatively treated unstable bimalleolar and trimalleolar ankle fractures at an ambulatory surgery center and followed up at associated outpatient clinics. All fracture cases reviewed occurred from 2009 to 2015. Immediate weightbearing patients were placed into a controlled ankle motion (CAM) boot and allowed to fully bear weight the day of surgery. Traditional weightbearing patients were placed into a CAM boot with 6 weeks of non-weightbearing. Demographics, fixation technique, and injury characteristics were surveyed. Physical job demand was stratified for 69 patients meeting the inclusion criteria (34 IWB and 35 TWB). The main outcome of this study was measured as the time to return to work. Subgroup analysis of patients with nonsedentary jobs demonstrated a significantly earlier return to work for the IWB group (5.7 versus 10.0 weeks, p = .04). Multivariate regression analysis identified a statistically significant 2.25-week (p = .05) earlier return to work for the IWB group after adjustment for occupational physical demand, demographics, fracture characteristics, and participation in a light work period before full work return. In patients with nonsedentary jobs, an IWB protocol after operative management of bimalleolar and trimalleolar ankle fractures resulted in an earlier return to work compared with traditional protocols.

Present, Past,and Future of the Latin American Association for the Study of the Liver- Asociación Latinoamericana para el Estudio del Higado (ALEH).

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Cardan angle rotation sequence effects on first-metatarsophalangeal joint kinematics: implications for measuring hallux valgus deformity.

BACKGROUND: There currently are no recommended standards for reporting kinematics of the first-metatarsophalangeal joint. This study compared 2 different rotation sequences of Cardan angles, with implications for understanding the measurement of hallux valgus deformity. METHODS: Thirty-one women (19 hallux valgus; 12 controls) participated. All were scanned in an open-upright magnetic resonance scanner, their foot posed to simulate the gait conditions of midstance, heel-off, and terminal stance. Using computer processes, selected tarsals were reconstructed into virtual bone models and embedded with principal-axes coordinate systems, from which the rotation matrix between the hallux and first metatarsal was decomposed into Cardan angles. Joint angles were then compared using a within factors (rotation sequence and gait condition) repeated-measures analysis of variance (ANOVA). RESULTS: Only the transverse plane-first sequence consistently output incremental increases of dorsiflexion and abduction across gait events in both groups. There was an interaction (F ≥ 25.1; p < 0.001). Follow-up comparisons revealed angles were different (p < 0.05) at terminal stance. CONCLUSIONS: Different rotation sequences yield different results. Extracting the first rotation in the transverse plane allows for the resting alignment of the hallux to deviate from the sagittal plane. Therefore, representing first-metatarsophalangeal joint kinematics with the transverse plane-first rotation sequence may be preferred, especially in cases of hallux valgus deformity.

First ray kinematics in women with rheumatoid arthritis and bunion deformity: a gait simulation imaging study.

OBJECTIVE: The first ray plays a role in the development of bunion foot deformity, but for unknown reasons. This prospective, cross-sectional study investigated first ray kinematics in women with rheumatoid arthritis (RA) and bunion. METHODS: Nine participants having RA-bunion were analyzed in comparison to a control group (n = 10). Data were acquired using a magnetic resonance scanner. Conditions were standardized to simulate gait midstance, heel off, and terminal stance. Foot posture (hallux angle, intermetatarsal angle, arch angle, and calcaneus angle) and relative first ray position angles/helical axis parameters registered across gait conditions were measured. An analysis of variance model compared data between groups and across conditions, and correlation assessed the relationship between selected variables. RESULTS: Eversion of the calcaneus averaged 9°, and adduction of the first ray was increased (F = 6.29, P = 0.02) by ≥4.6° across conditions in the RA-bunion group. There was an interaction (F = 7.73, P = 0.01) for the first ray axis. Followup comparisons identified increased inclination of the first ray axis over middle stance compared to late stance in the group with RA and bunion. There was moderate correlation (r = -0.42) between the calcaneus angle of eversion and inclination of the first ray axis. CONCLUSION: Optimal treatment for bunion has not been defined. This research identified calcaneus eversion and first ray adduction, as well as inclination of the first ray axis as risk factors of bunion. This result may inform the evaluation and treatment of bunion in women with RA.

An image-based gait simulation study of tarsal kinematics in women with hallux valgus.

BACKGROUND: Although not well understood, foot kinematics are changed with hallux valgus. OBJECTIVE: The purpose of this study was to examine tarsal kinematics in women with hallux valgus deformity. DESIGN: A prospective, cross-sectional design was used. METHODS: Twenty women with (n=10) and without (n=10) deformity participated. Data were acquired with the use of a magnetic resonance scanner. Participants were posed standing to simulate gait, with images reconstructed into virtual bone datasets. Measures taken described foot posture (hallux angle, intermetatarsal angle, arch angle). With the use of additional computer processes, the image sequence was then registered across gait conditions to compute relative tarsal position angles, first-ray angles, and helical axis parameters decomposed into X, Y, and Z components. An analysis of variance model compared kinematics between groups and across conditions. Multiple regression analysis assessed the relationship of arch angle, navicular position, and inclination of the first-ray axis. RESULTS: Both the hallux and intermetatarsal angles were larger with deformity; arch angle was not different between groups. The calcaneus was everted by ≥6.6 degrees, and the first ray adducted (F=44.17) by ≥9.3 degrees across conditions with deformity. There was an interaction (F=5.06) for the first-ray axis. Follow-up comparisons detected increased inclination of the first-ray axis over middle stance compared with late stance in the group with deformity. LIMITATIONS: Gait was simulated, kinetics were not measured, and sample size was small. CONCLUSIONS: There were group differences. Eversion of the calcaneus and adduction of the first ray were increased, and the first-ray axis was inclined 24 degrees over middle stance in women with deformity compared with 6 degrees in control participants. Results may identify risk factors of hallux valgus and inform nonoperative treatment (orthoses, exercise) strategies.

Ankle syndesmosis injuries.

Physician awareness of ankle syndesmosis injuries is improving. The anatomy involved and the mechanism of injury are extremely relevant for the understanding and treatment of this type of injury. Examination under anesthesia may confirm the syndesmosis instability. Based on those findings, stabilization is the recommended approach.