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Background Children and young people make up an age group most vulnerable to falls. Various stability disorders may become instrumental in sustaining more frequent falls and resultant fractures. Correct morphological structure impacts overall efficiency of the foot, as well as offers significant diagnostic potential. Even minor foot disorders may affect the entire bio kinematic chain, also impacting the foot’s motility. Structural alterations within a foot may also impair balance in the standing position, and contribute to more frequent injuries. The study aimed to assess the relationship between feet deformities and postural stability deficits in schoolchildren prone to sustain accidental falls. Methods The study involved 200 children (101 girls and 99 boys) aged 10–15 years, randomly selected from primary schools. A 2D podoscan was used to assess the plantar part of the foot, while stabilometric examination was aided by the FreeMed dynamometric platform. Results Correlation between respective variables was reflected by Spearman’s rank coefficient. The subjects’ age negatively correlated with the COP range of movement along the Y axis, and the COP surface area, while their BMI negatively correlated with the COP trajectory’s length. Step regression analysis indicated that the width of the left foot, the left foot Wejsflog index, the left foot Clark’s angle, the hallux valgus angle were the essential predictors of stabilometric variables in girls. In boys, though, predictive value was associated with Clarke’s angle of the left and right foot, Wejsflog index of the right foot, and the width of both the left and right foot. Conclusions There is a statistically significant correlation between morphological variables of the foot and postural stability. When assessing the key variables of the foot and their interrelationship with postural stability, the Clarke’s angle, Wejsflog index, hallux valgus angle, and foot width, should be granted due prominence in the girls. As regards the boys, the following variables were established as predictive in assessing postural stability: Clarke’s angle, Wejsflog index, and foot width.

Introduction Progressive collapsing foot deformity (PCFD), formally known as “adult-acquired flatfoot deformity” (AAFFD), is a complex foot deformity consisting of multiple components. If surgery is required, joint-preserving procedures, such as a medial displacement calcaneal osteotomy (MDCO), are frequently performed. The aim of this systematic review is to provide a summary of the evidence on the impact of MDCO on foot biomechanics. Materials and methods A systematic literature search across two major sources (PubMed and Scopus) without time limitation was performed according to the Preferred Reporting Items for Systematic Review and Meta-Analyses (PRISMA) criteria. Only original research studies reporting on biomechanical changes following a MDCO were included. Exclusion criteria consisted of review articles, case studies, and studies not written in English. 27 studies were included and the methodologic quality graded according to the QUACS scale and the modified Coleman score. Results The 27 included studies consisted of 18 cadaveric, 7 studies based on biomechanical models, and 2 clinical studies. The impact of MDCO on the following five major parameters were assessed: plantar fascia ( n  = 6), medial longitudinal arch ( n  = 9), hind- and midfoot joint pressures ( n  = 10), Achilles tendon ( n  = 5), and gait pattern parameters ( n  = 3). The quality of the studies was moderate to good with a pooled mean QUACS score of 65% (range 46–92%) for in-vitro and a pooled mean Coleman score of 58 (range 56–65) points for clinical studies. Conclusion A thorough knowledge of how MDCO impacts foot function is key in properly understanding the postoperative effects of this commonly performed procedure. According to the evidence, MDCO impacts the function of the plantar fascia and Achilles tendon, the integrity of the medial longitudinal arch, hind- and midfoot joint pressures, and consequently specific gait pattern parameters.

Rheumatoid arthritis affects joints and can cause significant impairments in daily life. The foot is often the first site of symptoms and foot problems are strongly related to RA. The aim of this review was, therefore, to describe foot health in patients with rheumatoid arthritis and to identify how patients perform foot self-care. With this knowledge interventions to support foot health and functional ability in RA patients can be developed. The design of the review was a scoping review. A systematic literature search of three electronic databases, MEDLINE, CINAHL and Embase, was conducted in June 2016. The search yielded 1205 studies, of which 32 were selected for the review. The data were analysed by means of content analysis. Foot problems in RA patients are prevalent and impair their daily activities. Foot pain and foot structural deformities were the most prevalent problems. RA patients have difficulties caring their own feet and in finding proper footwear. Many different instruments were used to measure different aspects of foot health. Patients with RA have a high prevalence of foot and ankle problems. These foot problems are a major burden to patients themselves. RA patients’ ability to self-care ability can be diminished, since RA also affects joints in the hands. In future cross-cultural validation studies are needed to ensure psychometrically sound instrumentation. Methods to alleviate foot pain and to prevent foot problems in RA patients need to be developed and tested.

Sand is an easy-to-access, cost-free resource that can be used to treat pronated feet (PF). Therefore, the aims of this study were to contrast the effects of walking on stable ground versus walking on sand on ground reaction forces (GRFs) and electromyographic (EMG) activity of selected lower limb muscles in PF individuals compared with healthy controls. Twenty-nine controls aged 22.2±2.5 years and 30 PF individuals aged 22.2±1.9 years were enrolled in this study. Participants walked at preferred speed and in randomized order over level ground and sand. A force plate was included in the walkway to collect GRFs. Muscle activities were recorded using EMG system. No statistically significant between-group differences were found in preferred walking speed when walking on stable ground (PF: 1.33±0.12 m/s; controls: 1.35±0.14 m/s; p = 0.575; d = 0.15) and sand (PF: 1.19±0.11 m/s; controls: 1.23±0.18 m/s; p = 0.416; d = 0.27). Irrespective of the group, walking on sand (1.21±0.15 m/s) resulted in significantly lower gait speed compared with stable ground walking (1.34±0.13 m/s) (p<0.001; d = 0.93). Significant main effects of \"surface\" were found for peak posterior GRFs at heel contact, time to peak for peak lateral GRFs at heel contact, and peak anterior GRFs during push-off (p<0.044; d = 0.27-0.94). Pair-wise comparisons revealed significantly smaller peak posterior GRFs at heel contact (p = 0.005; d = 1.17), smaller peak anterior GRFs during push-off (p = 0.001; d = 1.14), and time to peak for peak lateral GRFs (p = 0.044; d = 0.28) when walking on sand. No significant main effects of \"group\" were observed for peak GRFs and their time to peak (p>0.05; d = 0.06-1.60). We could not find any significant group by surface interactions for peak GRFs and their time to peak. Significant main effects of \"surface\" were detected for anterior-posterior impulse and peak positive free moment amplitude (p<0.048; d = 0.54-0.71). Pair-wise comparisons revealed a significantly larger peak positive free moment amplitude (p = 0.010; d = 0.71) and a lower anterior-posterior impulse (p = 0.048; d = 0.38) when walking on sand. We observed significant main effects of \"group\" for the variable loading rate (p<0.030; d = 0.59). Pair-wise comparisons revealed significantly lower loading rates in PF compared with controls (p = 0.030; d = 0.61). Significant group by surface interactions were observed for the parameter peak positive free moment amplitude (p<0.030; d = 0.59). PF individuals exhibited a significantly lower peak positive free moment amplitude (p = 0.030, d = 0.41) when walking on sand. With regards to EMG, no significant main effects of \"surface\", main effects of \"group\", and group by surface interactions were observed for the recorded muscles during the loading and push-off phases (p>0.05; d = 0.00-0.53). The observed lower velocities during walking on sand compared with stable ground were accompanied by lower peak positive free moments during the push-off phase and loading rates during the loading phase. Our findings of similar lower limb muscle activities during walking on sand compared with stable ground in PF together with lower free moment amplitudes, vertical loading rates, and lower walking velocities on sand may indicate more relative muscle activity on sand compared with stable ground. This needs to be verified in future studies.

Background Patients with ankle arthritis often present with concomitant hindfoot deformity, which may involve the tibiotalar and subtalar joints. However, the possible compensatory mechanisms of these two mechanically linked joints are not well known. Questions/purposes In this study we sought to (1) compare ankle and hindfoot alignment of our study cohort with end-stage ankle arthritis with that of a control group; (2) explore the frequency of compensated malalignment between the tibiotalar and subtalar joints in our study cohort; and (3) assess the intraobserver and interobserver reliability of classification methods of hindfoot alignment used in this study. Methods Between March 2006 and September 2013, we performed 419 ankle arthrodesis and ankle replacements (380 patients). In this study, we evaluated radiographs for 233 (56%) ankles (226 patients) which met the following inclusion criteria: (1) no prior subtalar arthrodesis; (2) no previously failed total ankle replacement or ankle arthrodesis; (3) with complete conventional radiographs (all three ankle views were required: mortise, lateral, and hindfoot alignment view). Ankle and hindfoot alignment was assessed by measurement of the medial distal tibial angle, tibial talar surface angle, talar tilting angle, tibiocalcaneal axis angle, and moment arm of calcaneus. The obtained values were compared with those observed in the control group of 60 ankles from 60 people. Only those without obvious degenerative changes of the tibiotalar and subtalar joints and without previous surgeries of the ankle or hindfoot were included in the control group. Demographic data for the patients with arthritis and the control group were comparable (sex, p = 0.321; age, p = 0.087). The frequency of compensated malalignment between the tibiotalar and subtalar joints, defined as tibiocalcaneal angle or moment arm of the calcaneus being greater or smaller than the same 95% CI statistical cutoffs from the control group, was tallied. All ankle radiographs were independently measured by two observers to determine the interobserver reliability. One of the observers evaluated all images twice to determine the intraobserver reliability. Results There were differences in medial distal tibial surface angle (86.6° ± 7.3° [95% CI, 66.3°–123.7°) versus 89.1° ± 2.9° [95% CI, 83.0°–96.3°], p < 0.001), tibiotalar surface angle (84.9° ± 14.4° [95% CI, 45.3°–122.7°] versus 89.1° ± 2.9° [95% CI, 83.0°–96.3°], p < 0.001), talar tilting angle (−1.7° ± 12.5° [95% CI, −41.3°–30.3°) versus 0.0° ± 0.0° [95% CI, 0.0°–0.0°], p = 0.003), and tibiocalcaneal axis angle (−7.2° ± 13.1° [95% CI, −57°–33°) versus −2.7° ± 5.2° [95% CI, −13.3°–9.0°], p < 0.001) between patients with ankle arthritis and the control group. Using the classification system based on the tibiocalcaneal angle, there were 62 (53%) and 22 (39%) compensated ankles in the varus and valgus groups, respectively. Using the classification system based on the moment arm of the calcaneus, there were 68 (58%) and 20 (35%) compensated ankles in the varus and valgus groups, respectively. For all conditions or methods of measurement, patients with no or mild degenerative change of the subtalar joint have a greater likelihood of compensating coronal plane deformity of the ankle with arthritis (p < 0.001–p = 0.032). The interobserver and intraobserver reliability for all radiographic measurements was good to excellent (the correlation coefficients range from 0.820 to 0.943). Conclusions Substantial ankle malalignment, mostly varus deformity, is common in ankles with end-stage osteoarthritis. The subtalar joint often compensates for the malaligned ankle in static weightbearing. Level of Evidence Level III, diagnostic study.

Purpose To investigate the treatment outcomes of subtalar arthroereisis (SA) in progressive collapsing foot deformity (PCFD) patients, to assess the clinical efficacy in PCFD patients after HyProCure removal, and to evaluate safety and effectiveness of SA. Methods In this retrospective study, 202 cases (213 feet) of PCFD patients treated with SA from June 2015 to December 2022 were selected. General data and surgical information were recorded, and clinical efficacy was evaluated through imaging and clinical indicators. Furthermore, for 36 patients (36 feet) who underwent secondary surgery to remove HyProCure, imaging and clinical evaluation indicators at 1-year post-removal were recorded. Complications were also documented. Results The main complications were sinus tarsi pain (91.37%), with partial relief or disappearance of symptoms in some patients after conservative treatment. The imaging indicators improved significantly after SA ( P  < 0.01), and AOFAS score and VAS were significantly improved ( P  < 0.01), with a 100% excellent rate in patients one year after SA. For patients who removed HyProCure, the imaging indicators exhibited a significant improvement at preoperation and post-SA ( P  < 0.01), and no statistical difference was observed between post-SA and post-removal ( P  > 0.05). Regarding clinical indicators, AOFAS score at post-SA was difference compared with preoperation and post-removal separately ( P  < 0.01). However, the difference in VAS between preoperation and post-SA was not statistically significant ( P  > 0.05). Notably, there was a significant improvement at post-removal compared with post-SA ( P  < 0.01). Conclusion PCFD patients showed significant improvement in imaging and clinical evaluations after SA, with no significant flatfoot recurrence in patients who had HyProCure removed. Therefore, the application of HyProCure in SA can be considered a safe and effective surgical treatment for PCFD patients.

The prevalence of flatfoot is estimated between 3% and 25% in the general population based on studies in healthy volunteers.12 In 1989, Johnson and Strom3 created a three stage classification system for adult acquired flatfoot deformity. Causes of flatfoot include posterior tibial tendon dysfunction, trauma, inflammatory arthritis, Charcot arthropathy, and congenital causes such as tarsal coalition.5 The most common cause in adults is posterior tibial tendon dysfunction.6 It is associated with obesity, diabetes mellitus, hypertension, trauma, and corticosteroid injections.7 The symptomatic flatfoot presents with medial arch pain and can affect gait.8 Untreated symptomatic flatfoot in the long term can become a rigid deformity, which will further affect the patient’s quality of life. Look Assess the foot from three different views With the patient in a standing position, look for a decrease in height of the foot arch (lateral view), abduction of forefoot (above down view), and valgus deformity of the heel (posterior view) (fig 2). The course of posterior tibial tendon is illustrated by the blue dotted line Move Check whether the flatfoot is flexible or rigid The flexibility of the flatfoot is assessed using Jack’s test (fig 4) and single heel rise.

Background Acute compartment syndrome occurs when pressure within a compartment increases and affects the function of the muscle and tissues after an injury. Compartment syndrome is most common in lower leg and may lead to permanent injury to the muscle and nerves if left untreated. Methods 46 patients with acute compartment syndrome were enrolled, including 8 cases with serious complications, between January 2008 and December 2012. The protocols combining early management and the correction of deformities were adjusted in order to attempt to enable full recovery of all patients. Results All patients had necrotic muscles and nerves, damaged vascular, and severe foot deformities. In the early stage, each patient received systemic support and wound debridement to promote wound healing. For patients with serious complications, a number of medical measures, including installation of Ilizarov external frames, arthrodesis, osteotomy fusion, arthroplasty, or tendon lengthening surgery, were performed to achieve satisfactory clinical outcomes. All the patients resumed weight-bearing walking and daily exercises. Conclusion Acute compartment syndrome and sequential complications could be managed using a number of medical procedures.

The combination of first metatarsophalangeal joint arthrodesis and resection arthroplasty of all lesser metatarsal heads has been historically considered the golden standard treatment for rheumatoid forefoot deformities. However, as recent improved management of rheumatoid arthritis have reduced progression of joint destruction, the surgical treatments for rheumatoid forefoot deformities have gradually changed from joint-sacrificing surgery, such as arthrodesis and resection arthroplasty, to joint-preserving surgery. The aim of this literature review was to provide current evidence for joint-preserving surgery for rheumatoid forefoot deformities. We focused on the indications, specific outcomes, and postsurgical complications of joint-preserving surgery in this review.