Background:
Several works have shown the benefits of foot orthosis intervention on postural stability in healthy individuals and patients with foot malalignment. However, the effects of foot orthoses on the daily ambulatory activities explored by the Six-Minute Walk Test (6MWT) were never examined. We hypothesized that foot orthoses could increase the gait distance and attenuate the post-6MWT posture alterations already reported in healthy individuals.
Methods:
In ten normal-weight (NW) and ten obese patients with foot malalignment and/or abnormal foot arch, we examined the benefits of 4 weeks of custom-molded orthosis intervention (D30) on 6MWT gait distance, fatigue sensation scores, ankle plantarflexion force, and post-6MWT sway of the center of pressure (COP) measured by a pedobarographic platform. Data were compared with those measured in two control-matched groups of ten NW and ten obese individuals, explored at study inclusion and at D30.
Results:
At study inclusion, the post-6MWT changes in COP surface and the medial and lateral COP deviations were significantly higher in obese participants who needed to wear the foot orthoses compared with obese control subjects. The foot orthosis intervention significantly improved the ambulatory performances of NW and obese individuals during the 6MWT, attenuated the bodily fatigue sensation after the 6MWT, and reduced the post-6MWT COP deviations, with the benefits of insoles being significantly accentuated in obese participants.
Conclusions:
Four weeks of foot orthosis intervention significantly increases gait distance and is an effective means to reduce postural sway after walking.
Background
Wearing high-heeled shoes and carrying asymmetrical loads are common in ladies. However, knowledge of the effects of wearing high-heeled shoes on balance and lower-extremity biomechanics in experienced and novice high-heeled shoe wearers is lacking. The study aims to examine the effects of high-heeled shoes and asymmetrical load carrying on joint kinematics and kinetics of the lower extremity during walking as well as balance in experienced and novice high-heeled shoe wearers.
Methods
Fifteen experienced and 15 novice high-heeled shoes wearers participated in this study. Using a motion analysis system, kinematic and kinetic data were collected while participants walked at their preferred speed in six conditions created from two types of shoes (9-cm high-heeled shoes and flat-heeled shoes) and three weights of symmetrical load (0%, 5%, and 10% of body weight). Stride time and length, step length, double support time, peak joint angles, and joint moments in a sagittal plane were analyzed. Single-leg and tandem-leg stance tests were performed in each condition.
Results
Compared with experienced high-heeled shoe wearers, novice high-heeled shoe wearers had longer double support time and shorter stride length during 10% of body weight asymmetrical load walking; walked with greater knee flexion angle, smaller knee range of motion, and smaller ankle dorsiflexor moment; and scored lower in the single-leg and tandem-leg stance tests.
Conclusions
Novice high-heeled shoe wearers need to alter their lower-limb joint angles and moments to adjust to high-heeled shoes to achieve balance during gait while carrying an asymmetrical load.
Effectiveness of Three Scalpel Debridement Techniques on Painful Callus in Older People
A Randomized Controlled Trial
Background
Plantar hyperkeratotic lesions are prevalent foot problems in the older population, affecting 30% to 65% of people older than 65 years. Their onset is a common cause of foot pain due to the release of inflammatory mediators. Because of its simplicity, scalpel debridement is the most common treatment. We assessed how the degree of plantar hyperkeratosis debridement affects self-perception of pain in older people.
Methods
Three hundred older participants (mean ± SD age, 76.3 ± 7.4 years) were randomly allocated to receive full debridement (FD) of plantar hyperkeratoses, partial debridement (PD) of plantar hyperkeratoses, or debridement simulation (control group). Plantar hyperkeratotic pain was measured on a visual analog scale before treatment, just after treatment, 24 hours after treatment, and 7 days after treatment.
Results
Both FD and PD of plantar hyperkeratoses of the forefoot generate similar levels of self-perception of pain just after treatment (P = .32), 24 hours after treatment (P = .15), and 7 days after treatment (P = .22). Significant differences were found between the groups treated using a scalpel (FD and PD) and the control group just after treatment (P = .04 for FD; P = .05 for PD), 24 hours after treatment (P = .03 for FD; P = .04 for PD), and 7 days after treatment (P = .04 for FD and PD).
Conclusions
The results of this trial suggest that there are no significant differences in pain reduction between PD and FD of forefoot plantar hyperkeratoses in older people.
Background:
First-line therapy for diabetic patients presenting with intermittent claudication includes supervised exercise programs to improve walking distance. However, exercise comes with a variety of barriers and may be contraindicated in certain conditions. The aim of this study was to evaluate whether calf muscle electrostimulation improves claudication distance.
Methods:
A prospective, one-group, pretest-posttest study design was used on 40 participants living with type 2 diabetes mellitus, peripheral artery disease (ankle brachial pressure index, <0.90), and calf muscle claudication. Calf muscle electrostimulation of varying frequencies (1–250 Hz) was prescribed on both limbs for 1-hour daily sessions for 12 consecutive weeks. The absolute claudication distance (ACD) was measured at baseline and after the intervention.
Results:
The recruited cohort (30 men and ten women; mean age, 71 years; mean ankle brachial pressure index, 0.70) registered a mean ± SD baseline ACD of 333.71 ± 208 m. After a mean ± SD of 91.68 ± 6.23 days of electrical stimulation, a significant mean ± SD increase of 137 ± 136 m in the ACD (P = .001, Wilcoxon signed rank test) was registered. Improvement was found to be sex independent, but age was negatively correlated with proportion of improvement (r = –0.361; P = .011, Pearson correlation test).
Conclusions:
Electrical stimulation of varying frequencies on ischemic calf muscles significantly increased the maximal walking capacity in claudicants with type 2 diabetes. This therapeutic approach should be considered in patients with impaired exercise tolerance or as an adjunct treatment modality.
Background
The aim of this study was to investigate the relationship between foot deformities by comparing foot radiographs of patients with complaints of foot pain with those of healthy individuals.
Methods
The study included 30 patients with pes cavus, 30 patients with pes planus, 30 patients with calcaneal spur, and 30 controls aged 30 to 60 years. All participants underwent measurement of right and left foot length; metatarsophalangeal width; and calcaneal pitch (CA), talohorizontal (TA), talometatarsal (TM), and lateral talocalcaneal (LTC) angles from lateral radiographs.
Results
There were no statistically significant differences between all participants regarding sex, age, weight, and body mass index (P > .05). Among patients with clinically diagnosed pes cavus, the diagnostic rate of CA was 100% in both feet, and 83.3% in the right foot and 96.7% in the left foot according to the TM angle. The diagnostic rates of angular measurements in patients with pes planus were as follows: 20% in the right foot and 30% in the left foot depending on the CA angle, 100% in both feet depending on the TM angle, and 66.7% in the right foot and 46.7% in the left foot depending on the LTC angle. A very strong positive correlation was found between the CA and LTC angles in patients with calcaneal spur and pes planus (P < .001); also, statistically significant positive correlation was found between the CA and TA angles (P < .05). The angular measurements in patients with calcaneal spur were found to be consistent with pes planus with a high rate.
Conclusions
Angular changes caused by deterioration of foot biomechanics lead to various deformities. Pes planus ranks first among these. Therefore, we believe that radiographic angular measurements in patients presenting with foot pain in addition to clinical evaluation would be useful in considering associated deformities and planning treatments.
Not all abstracts accepted for oral presentation at the annual conference of the American Podiatric Medical Association ultimately go on to successfully navigate the peer-review process to achieve journal publication despite its obvious merits. The purpose of the present study was to identify the factors associated with and barriers to journal publication and time to publication for oral abstracts from the American Podiatric Medical Association conference from 2010 to 2014. Databases containing information on the abstracts were procured and predictor variables categorized as abstract- or author-specific. Bivariate analysis was conducted using the Mann-Whitney U test, Fisher's exact test, chi-square test of independence, or Spearman rank correlation. Multivariable logistic regression and generalized linear regression models were used to analyze predictor variables. A questionnaire was distributed to the primary authors of any unpublished abstracts to determine the current status of the abstract, in addition to the reasons for the failure to pursue or achieve journal publication. Overall, oral abstracts by authors without a formal research degree were published more often than abstracts by authors with a research degree, as were funded projects (P = .031). No other associations were identified between any of the abstract- and author-specific variables and successful conversion of an oral abstract to a journal publication or the time to publication. Six barriers questionnaires were completed. At the time of the survey, two oral abstracts had since achieved publication, two had been submitted for publication but were rejected, and two had never been submitted. The principal reason cited by the authors for the failure to pursue or achieve journal publication was insufficient time for manuscript preparation.
Background:
Charcot neuroarthropathy (CN), or the Charcot foot, is a complication usually associated with diabetes that frequently results in changes in foot shape and structure that have an effect on function and risk of ulceration. This study aimed to assess foot shape and asymmetry in CN using the Foot Posture Index (FPI-6).
Methods:
Case notes of patients with CN seen in a diabetic orthotic clinic were reviewed, and available FPI-6 data were analyzed. A comparison group of patients with diabetes without CN was also identified. Groups were compared according to published ranges of foot posture and asymmetry using the Fisher exact test.
Results:
Twenty-seven patients with CN with 28 affected feet and a comparison group of 27 patients with diabetes only were identified. There was large variation in FPI-6 scores in affected (1 to 12) and unaffected (–1 to 10) feet. Mean scores for affected feet (6.82) and unaffected feet (5.05) differed significantly (P = .005). Considering all FPI-6 scores as positive numbers to indicate mean absolute difference between affected and unaffected feet, CN-affected feet differed by a mean of 3.00 points from unaffected feet. Patients in the CN group were less likely to have asymmetry in the normal range than the comparison group (P = .0146).
Conclusions:
This study provides new data on foot shape after CN. Patients with CN have feet that are significantly asymmetrical, and the affected foot may be more pronated or supinated. Feet affected by CN are characterized by shape, which is more frequently outside the normal range. The FPI-6 may be suitable for more widespread use in assessment and outcome measurement.
Background:
Surgical or nonsurgical treatment of an Achilles tendon rupture includes a period of immobilization that is a well-documented risk factor for deep venous thrombosis (DVT). The DVT is a source of morbidity in orthopedic surgery because it can progress to pulmonary embolism. The aim of this study was to investigate the incidence of DVT and pulmonary embolism after surgical treatment of an Achilles tendon rupture.
Methods:
A retrospective analysis was made of patients who underwent surgical treatment of Achilles tendon rupture between January 1, 2006, and November 30, 2014. Patient data were collected from the hospital medical record system.
Results:
Of 238 patients with a mean age of 39 years (range, 18–66 years), 18 (7.6%) were diagnosed as having symptomatic DVT. The average body mass index of the patients with DVT was 31.8 (range, 24–33). Of the patients with DVT, 11 were older than 40 years and two-thirds had a body mass index of 30 or greater. Pulmonary embolism was diagnosed in four patients (1.7%), none of whom had DVT symptoms.
Conclusions:
Venous thrombosis continues to be a major cause of morbidity and mortality in postoperative patients. Limited data are available for the use of thromboprophylaxis in foot and ankle surgery. In light of the literature review and results of this study, we suggest that routine thromboembolism prophylaxis should be considered for patients with Achilles tendon rupture.
Background
Although clinical findings, laboratory serum markers, and radiographic images are also used, the purported gold standard or standard reference test for the diagnosis of gout is microscopic analysis of aspirated joint fluid. This observational investigation sought to identify the level of agreement with the microscopic analysis of joint fluid aspirate for the diagnosis of gout in the lower extremity between two departments in a single health-care center.
Methods
A retrospective medical record review identified consecutive patients seen for suspected gout who underwent diagnostic joint aspiration. Patients were included if a lower-extremity joint synovial fluid sample was obtained and were excluded if they were not independently evaluated by both the departments of rheumatology and pathology. We categorized the documented joint fluid findings into four groups: no crystals, sodium urate crystals, calcium pyrophosphate dihydrate crystals, or both sodium urate and calcium pyrophosphate dihydrate crystals. We defined a “clinically significant disagreement” as one department observing any type of crystals and the other department observing no crystals.
Results
We observed a clinically significant disagreement rate of 23.26% (intraclass correlation coefficient = 0.496). The department of rheumatology was more likely to observe the presence of crystals in a sample compared with the department of pathology (88.37% versus 65.12%; P = .02).
Conclusions
These results provide evidence that microscopic analysis of joint fluid aspirate might lack the accuracy and reliability needed to be considered a gold standard diagnostic test for gout in the lower extremity.
Background
Pregnancy is a period when a woman's body undergoes changes. The purpose of this study was to analyze the mechanisms of gait adaptation in overweight pregnant women regarding spatiotemporal gait parameters, ground reaction forces, and plantar pressure distribution.
Methods
The tests were performed in 29 normal-weight pregnant women and 26 pregnant women who were overweight before pregnancy. The measurements included spatiotemporal gait parameters, in-shoe plantar pressure distribution, and ground reaction forces during gestation.
Results
The results indicate that both normal-weight and overweight pregnant women make use of the same spatiotemporal gait parameters to increase body stability and safety of movement during pregnancy. The double-step duration in the third trimester of pregnancy was higher in normal-weight and overweight pregnant women compared with in the first trimester (P < .05). A significant change in pressure amplitude was found under all anatomical parts of the foot in the third trimester (P < .05). The results also suggest a higher increase in the maximum amplitude of force in overweight pregnant women in the third trimester compared with the normal-weight group.
Conclusions
This study suggests that both normal-weight and overweight pregnant women use different mechanisms of gait adaptation during pregnancy. In practice, understanding the biomechanical changes in women's gait can protect the musculoskeletal system during gestation.