BACKGROUND: Excessive shoe heel abrasion is of concern to patients, parents and shoe manufacturers, but little scientific information is available. The purpose of this study was to describe the phenomenon in a group of infantry recruits performing similar physical activity, and search for biomechanical factors that might be related. METHODS: Seventy-six subjects (median age 19) enrolled. Pre-training parameters measured included height, weight, tibial length, foot arch height and foot progression angle. Digital plantar pressure maps were taken to calculate arch indexes. Shoe heel abrasion was assessed manually after 14 weeks of training with different-sized clock transparencies and a calliper. RESULTS: Outsole abrasion was posterolateral, averaging 12 degrees on each shoe. The average heel volume that was eroded was almost 5 cm3. The angle of maximum wear was related to right foot progression angle (r = 0.27, p = 0.02). Recruits with lateral ankle sprains had higher angles of maximal abrasion (17[degree sign] versus 10[degree sign], p = 0.26) and recruits with lateral heel abrasion had more lateral ankle sprains (14% versus 3%, p = 0.12). CONCLUSION: While shoe heel wear affects many people, very little has been done to measure it. In this study in healthy subjects, we found the main abrasion to be posterolateral. This seems to be related to foot progression angle. It was not related to hindfoot valgus/varus or other factors related to subtalar joint motion. These findings do not warrant modification of subtalar joint motion in order to limit shoe heel abrasion.
To assess the efficacy of a programme of supervised physiotherapy on the recovery of simple grade 1 and 2 ankle sprains.
This guideline aimed to advance current understandings regarding the diagnosis, prevention and therapeutic interventions for ankle sprains by updating the existing guideline and incorporate new research. A secondary objective was to provide an update related to the cost-effectiveness of diagnostic procedures, therapeutic interventions and prevention strategies. It was posited that subsequent interaction of clinicians with this guideline could help reduce health impairments and patient burden associated with this prevalent musculoskeletal injury. The previous guideline provided evidence that the severity of ligament damage can be assessed most reliably by delayed physical examination (4-5 days post trauma). After correct diagnosis, it can be stated that even though a short time of immobilisation may be helpful in relieving pain and swelling, the patient with an acute lateral ankle ligament rupture benefits most from use of tape or a brace in combination with an exercise programme.New in this update:Participation in certain sports is associated with a heightened risk of sustaining a lateral ankle sprain. Care should be taken with non-steroidal anti-inflammatory drugs (NSAIDs) usage after an ankle sprain. They may be used to reduce pain and swelling, but usage is not without complications and NSAIDs may suppress the natural healing process. Concerning treatment, supervised exercise-based programmes preferred over passive modalities as it stimulates the recovery of functional joint stability. Surgery should be reserved for cases that do not respond to thorough and comprehensive exercise-based treatment. For the prevention of recurrent lateral ankle sprains, ankle braces should be considered as an efficacious option.
Acute lateral ankle ligament injuries (ankle sprains) are common problems in acute medical care. The treatment variation observed for the acutely injured lateral ankle ligament complex suggests a lack of evidence-based management strategies for this problem.
The purpose of this study was to assess the accuracy of a landmark technique for cannulation of the greater saphenous vein (GSV) near the medial malleolus. We performed bedside ultrasound in a convenience sample of 100 children, ages 3 to 16 years, to evaluate the anatomy of the GSV at the ankle. Despite the proposed constancy of the landmark technique regardless of patient age, the GSV location varied significantly with increasing patient age and weight. In children less than 10 years old or weighing less than 40 kg, the traditional landmark rarely predicted the precise location of the GSV.
Saphenous donor site neuralgia is a cause of morbidity post-coronary artery bypass surgery. Saphenous nerve damage during harvesting of the great saphenous vein is thought to be responsible. We dissected 37 cadaveric lower limbs from the knee fold to the dorsal venous arches, to study the spatial relations of the saphenous nerve and great saphenous vein to identify its distribution within the leg. Distribution of the saphenous nerve was categorized into Type A, where the nerve traveled inferiorly and split into an anterior and posterior branch during its course between the knee fold and medial malleolus, Type B, where the nerve traveled anterior to the vein with a small caliber branch traveling posteriorly at the proximal end, Type C where two main branches originated at the knee fold, one anterior to and one posterior to the vein. Overall the vein and nerve crossed in 27 out of the 37 cases (73%), occurring between 5 and 29 cm from the malleolus (60% occurred between 16 and 26 cm). In 32 (86%) of cases, the distal part of the nerve and vein were tightly adhered to each other within a common sheath. The length of adherence ranged from 3 to 26 cm with an average of 14 cm. The saphenous nerve is highly vulnerable during harvesting of the great saphenous vein due to its close relationship and crossing branches. Knowledge of the distribution categories of the nerve can help guide the surgeon to avoid damaging nerve branches during harvesting. Clin. Anat. Clin. Anat. 2013. © 2012 Wiley Periodicals, Inc.
Many biomechanical studies investigated pathology of flatfoot and effects of operations on flatfoot. The majority of cadaveric studies are limited to the quasistatic response to static joint loads. This study examined the unconstrained joint motion of the foot and ankle during stance phase utilizing a dynamic foot-ankle simulator in simulated stage 2 posterior tibial tendon dysfunction (PTTD). Muscle forces were applied on the extrinsic tendons of the foot using six servo-pneumatic cylinders to simulate their action. Vertical and fore-aft shear forces were applied and tibial advancement was performed with the servomotors. Three-dimensional movements of multiple bones of the foot were monitored with a magnetic tracking system. Twenty-two fresh-frozen lower extremities were studied in the intact condition, then following sectioning peritalar constraints to create a flatfoot and unloading the posterior tibial muscle force. Kinematics in the intact condition were consistent with gait analysis data for normals. There were altered kinematics in the flatfoot condition, particularly in coronal and transverse planes. Calcaneal eversion relative to the tibia averaged 11.1±2.8° compared to 5.8±2.3° in the normal condition. Calcaneal-tibial external rotation was significantly increased in flatfeet from mean of 2.3±1.7° to 8.1±4.0°. There were also significant changes in metatarsal-tibial eversion and external rotation in the flatfoot condition. The simulated PTTD with flatfoot was consistent with previous data obtained in patients with PTTD. The use of a flatfoot model will enable more detailed study on the flatfoot condition and/or effect of surgical treatment.
Hypertrophy of abductor hallucis muscle is one of the reported causes of compression of tibial nerve branches in foot, resulting in tarsal tunnel syndrome. In this study, we dissected the foot (including the sole) of 120 lower limbs in 60 human cadavers (45 males and 15 females), aged between 45 and 70 years to analyze the possible impact of abductor hallucis muscle in compression neuropathy of tibial nerve branches. We identified five areas in foot, where tibial nerve branches could be compressed by abductor hallucis. Our findings regarding three of these areas were substantiated by clinical evidence from ultrasonography of ankle and sole region, conducted in the affected foot of 120 patients (82 males and 38 females), aged between 42 and 75 years, who were referred for evaluation of pain and/or swelling in medial side of ankle joint with or without associated heel and/or sole pain. We also assessed whether estimation of parameters for the muscle size could identify patients at risk of having nerve compression due to abductor hallucis muscle hypertrophy. The interclass correlation coefficient for dorso-planter thickness of abductor hallucis muscle was 0.84 (95% CI, 0.63-0.92) and that of medio-lateral width was 0.78 (95% CI, 0.62-0.88) in the imaging study, suggesting both are reliable parameters of the muscle size. Receiver operating characteristic curve analysis showed, if ultrasonographic estimation of dorso-plantar thickness is >12.8 mm and medio-lateral width > 30.66 mm in patients with symptoms of nerve compression in foot, abductor hallucis muscle hypertrophy associated compression neuropathy may be suspected. Clin. Anat., 2012. © 2012 Wiley Periodicals, Inc.
Chronic instability is a common complication of lateral ankle sprains. Furthermore, patients often have unrecognized associated lesions affecting the ankle and subtalar joints. Many stabilizing surgical techniques have been described, each with variable results. This article reports the long-term results of ligamentous retensioning combined with reinforcement using an extensor retinaculum flap.
OBJECTIVE: To investigate effects of dry needling in chronic heel pain due to plantar fasciitis. METHOD: During the present single-blinded clinical trial, 20 eligible patients were randomized into two groups; a case group treated by dry needling and a control group. Patients' plantar pain severity [using modified visual analog scale (VAS) scoring], range of motion of ankle joint in dorsiflexion (ROMDF) and plantar extension (ROMPE) and foot function index (by standard questionnaires SEM5 and MDC7) were assessed at baseline, four weeks after intervention and four weeks after withdrawing treatment. RESULTS: The mean VAS scores in the case group was significantly lower than the control group after four weeks of intervention (P<0.001). Comparison of the ROMDF and ROMPE did not reveal any significant change after four weeks of intervention in both the case and control groups (P=0.7 and P=0.65, respectively). The mean of MDC7 and SEM5 scores in the case group was significantly lower than the control group following four weeks of intervention (P<0.001). CONCLUSIONS: Despite the insignificant effect on ROMDF and ROMPE, trigger point dry needling by improving the severity of heel pain can be used as a good alternative option before proceeding to more invasive therapies of plantar fasciitis.