Is Subtle Cavovarus a Problem for Athletes?

Cavovarus or high-arched foot is a common foot deformity that occurs due to the disruption of the foot-driven equilibrium between the first metatarsal, fifth metatarsal, and the heel. This imbalance leads to an increase in the foot's normal plantar concavity. Cavovarus deformity ranges from a mild and flexible malalignment to a fixed, complex, and severe deformation. Subtle cavovarus foot, the mild form of the cavus foot, was first described by Manoli and colleagues.

Posterior Heel Pain in Cavovarus Foot: How to Approach It.

When a patient presents with posterior heel pain on the background of a cavovarus foot, there are many different aspects to take into account. The morphology of the foot and the specific cause of the patient's pain lead the practitioner to alter the treatment appropriately. Some patients should only receive physiotherapy, but the majority should receive more invasive treatments, including calcaneal osteotomies or tendon debridement, depending on their particular presentation and pathology. This review examines the various different facets of posterior heel pain that must be dealt with and the most up-to-date treatments for the same.

Nonneurologic Cavovarus Feet in Skeletally Immature Patients: Main Causes and Principles of Treatment.

The foot resembles a tripod. The 3 legs consist of (1) the tip of the heel, (2) the first metatarsal, and (3) the fifth metatarsal. This concept is useful to explain cavus or flat feet. When the tips of the tripod move closer, the arch becomes higher. The leg of the tripod that moves the most will determine the type of cavus feet, which can be hindfoot cavus, forefoot cavus, or first metatarsal cavus. Cavovarus foot denotes the presence of a three-dimensional deformity of the foot, but it is much more a descriptive feature than a diagnosis.

Foot Posture and Plantar Loading With Ankle Bracing.

CONTEXT: Arch height is one important aspect of foot posture. An estimated 20% of the population has pes planus and 20% has pes cavus. These abnormal foot postures can alter lower extremity kinematics and plantar loading and contribute to injury risk. Ankle bracing is commonly used in sport to prevent these injuries, but no researchers have examined the effects of ankle bracing on plantar loading. OBJECTIVE: To evaluate the effects of ankle braces on plantar loading during athletic tasks. DESIGN: Cross-sectional study. SETTING: Laboratory. PATIENTS OR OTHER PARTICIPANTS: A total of 36 participants (11 men, 25 women; age = 23.1 ± 2.5 years, height = 1.72 ± 0.09 m, mass = 66.3 ± 14.7 kg) were recruited for this study. INTERVENTION(S): Participants completed walking, running, and cutting tasks in 3 bracing conditions: no brace, lace-up ankle-support brace, and semirigid brace. MAIN OUTCOME MEASURE(S): We analyzed the plantar-loading variables of contact area, maximum force, and force-time integral for 2 midfoot and 3 forefoot regions and assessed the displacement of the center of pressure. A 3 × 3 mixed-model repeated-measures analysis of variance was used to determine the effects of brace and foot type (α = .05). RESULTS: Foot type affected force measures in the middle (P range = .003-.047) and the medial side of the foot (P range = .004-.04) in all tasks. Brace type affected contact area in the medial midfoot during walking (P = .005) and cutting (P = .01) tasks, maximum force in the medial and lateral midfoot during all tasks (P < .001), and force-time integral in the medial midfoot during all tasks (P < .001). Portions of the center-of-pressure displacement were affected by brace wear in both the medial-lateral and anterior-posterior directions (P range = .001-.049). CONCLUSIONS: Ankle braces can be worn to redistribute plantar loading. Additional research should be done to evaluate their effectiveness in injury prevention.

The Subtle Cavovarus Foot Deformity: The Nonneurologic Form of Cavus Foot Deformity.

Conditions of ankle instability, peroneal tendon tears, and stress fractures of the lateral metatarsals are commonly encountered in a clinical foot and ankle practice. Evaluation of the supporting foot structure is critical to prevent failure of index procedures. The prominence of the subtle cavus foot is now a recognized entity and must be properly diagnosed and addressed surgically.

Use of Calcaneal Osteotomies in the Correction of Inframalleolar Cavovarus Deformity.

Cavovarus deformity is a complicated condition most commonly resulting from neurologic, posttraumatic, or iatrogenic pathologic conditions. Careful evaluation of the cavovarus patient is necessary in determining appropriate treatment course. Weight-bearing radiographs are necessary, and advances in computed tomographic technology can be beneficial in identifying level of involvement. In the case of operative treatment of inframalleolar deformity, assessment of the subtalar joint position and relation of calcaneocuboid joint can be of assistance. Multiple osteotomies have been described providing uniplanar, biplanar, and triplanar correction and in the appropriate setting can prove beneficial to the surgeon in treating hind-foot cavovarus deformity.

Management of Midfoot Cavus.

There is a deficiency in publications on the topic of midfoot cavus. The limited research available does not have a standard definition for the diagnosis of this deformity and lacks a reliable algorithm for its surgical management. The authors performed an extensive review of the literature that found a majority of patients are satisfied with the Cole osteotomy and the dorsiflexory first metatarsal osteotomy for treatment of this condition. High patient satisfaction has been observed with lateralizing calcaneal osteotomies in the setting of midfoot cavus with a secondary rigid rearfoot deformity. Further research on this topic is encouraged.

Principles of Triple Arthrodesis and Limited Arthrodesis in the Cavus Foot.

Cavus foot is a complex podiatric deformity that requires precise and in-depth work-up through an objective, physical, and radiographic examination. The goal of surgical treatment is to eliminate pain while establishing a plantigrade foot structure. Triple arthrodesis has proven to be an effective surgical procedure for treatment of moderate to severe rearfoot deformity with or without the presence of rearfoot arthritic changes. The foot and ankle surgeon must always be aware that no two cavus deformity cases are alike, therefore one may require additional surgical procedures including soft tissue balancing, joint-sparing osteotomies, and/or supplementary arthrodesing procedures.

The Cavovarus Ankle: Approaches to Ankle Instability and Inframalleolar Deformity.

Pathologic affects from a cavus foot deformity range from flexible subtle to rigid severe deformities and are related to many pathologic conditions of the foot and ankle. Understanding the underlying deformity and the deforming force is essential in treating the cavus ankle and foot. Every deformity is different and unique to a given patient; therefore, surgical plans should be modified to each patient.

Efecto de la morfología de las plantas de los pies en la distribución de presión plantar en atletas jóvenes con diferentes tipos de pie / Effect of the morphology of the soles of the feet on plantar pressure distribution in young athletes with different foot types

INTRODUCCIÓN Y OBJETIVOS: Estudios previos han sugerido que las diferencias en la estructura de los pies podrían afectar el comportamiento de la distribución de la presión plantar, por lo que esto podría aumentar la probabilidad de sufrir una lesión. El objetivo de este trabajo fue determinar el efecto de la morfología de las plantas de los pies sobre la distribución de la presión plantar entre el pie normal, el pie plano, cavo extremo y el pie cavo en condiciones estáticas y dinámicas. METODOLOGÍA: Ciento dieciocho deportistas, con una edad promedio de 14,45 ± 2,17 años y una masa promedio de 58,78 ± 12,18kg, participaron en esta investigación. Ninguno de los participantes presentó alguna lesión que le impidiera realizar las pruebas. RESULTADOS: Se encontró que la distribución de la carga en el retropié del pie plano, el cavo extremo y el pie cavo fue mayor que la presión del pie normal en condiciones estáticas. Sin embargo, el análisis ANOVA no mostró una diferencia significativa entre estas condiciones de los pies (pie derecho p = 0,25 y pie izquierdo p = 0,36). El análisis de la presión en condiciones dinámicas reveló que los deportistas con pie cavo en el pie derecho presentaron un valor más elevado en la región de los metatarsos; esto podría ser un factor de riesgo para producir alteraciones musculoesqueléticas. Por el contrario, la disminución de presión en sujetos con pie plano presentaría un riesgo menor. CONCLUSIÓN: El análisis de la distribución de la presión plantar entre los 4tipos de pies en condiciones estáticas y dinámicas demuestra que la presión plantar se modifica por el tipo de pie que presenta cada individuo. Los resultados del presente trabajo contribuyen de forma directa en conocer más a profundidad la biomecánica de la distribución de presión plantar en sujetos con diferente tipo de pie

INTRODUCTION AND OBJECTIVE: Previous studies have suggested that differences in the structure of the feet might affect the behaviour of plantar pressure distribution, this might increase the probability of getting injured. The objective of this work was to determine the effect of the morphology of the soles of the feet on plantar pressure distribution among normal foot, flatfoot, extreme cavus and cavus foot in static and dynamic conditions. METHODOLOGY: One hundred and eighteen athletes, mean age 14.45 ± 2.17 years, mean mass 58.78 ± 12.18kg took part in this research. None of the participants presented an injury that prevented them from carrying out the tests. RESULTS: It was found that the load distribution in the hindfoot of the flat foot, extreme cavus and cavus foot was higher than the normal foot in static condition. However, One-way ANOVA analysis did not show a significant difference among these feet conditions (right foot, P=.25 and left foot, P=.36). The analysis of pressure in dynamic conditions revealed that athletes with right cavus foot had a higher value in the metatarsal region, this could be a risk factor for producing musculoskeletal abnormalities. Conversely, lowering pressure in flatfoot subjects would present a lower risk. CONCLUSION: The analysis of the plantar pressure distribution among the 4types of feet in static and dynamic conditions proves that plantar pressure is modified by the type of foot of each individual. The results of the current work contribute directly to learning more about the biomechanics of plantar pressure distribution in subjects with different foot types

Managing the Complex Cavus Foot Deformity.

This article describes approaches to and the management of complex cavus foot deformities. Correction of rigid multiplanar deformities can be very challenging, given the presence of skeletal deformities in multiple planes and combined with a varying degree of muscle imbalance. The complexity of these cases always requires a case-by-case approach. Some of the cases presented here occur in patients who have previously undergone surgical management for their deformity, several of which are complicated by additional deformities. With a firm understanding and application of the principles of deformity correction, however, one may reliably offer satisfactory results.

Intraobserver and interobserver reliability of cone beam weightbearing semi-automatic three-dimensional measurements in symptomatic pes cavovarus.

INTRODUCTION: Pes cavovarus is a three-dimensional (3D) foot deformity. New 3D semi-automatic measurements utilising weightbearing computerised topography (WBCT) images have recently been proposed to assess hindfoot alignment, but reliability in pes cavovarus has never been investigated. The aim of this study was to assess intraobserver and interobserver reliability of the foot ankle offset (FAO), calcaneal offset (CO) and hindfoot alignment angle (HAA) in pes cavovarus. METHODS: Anonymised WBCT datasets from 51 feet (17 Charcot-Marie-Tooth related cavovarus, 17 idiopathic cavovarus and 17 controls) were retrospectively reviewed. Three observers (two senior foot and ankle fellows and one orthopaedic resident) independently measured FAO, CO and HAA using dedicated software, with measurements repeated two weeks apart. Subgroup analysis was performed to assess whether aetiology or severity of varus deformity and level of seniority affected reliability. RESULTS: Mean values for intra and interobserver reliability for FAO (r=0.98; ICC: 0.99), CO (r=0.97; ICC: 0.98) and HAA measurements (r=0.97; ICC: 0.98) were excellent. Subgroup analyses showed that FAO, CO and HAA's intra (r/ρ range, 0.77-0.95) and interobserver (ICC range, 0.88-0.98) reliability remained excellent in patients with Charcot-Marie-Tooth related cavovarus, idiopathic pes cavovarus and normal feet, regardless of the severity of deformity. No difference was found in FAO, CO and HAA mean values from three observers (p>0.05 in all cases). DISCUSSION: This study demonstrates that 3D semi-automatic measurements of WBCT images have excellent intra and interobserver reliability in the assessment of hindfoot alignment in pes cavovarus. Aetiology and severity of deformity, and level of seniority do not affect reliability of these measurements. LEVEL OF EVIDENCE: Level III, retrospective comparative study.

Clinical Examination and Radiographic Assessment of the Cavus Foot.

The purpose of the clinical examination is to detect subtle cavus or cavovarus deformity, assess the severity and type of deformity, differentiate between idiopathic versus secondary etiologies of cavus foot deformity, and evaluate for other associated abnormalities. The clinical examination should begin with a gait analysis. The neurologic examination reveals peripheral neuropathy or central nervous system etiology for the foot deformity. On plain radiographs, forefoot-driven deformity can be assessed using the Meary angle, and hindfoot-driven deformity can be measured by the calcaneal pitch. Computed tomography and MRI scans can assess for tarsal coalitions and soft tissue pathologies, respectively.

Neurologic Disorders and Cavovarus Deformity.

A cavovarus deformity results from muscle imbalances in the foot. There are several etiologies of a cavovarus foot including congenital, neurologic, post-traumatic, and idiopathic. Charcot-Marie-Tooth disease is a common genetic cause of cavovarus foot. History, physical examination, and imaging help determine appropriate treatment. The deformity can be flexible or rigid and can present in children or adults, thus treatment should be individualized to the patient. Non-operative management includes shoe wear modification, physical therapy, and bracing. Operative management consists of soft tissue releases, tendon transfers, osteotomies, arthrodesis, and repair/reconstruction of lateral ankle ligaments and peroneal tendons.

Muscle activation during fast walking with two types of foot orthoses in participants with cavus feet.

The aim of this study was to quantify the effects of foot orthoses (FOs) with and without a lateral bar on muscle activity of participants with cavus feet. Fifteen participants were recruited from the Université du Québec à Trois-Rivières students and podiatry clinic. The muscle activity of the tibialis anterior, fibularis longus, gastrocnemius lateralis and medialis, vastus medialis and lateralis, biceps femoris and gluteus medius were recorded during fast walking under two experimental conditions (FOs with and without a lateral bar) and a control condition (shoes). Experimentations were completed after a one-month adaptation period to each experimental condition. The root mean square of the electromyography (EMG) data was analyzed. To compare the effects between conditions, a curve analysis was performed using one-dimensional statistical parametric mapping. The main result of this study was an increased gastrocnemius lateralis muscle activity (maximum mean difference: +28%) during the propulsion phase of gait (44-46%) when participants wore FOs compared to the control condition. This result will help researchers and clinicians better understand the FOs' EMG effects of individuals with cavus feet. As FOs are mainly prescribed for symptomatic patients, future studies should assess their effects on individuals suffering of a pathology, such as Achilles tendinopathy.

Clinical measures of static foot posture do not agree.

BACKGROUND: The aim of this study was to determine the level of agreement between common clinical foot classification measures. METHODS: Static foot assessment was undertaken using the Foot Posture Index (FPI-6), rearfoot angle (RFA), medial longitudinal arch angle (MLAA) and navicular drop (ND) in 30 participants (29 ± 6 years, 1.72 ± 0.08 m, 75 ± 18 kg). The right foot was measured on two occasions by one rater within the same test environment. Agreement between the test sessions was initially determined for each measure using the Weighted Kappa. Agreement between the measures was determined using Fleiss Kappa. RESULTS: Foot classification across the two test occasions was almost perfect for MLAA (Kw = .92) and FPI-6 (Kw = .92), moderate for RFA (Kw = .60) and fair for ND (Kw = .40) for comparison within the measures. Overall agreement between the measures for foot classification was moderate (Kf = .58). CONCLUSION: The findings reported in this study highlight discrepancies between the chosen foot classification measures. The FPI-6 was a reliable multi-planar measure whereas navicular drop emerged as an unreliable measure with only fair agreement across test sessions. The use of this measure for foot assessment is discouraged. The lack of strong consensus between measures for foot classification underpins the need for a consensus on appropriate clinical measures of foot structure.

Pé cavo: revisão da literatura / Cavus foot: review

OBJETIVO: Realizar uma revisão sobre o pé cavo, sua fisiopatologia, avaliação clínica, diagnósticos diferenciais com ênfase na doença de Charcot-Marie-Tooth e tratamento. MÉTODO: Revisão não sistemática de artigos abordando a fisiopatologia do pé cavo, avaliação clínica, diagnósticos diferenciais e tratamento. RESULTADOS E DISCUSSÃO: Foram utilizados 33 artigos de língua inglesa e 02 artigos em português para a confecção desta revisão. CONCLUSÃO: O pé cavo é geralmente secundário a doenças neurológicas, em especial a doença de Charcot-Marie-Tooth e raramente é originado por doenças não neurológicas. O diagnóstico etiológico do pé cavo permite um melhor tratamento, cirúrgico ou não, com adequada orientação ao paciente quanto ao prognóstico e eficácia da terapia.

OBJECTIVE: We realize a review about cavus foot, discussing pathophysiology, clinical evaluation, differential diagnosis with emphasis on Charcot-Marie-Tooth Disease and treatment. METHOD: We perform a non-systematic review of articles about cavus foot pathophysiology, physical examination, etiology and treatment. RESULTS AND DISCUSSION: We used 33 articles in english and 02 articles in portuguese for this review. CONCLUSION: The cavus foot is mostly a consequence of neurological etiologies, in particular Charcot-Marie-Tooth disease and rarely is caused by non-neurological diseases. The correct diagnosis allows better treatment, conservative or surgical, with appropriate guidance to patients in terms of prognosis and therapy effectiveness.

Evaluating the Cavus Foot.

The cavus foot is a deformity characterized by abnormal elevation of the medial arch of the foot. Unique among foot deformities, cavus typically occurs secondary to a spinal cord or neuromuscular pathology, with two-thirds of patients having an underlying neurologic diagnosis. Thus, recognition of cavus foot and appropriate evaluation are essential in the primary care setting. Patients may present with unstable gait, frequent ankle sprains, or pain along the metatarsal heads or the lateral border of the foot. The diagnosis can be confirmed with a lateral weight-bearing radiograph, with several key measurements defining a pes cavus alignment. A thorough history and physical examination should be performed to look for possible secondary causes. The first step in the treatment of cavus deformity is to address the underlying cause. After that, a variety of treatment options are available to alleviate the pain and dysfunction caused by this deformity. [Pediatr Ann. 2016;45(6):e218-e222.].