Study of the metatarsal formula in patient with primary metatarsalgia

Arie, Eduardo Kenzo; Moreira, Norma Sueli Albino; Freire, Gilmar Soares; Santos, Bruno Schifer dos; Yi, Liu Chiao

doi:10.1016/j.rboe.2015.06.018

ABSTRACT

OBJECTIVES:

The aims of this study were (i) to ascertain the prevalence of different types of metatarsal formula among patients with primary metatarsalgia; (ii) to compare the variable of "shortening of the first metatarsal in relation to the second" (I/II) between the metatarsalgia and control groups; and (iii) to analyze the intra and interobserver concordance by means of Morton's transverse line method and Hardy and Clapham's arc method. METHODS: A cross-sectional observational study was conducted on 56 patients by means of radiographs on their 112 ft, of which 56 were in the metatarsalgia group and 56 in the control group. The evaluations were done between December 2012 and June 2013. The measurements were made by three third-year orthopedics residents with prior training in the methods used, and a template was used. RESULTS: There was no concordance between the two methods, as shown by Bland-Altman plots, although the intraclass correlation coefficients showed that the intra and interobserver reproducibility was high using the transverse line method (0.78 and 0.85) and moderate using the arc method (0.73 and 0.60). Comparison between the groups showed that there was a statistical difference ( p≤ 0.05) such that there was greater shortening of the first metatarsal (3.39 mm) in the control group than in the metatarsalgia group (2.14 mm). In the patients with primary metatarsalgia, the index minusmetatarsal formula was more prevalent according to the transverse line method (62.5%) and the zero plustype according to the arc method (71.4%). CONCLUSION: In the present study, it was observed that the metatarsal formula prevalences depended on the measurement method. In both groups, shortening of the first metatarsal predominated. There was no intra or interobserver concordance in either of the two proposed methods.

Keywords:
Metatarsalgia; Metatarsal bones; Reproducibility of tests

RESUMO

OBJETIVOS:

Verificar a prevalência dos tipos de fórmula metatarsal (FM) em pacientes com metatarsalgia primária (MP); comparar a variável "encurtamento do primeiro metatarso em relação ao segundo" (I/II) entre os grupos metatarsalgia (GM) e controle (GC); analisar a concordância intra e interobservadores pelos métodos das linhas transversais (MLT) de Morton e dos arcos (MA) de Hardy e Clapham. MÉTODOS: Estudo observacional transversal em 56 pacientes por meio de radiografias dos 112 pés, 56 do GM e 56 do GC avaliados entre dezembro de 2012 e junho de 2013. As mensurações foram feitas por três residentes do terceiro ano em ortopedia, com treinamento prévio dos métodos e uso de template. RESULTADOS: Não houve concordância em nenhum dos dois métodos verificados pelos gráficos de Bland-Altman, apesar de o coeficiente de correlação intraclasses apresentar uma alta reprodutibilidade intra e interobservadores pelo MLT (0,78 e 0,85) e moderada pelo MA (0,73 e 0,60). Na comparação entre os grupos, observou-se diferença estatística (p ≤ 0,05) com um encurtamento do primeiro metatarso (3,39 mm) maior no GC em relação ao GM (2,14 mm). Nos pacientes com MP, a FM tipo index minusfoi mais prevalente pelo MLT (62,5%) e o tipo zero pluspelo MA (71,4%). CONCLUSÃO: Foi observado que a prevalência da FM depende do método de mensuração. Em ambos os grupos houve predomínio do encurtamento do primeiro metatarso. Não houve concordância intra e interobservadores em nenhum dos métodos propostos.

Palavras-chave:
Metatarsalgia; Ossos do metatarso; Reprodutibilidade dos testes

Introduction

Metatarsalgia, characterized by pain in the plantar region of the forefoot under the metatarsal heads, is one of the most frequent complaints in clinical practice among conditions affecting the feet. ¹1 . Espinosa N, Brodsky JW, Maceira E. Metatarsalgia. J Am Acad Orthop Surg. 2010;18:474-85. ^and ²2 . Scranton PE Jr. Metatarsalgia: diagnosis and treatment. J Bone Joint Surg Am. 1980;62:723-32.Nearly 80% of the normal population present some form of pain in the metatarsal region over their lifetime. ³3 . Viladot-Perice A. Metatarsalgias, patología del antepié. 4th ed. Barcelona: Springer-Verlag Ibérica; 2001.The main etiological factors are biomechanical alterations, which make up 92% of the total. ⁴4 . Nery CAS. Metatarsalgias. In: Hebert S, Xavier R, Pardini Júnior AG, Barros Filho TEP, editors. Ortopedia e traumatologia: princípios e prática. 4th ed. Porto Alegre: Artmed; 2009. p. 616-39.These can be classified as primary, secondary and iatrogenic. Primary metatarsalgia alterations are related to the anatomy of the metatarsals and their relationships, which can lead to mechanical overload on the affected metatarsus and may evolve with pain and plantar callosities. In some cases, these consequences may become incapacitating. ¹1 . Espinosa N, Brodsky JW, Maceira E. Metatarsalgia. J Am Acad Orthop Surg. 2010;18:474-85. ^and ⁵5 . Espinosa N, Maceira E, Myerson MS. Current concept review: metatarsalgia. Foot Ankle Int. 2008;29:871-9.

The presence of a short first metatarsus, known as Morton's toe, is considered by many authors to be a contributing factor for the development of primary metatarsalgia. ¹1 . Espinosa N, Brodsky JW, Maceira E. Metatarsalgia. J Am Acad Orthop Surg. 2010;18:474-85. ³3 . Viladot-Perice A. Metatarsalgias, patología del antepié. 4th ed. Barcelona: Springer-Verlag Ibérica; 2001. ^and ⁶6 . Morton DJ. The Human foot. New York: Columbia University Press; 1935.The relationship among the lengths of the metatarsals is defined as the metatarsal formula. ³3 . Viladot-Perice A. Metatarsalgias, patología del antepié. 4th ed. Barcelona: Springer-Verlag Ibérica; 2001. ^and ⁷7 . Perera AM, Mason L, Stephens MM. Current concepts review: the pathogenesis of hallux valgus. J Bone Joint Surg Am. 2011;93:1650-61.Although this tool is used both for diagnostic investigation and for guidance toward treatment, the choice of the measurement method and their results are matters of controversy in the literature. The methods most cited are Morton's transverse line (MTL) and Hardy and Clapham's arc method (AM). ⁸8 . Hardy RH, Clapham JC. Observations on hallux valgus; based on a controlled series. J Bone Joint Surg Br. 1951;33: 376-91. ⁹9 . Grebing BR, Coughlin MJ. Evaluation of Morton's theory of second metatarsal hypertrophy. J Bone Joint Surg Am. 2004;86:1375-86. ^and ¹⁰10 . Coughlin MJ, Mann RA. Hallux valgus. In: Coughlin MJ, Mann RA, Saltzman CL, editors. Surgery of the foot and ankle. 8th ed. Philadelphia: Mosby Elsevier; 2007. p. 167-296.

One crucial aspect in interpreting diagnostic tests is that the observers' measurements should be coherent, so that the results will be reproducible. This is the concept of precision, which is necessary for the validation of the method and its usefulness in clinical practice. ¹¹11 . Viera AJ, Garrett JM. Understanding interobserver agreement: the kappa statistic. Fam Med. 2005;37:360-3.

The objectives of the present study were to observe the prevalence of the types of metatarsal formula among patients with primary metatarsalgia; compare the variable of "shortening of the first metatarsus in relation to the second" between the metatarsalgia group (MG) and the control group (CG); and analyze the intra and inter-observer agreement through the MTL and AM methods.

Methods

This was a cross-sectional observational study on 56 patients (112 ft), over the age of 18 years and all female, who were divided into 28 patients (56 ft) in the MG and 28 (56 ft) in the CG.

The MG consisted of patients with painful symptoms in the region of the metatarsal heads, who had been diagnosed as presenting primary metatarsalgia due to mechanical overload. The CG was composed of patients with plantar fasciitis, who presented pain in the hindfoot region.

Patients were excluded if they presented deformities that compromised the forefoot, midfoot or hindfoot; a personal history of previous surgery or trauma to the feet; or personal histories of diabetes mellitus, rheumatological diseases, vascular diseases or neuropathies.

This study was approved by the research ethics committee (Platform Brazil procedural no. 152078 of November 30, 2012) and all participants signed a free and informed consent statement.

Procedures

Three medical residents in orthopedics who were in their third year of specialization and under the supervision of the principal investigator evaluated all the patients with complaints of pain in their feet who went through the outpatient service of our department between December 2012 and June 2013.

The volunteers underwent simple radiography on both feet in the upright standing position, in true dorsoplantar view with a cranial angle of 15°, at real size. ¹²12 . Barroco R, Nery C, Favero G, et al. Avaliação da relação dos metatarsais na biomecânica de 332 pés normais pelo método de mensuração dos seus comprimentos relativos. Rev Bras Ortop. 2011;46:431-8.

Reproducibility

To assess interobserver reliability, all the radiographic images were measured using the MTL and AM separately by three observers.

To assess intraobserver reliability, one of the observers was randomly chosen to perform the measurements again, eight weeks after the first evaluation.

All three observers received prior training on the measurement methods. To help the evaluation and make it more reliable and reproducible, an illustrative and explanatory model for both methods was attached beside the registration form ( Fig. 1).

Fig. 1
Previous training and template for measurements using Morton's transverse line method (A) and Hardy and Clapham's arc method (B).

Morton's transverse line method of measurement was applied schematically: 1 - set up a line over the diaphyseal axis of the second metatarsal; 2 - draw a transverse line perpendicular to the apex of the head of the first metatarsal; 3 - draw a transverse line perpendicular to the apex of the head of the second metatarsal; 4 - measure the distance between these two transverse lines in millimeters. Hardy and Clapham's arc method was also applied schematically: 1 - set up a line over the diaphyseal axis of the second metatarsal; 2 - mark the center of the arcs at the intersection of this line with another line that touches the most medial point of talonavicular and the most lateral point of calcaneocuboid; 3 - draw an arc that touches the apex of the head of the first metatarsal; 4 - draw an arc that touches the apex of the head of the second metatarsal; 5 - measure the distance between these two arcs in millimeters. ⁶6 . Morton DJ. The Human foot. New York: Columbia University Press; 1935. ⁷7 . Perera AM, Mason L, Stephens MM. Current concepts review: the pathogenesis of hallux valgus. J Bone Joint Surg Am. 2011;93:1650-61. ⁸8 . Hardy RH, Clapham JC. Observations on hallux valgus; based on a controlled series. J Bone Joint Surg Br. 1951;33: 376-91. ^and ⁹9 . Grebing BR, Coughlin MJ. Evaluation of Morton's theory of second metatarsal hypertrophy. J Bone Joint Surg Am. 2004;86:1375-86.

Statistical analysis

Based on a pilot study performed previously and considering the variable of "relative difference in the length between the first and second metatarsals" (I/II), the sample size was defined as 28 patients per group, with a power of 80% and significance level of 0.05.

The descriptive analysis was presented as the mean and standard deviation of the variables analyzed. To evaluate intra and interobserver reliability, the interclass correlation coefficient (ICC) was applied and classified as: minimal (≤0.25), low (between 0.26 and 0.49), moderate (between 0.50 and 0.69), high (between 0.70 and 0.89) or very high (≥0.90). ¹³13 . Shima H, Okuda R, Yasuda T, Jotoku T, Kitano N, Kinoshita M. Radiographic measurements in patients with hallux valgus before and after proximal crescentic osteotomy. J Bone Joint Surg Am. 2009;91:1369-76.

Single-factor analysis of variance was used to compare the CG and the MG regarding the variable I/II.

To observe the prevalences of the types of metatarsal formula, Viladot's classification ³3 . Viladot-Perice A. Metatarsalgias, patología del antepié. 4th ed. Barcelona: Springer-Verlag Ibérica; 2001. ^and ¹⁴14 . Munuera PV, Dominguez G, Reina M, Trujillo P. Bipartite hallucal sesamoid bones: relationship with hallux valgus and metatarsal index. Skelet Radiol. 2007;36:43-50.as modified by Mancuso et al. ¹⁵15 . Mancuso JE, Abramow SP, Landsman MJ, ldman M, Carioscia M. The zero-plus first metatarsal and its relationship with bunion deformity. J Foot Ankle Surg. 2003;42:319-26.was used, considering two types: values lower than -0.5 mm were classified as index minus and positive values as zero plus.

Results

The descriptive data and the statistical analysis results were as follows:

Table 1shows the mean and standard deviation (SD) of the measurements on the variable I/II using both the MTL and the AM by all three observers.

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Table. 1
Relative difference in length between the first and second metatarsals.

Table 2demonstrates that the MTL presented higher ICC and lower CI, in comparison with the AM, while in analysis of variance divided into blocks, the AM presented a significant difference ( p≤ 0.05), which demonstrated disagreement between the observers.

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Table. 2
Comparison of the interobserver agreement analysis between the transverse line method and the arc method.

The Bonferroni method shown in Table 3demonstrated that the means of observers A and B differed ( p≤ 0.05) from the mean of observer C, using the AM.

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Table. 3
Statistical analysis on the comparisons between observers, two by two.

Fig. 2and Fig. 3present the results from the Bland-Altman plots, which indicated that there was no agreement among the observers, using either the MTL or the AM.

Fig. 2
Interobserver evaluation using the transverse line method.

Fig. 3
Interobserver evaluation using the arc method.

Table 4presents the descriptive measurements on the variable I/II, according to the MTL and AM, made by observer A at two different times.

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Table. 4
Relative difference in length between the first and second metatarsals.

Table 5demonstrates that the MTL obtained a higher ICC and lower CI than the AM did. The Student ttest indicated that there was agreement between the evaluations using the two methods.

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Table. 5
Comparison analysis on intraobserver agreement.

Fig. 4and Fig. 5indicate that there was no agreement between the evaluations using either the MTL or the AM.

Fig. 4
Intraobserver evaluation using the transverse line method.

Fig. 5
Intraobserver evaluation using the arc method.

Comparisons between the groups were made using the first measurements from observer A, by means of the MTL.

The mean value of the descriptive measurements on the variable I/II in the MG was -2.14 mm (SD = 3.05) and in the CG it was -3.39 mm (SD = 2.63) ( Fig. 6).

Fig. 6
Distribution of the variable of "relative difference of the length between the first and second metatarsal", according to each group.

The result from inferential analysis to compare the CG and the MG regarding the variable I/II was used in a single-factor mixed model of variance. This indicated that there was a difference ( p≤ 0.05) between the means of the CG and MG.

Table 6shows a descriptive comparison between the MTL and AM regarding the prevalences of types of metatarsal formula in the CG and MG. The MG showed higher prevalence of feet with the index minus type of metatarsal formula (62.50%) according to the MTL, while the zero plus type of metatarsal formula was more prevalent according to the AM (71.43%). The CG presented higher prevalence of the index minus type of metatarsal formula (85.71%) according to the MTL, and also according to the AM (53.57%).

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Table. 6
Prevalence of the types of metatarsal formula in the general sample and in the groups.

Discussion

The length relationships between the metatarsals, more commonly known as the metatarsal formula, is a matter of controversy in the literature with regard to both the choice of method for measurement and the association of this condition with the development of several disorders that compromise the forefoot, such as primary metatarsalgia. ⁷7 . Perera AM, Mason L, Stephens MM. Current concepts review: the pathogenesis of hallux valgus. J Bone Joint Surg Am. 2011;93:1650-61. ^and ¹⁰10 . Coughlin MJ, Mann RA. Hallux valgus. In: Coughlin MJ, Mann RA, Saltzman CL, editors. Surgery of the foot and ankle. 8th ed. Philadelphia: Mosby Elsevier; 2007. p. 167-296.

The results from the present study showed that measurement of the metatarsal formula through the transverse line method is related to higher prevalence of feet with a second metatarsal longer than the first (index minus). The same was observed by Morton, ⁶6 . Morton DJ. The Human foot. New York: Columbia University Press; 1935.who correlated this type of foot as a contributing factor for the development of primary metatarsalgia. This concept has been established by several authors. ¹1 . Espinosa N, Brodsky JW, Maceira E. Metatarsalgia. J Am Acad Orthop Surg. 2010;18:474-85. ³3 . Viladot-Perice A. Metatarsalgias, patología del antepié. 4th ed. Barcelona: Springer-Verlag Ibérica; 2001. ^and ⁵5 . Espinosa N, Maceira E, Myerson MS. Current concept review: metatarsalgia. Foot Ankle Int. 2008;29:871-9.However, when the same method was used for the control group, even greater prevalence of the index minus type of foot was observed, as also seen by Barroco et al. ¹²12 . Barroco R, Nery C, Favero G, et al. Avaliação da relação dos metatarsais na biomecânica de 332 pés normais pelo método de mensuração dos seus comprimentos relativos. Rev Bras Ortop. 2011;46:431-8.among 332 normal feet in their study. In comparing the means of the numerical variable of "relative difference between the length of the first and second metatarsals", a significant difference was observed ( p≤ 0.05). However, this finding was the inverse of the conceptual hypothesis, with greater shortening of the first metatarsal in the control group than in the metatarsalgia group. This result, combined with data in the literature, ¹²12 . Barroco R, Nery C, Favero G, et al. Avaliação da relação dos metatarsais na biomecânica de 332 pés normais pelo método de mensuração dos seus comprimentos relativos. Rev Bras Ortop. 2011;46:431-8.contradicts the "Morton's toe" theory and demonstrates that feet with shortening of the first metatarsal or with an index minus type of metatarsal formula measured through the transverse line method are in fact the most prevalent type of feet among the general population.

The present study found that the prevalences of different types of metatarsal formula among patients with primary metatarsalgia depend on the measurement method. Unlike in the transverse line method, the most prevalent type of metatarsal formula observed through the arc method is the zero plus formula, as observed by Hardy and Clapham and other authors. ⁹9 . Grebing BR, Coughlin MJ. Evaluation of Morton's theory of second metatarsal hypertrophy. J Bone Joint Surg Am. 2004;86:1375-86. ¹⁶16 . Bhutta MA, Chauhan D, Zubairy AI, Barrie J. Second metatarsophalangeal joint instability and second metatarsal length association depends on the method of measurement. Foot Ankle Int. 2010;31:486-91. ^and ¹⁷17 . Chauhan D, Bhutta MA, Barrie JL. Does it matter how we measure metatarsal length? Foot Ankle Surg. 2011;17:124-7.This phenomenon possibly occurs due to technical differences between the measurements: when patients with a high intermetatarsal angle (greater than 9°) are evaluated, there is a relative decrease in the length of the first metatarsal as measured through Morton's transverse line method. However, when patients whose feet do not present deformities are evaluated, as was the case in the present study, in which the patients presented a normal intermetatarsal angle (between 0° and 8°), there is a relative increase in the length of the first metatarsal when measured through Hardy and Clapham's arc method. ¹⁵15 . Mancuso JE, Abramow SP, Landsman MJ, ldman M, Carioscia M. The zero-plus first metatarsal and its relationship with bunion deformity. J Foot Ankle Surg. 2003;42:319-26.

Several ways to measure metatarsal length have been described in the literature, such as anatomopathological assessments on the feet of cadavers, ¹⁸18 . Jung HG, Zaret DI, Parks BG, Schon LC. Effect of first metatarsal shortening and dorsiflexion osteotomies on forefoot plantar pressure in a cadaver model. Foot Ankle Int. 2005;26:748-53.clinical parameters, ¹⁹19 . Davidson G, Pizzari T, Mayes S. The influence of second toe and metatarsal length on stress fractures at the base of the second metatarsal in classical dancers. Foot Ankle Int. 2007;28:1082-6.lateral-view radiography, ²⁰20 . Calvo A, Viladot R, Giné J, Alvarez F. The importance of the length of the first metatarsal and the proximal phalanx of hallux in the etiopathogeny of the hallux rigidus. Foot Ankle Surg. 2009;15:69-74.tomography ²¹21 . Davitt JS, Kadel NK, Sangeorzan BJ, Hansen ST, Holt SK, Fletcher ED. An association between functional second metatarsal length and midfoot arthrosis. J Bone Joint Surg. 2005;87:795-800.and computer-based measurement, ²²22 . Kaipel M, Krapf D, Wyss C. Metatarsal length does not correlate with maximal peak pressure and maximal force. Clin Orthop Relat Res. 2011;469:1161-6.even for surgical planning. ²³23 . Maestro M, Besse JL, Ragusa M, Berthonnaud E. Forefoot morphotype study and planning method for forefoot osteotomy. Foot Ankle Clin. 2003;8:695-710.However, the manual radiographic method of measuring the relative length of Morton's transverse lines and Hardy and Clapham's arcs are the methods most cited and used as diagnostic instruments. ⁷7 . Perera AM, Mason L, Stephens MM. Current concepts review: the pathogenesis of hallux valgus. J Bone Joint Surg Am. 2011;93:1650-61. ⁹9 . Grebing BR, Coughlin MJ. Evaluation of Morton's theory of second metatarsal hypertrophy. J Bone Joint Surg Am. 2004;86:1375-86. ^and ¹⁰10 . Coughlin MJ, Mann RA. Hallux valgus. In: Coughlin MJ, Mann RA, Saltzman CL, editors. Surgery of the foot and ankle. 8th ed. Philadelphia: Mosby Elsevier; 2007. p. 167-296.

In the present study, the evaluations made by the third-year orthopedic residents, who had received previous training and used a template, did not present intra and interobserver agreement using either method. The transverse line method presented a greater correlation coefficient than that of the arc method, possibly due to the simplicity of the technique, since the arc method has one additional step. This step comprises an additional line that is drawn on the Chopart joint, and this was considered by the observers to be the disagreement factor. However, in another study, none of the methods presented agreement according to the Bland and Altman method. ²⁴24 . Bland JM, Altman DG. Comparing methods of measurement: why plotting difference against standard methods is misleading. Lancet. 1995;346:1085-7.When the mean values from the intra and interobserver evaluations were paired and plotted with their standard deviations and agreement limits, instead of finding results near the zero line of equality, the results were very discrepant. This demonstrates the lack of agreement and reproducibility of the methods and, thus, puts their use in clinical practice into question.

The reproducibility of a test indicates the precision of the method and determines its validity and use in clinical practice. ¹¹11 . Viera AJ, Garrett JM. Understanding interobserver agreement: the kappa statistic. Fam Med. 2005;37:360-3.The Bland and Altman statistical method is the methodology most used to analyze the agreement between two methods, the agreement between the evaluations of two or more observers using the same method, or even the agreement between the evaluations of the same observer at different times, for the same method. Use of the correlation coefficients in isolation is inappropriate because this may bring incomplete information and inadequate interpretations. ²⁵25 . Schneider W, Csepan R, Knahr K. Reproducibility of the radiographic metatarsophalangeal angle in hálux surgery. J Bone Joint Surg Am. 2003;85:494-9. ^and ²⁶26 . Zaki R, Bulgiba A, Ismail NA. Statistical methods used to test for agreement of medical instruments measuring continuous variables in method comparison studies: a systematic review. PLoS ONE. 2012;7:e37908.

A diagnostic technique should present precision and reproducibility, with consistency over different observations and little variability. However, the techniques proposed to assess the metatarsal formula cannot be compared or standardized, precisely because the current subjective criteria present great intra and interobserver variability.

Different methods for measuring the length of the metatarsals have the potential to give rise to different results, with potential consequences for surgical planning. In the light of the current results, surgical treatment based only on this radiographic parameter is, to say the least, questionable. Clinical examination must be the priority in recommending any metatarsal osteotomy and should be complemented by other parameters, such as assessment of the instability of the first ray and anatomical alterations of the metatarsals in the coronal plane.

Conclusion

It was observed that the prevalence of the metatarsal formula depends on the measurement method. In cases of primary metatarsalgia, the index minus type is related to Morton's method, while the zero plus type is related to Hardy and Clapham's method.

In comparing the CG and the MG using Morton's transverse line method, there was predominance of shortening of the first metatarsal in both groups.

The methods for measuring the metatarsal formula applied in the present study did not show any intra or interobserver agreement.

Acknowledgement

We are grateful to Dr. Mauricio Sgarbi for enabling and supporting this study.

References

¹
Espinosa N, Brodsky JW, Maceira E. Metatarsalgia. J Am Acad Orthop Surg. 2010;18:474-85.
²
Scranton PE Jr. Metatarsalgia: diagnosis and treatment. J Bone Joint Surg Am. 1980;62:723-32.
³
Viladot-Perice A. Metatarsalgias, patología del antepié. 4th ed. Barcelona: Springer-Verlag Ibérica; 2001.
⁴
Nery CAS. Metatarsalgias. In: Hebert S, Xavier R, Pardini Júnior AG, Barros Filho TEP, editors. Ortopedia e traumatologia: princípios e prática. 4th ed. Porto Alegre: Artmed; 2009. p. 616-39.
⁵
Espinosa N, Maceira E, Myerson MS. Current concept review: metatarsalgia. Foot Ankle Int. 2008;29:871-9.
⁶
Morton DJ. The Human foot. New York: Columbia University Press; 1935.
⁷
Perera AM, Mason L, Stephens MM. Current concepts review: the pathogenesis of hallux valgus. J Bone Joint Surg Am. 2011;93:1650-61.
⁸
Hardy RH, Clapham JC. Observations on hallux valgus; based on a controlled series. J Bone Joint Surg Br. 1951;33: 376-91.
⁹
Grebing BR, Coughlin MJ. Evaluation of Morton's theory of second metatarsal hypertrophy. J Bone Joint Surg Am. 2004;86:1375-86.
¹⁰
Coughlin MJ, Mann RA. Hallux valgus. In: Coughlin MJ, Mann RA, Saltzman CL, editors. Surgery of the foot and ankle. 8th ed. Philadelphia: Mosby Elsevier; 2007. p. 167-296.
¹¹
Viera AJ, Garrett JM. Understanding interobserver agreement: the kappa statistic. Fam Med. 2005;37:360-3.
¹²
Barroco R, Nery C, Favero G, et al. Avaliação da relação dos metatarsais na biomecânica de 332 pés normais pelo método de mensuração dos seus comprimentos relativos. Rev Bras Ortop. 2011;46:431-8.
¹³
Shima H, Okuda R, Yasuda T, Jotoku T, Kitano N, Kinoshita M. Radiographic measurements in patients with hallux valgus before and after proximal crescentic osteotomy. J Bone Joint Surg Am. 2009;91:1369-76.
¹⁴
Munuera PV, Dominguez G, Reina M, Trujillo P. Bipartite hallucal sesamoid bones: relationship with hallux valgus and metatarsal index. Skelet Radiol. 2007;36:43-50.
¹⁵
Mancuso JE, Abramow SP, Landsman MJ, ldman M, Carioscia M. The zero-plus first metatarsal and its relationship with bunion deformity. J Foot Ankle Surg. 2003;42:319-26.
¹⁶
Bhutta MA, Chauhan D, Zubairy AI, Barrie J. Second metatarsophalangeal joint instability and second metatarsal length association depends on the method of measurement. Foot Ankle Int. 2010;31:486-91.
¹⁷
Chauhan D, Bhutta MA, Barrie JL. Does it matter how we measure metatarsal length? Foot Ankle Surg. 2011;17:124-7.
¹⁸
Jung HG, Zaret DI, Parks BG, Schon LC. Effect of first metatarsal shortening and dorsiflexion osteotomies on forefoot plantar pressure in a cadaver model. Foot Ankle Int. 2005;26:748-53.
¹⁹
Davidson G, Pizzari T, Mayes S. The influence of second toe and metatarsal length on stress fractures at the base of the second metatarsal in classical dancers. Foot Ankle Int. 2007;28:1082-6.
²⁰
Calvo A, Viladot R, Giné J, Alvarez F. The importance of the length of the first metatarsal and the proximal phalanx of hallux in the etiopathogeny of the hallux rigidus. Foot Ankle Surg. 2009;15:69-74.
²¹
Davitt JS, Kadel NK, Sangeorzan BJ, Hansen ST, Holt SK, Fletcher ED. An association between functional second metatarsal length and midfoot arthrosis. J Bone Joint Surg. 2005;87:795-800.
²²
Kaipel M, Krapf D, Wyss C. Metatarsal length does not correlate with maximal peak pressure and maximal force. Clin Orthop Relat Res. 2011;469:1161-6.
²³
Maestro M, Besse JL, Ragusa M, Berthonnaud E. Forefoot morphotype study and planning method for forefoot osteotomy. Foot Ankle Clin. 2003;8:695-710.
²⁴
Bland JM, Altman DG. Comparing methods of measurement: why plotting difference against standard methods is misleading. Lancet. 1995;346:1085-7.
²⁵
Schneider W, Csepan R, Knahr K. Reproducibility of the radiographic metatarsophalangeal angle in hálux surgery. J Bone Joint Surg Am. 2003;85:494-9.
²⁶
Zaki R, Bulgiba A, Ismail NA. Statistical methods used to test for agreement of medical instruments measuring continuous variables in method comparison studies: a systematic review. PLoS ONE. 2012;7:e37908.

2
☆ Work developed in the Orthopedics Service, Santa Casa da Misericórdia de Santos, Santos, SP, Brazil.

Publication Dates

Publication in this collection
Aug 2015

History

Received
24 May 2014
Accepted
17 June 2014

This is an Open Access article distributed under the terms of the Creative Commons Attribution-Noncommercial No Derivative License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

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Zaki R, Bulgiba A, Ismail NA. Statistical methods used to test for agreement of medical instruments measuring continuous variables in method comparison studies: a systematic review. PLoS ONE. 2012;7:e37908.

Brasil

Brasil

Study of the metatarsal formula in patient with primary metatarsalgia ^☆ 2 ☆ Work developed in the Orthopedics Service, Santa Casa da Misericórdia de Santos, Santos, SP, Brazil.

ABSTRACT

RESUMO

Introduction

Methods

Procedures

Reproducibility

Statistical analysis

Results

Discussion

Conclusion

Acknowledgement

References

Publication Dates

History

Brasil

Brasil

Study of the metatarsal formula in patient with primary metatarsalgia ☆ 2 ☆ Work developed in the Orthopedics Service, Santa Casa da Misericórdia de Santos, Santos, SP, Brazil.

ABSTRACT

RESUMO

Introduction

Methods

Procedures

Reproducibility

Statistical analysis

Results

Discussion

Conclusion

Acknowledgement

References

Publication Dates

History

Study of the metatarsal formula in patient with primary metatarsalgia ^☆ 2 ☆ Work developed in the Orthopedics Service, Santa Casa da Misericórdia de Santos, Santos, SP, Brazil.