Is Femoral Version Associated with Changes in Hip Muscle Strength in Females with Symptomatic Femoroacetabular Impingement?

Marostica, Adriano David; Pizzolatti, André Luiz Almeida; Adam, Guilherme Pradi; Codonho, Daniel; Canella, Richard Prazeres; Ganev, Gerson Gandhi

doi:10.1055/s-0039-1694019

Abstract

Objective

The aim of the present study was to evaluate the association between femoral anteversion and hip muscle strength in subjects with femoroacetabular impingement syndrome.

Method

The femoral version angles described in the arthro-magnetic resonance images and isokinetic tests were retrospectively evaluated from July 2016 to December 2017. The inclusion criteria were: a) femoral version evaluated by the same radiologist; b) α angle ≥ 55°; and c) no limiting pain during the isokinetic test. Flexion/extension, abduction/ adduction, and internal/external rotation peak torques were evaluated at 30° per second in 5 repetitions. The correlation between femoral version and muscle strength was evaluated by simple linear regression at a 5% significance level.

Results

A total of 37 females filled the inclusion criteria, and 51 symptomatic hips were evaluated. There was no correlation of the femoral anteversion in the flexion, extension, abduction, adduction, external rotation and internal rotation peak torques.

Conclusion

Femoral anteversion did not show a correlation with hip muscle strength in females with symptomatic femoroacetabular impingement.

Keywords:
femoroacetabular impingement; muscle strength; hip joint

Resumo

Objetivo

O objetivo deste estudo foi avaliar a associação da anteversão femoral e da força dos músculos do quadril em indivíduos com síndrome do impacto femoroacetabular.

Método

Os ângulos de versão femoral descritos nas imagens de ressonância magnética articular e os testes isocinéticos foram avaliados retrospectivamente entre julho de 2016 e dezembro de 2017. Os critérios de inclusão foram: a) versão femoral avaliada pelo mesmo radiologista; b) ângulo α ≥ 55°; e c) ausência de dor limitante durante o teste isocinético. Os picos de torque em flexão/extensão, abdução/adução e rotação interna/externa foram avaliados a 30°/s em 5 repetições. A correlação entre a versão femoral e a força muscular foi avaliada por meio de regressão linear simples, com nível de significância estatística de 5%.

Resultados

Um total de 37 mulheres atenderam aos critérios de inclusão. Foram avaliados 51 quadris sintomáticos. Não houve correlação da anteversão femoral nos picos de torque em flexão, extensão, abdução, adução, rotação externa e rotação interna.

Conclusão

A anteversão femoral não foi correlacionada à força dos músculos do quadril em mulheres com impacto femoroacetabular sintomático.

Palavras-chave:
impacto femoroacetabular; força muscular; articulação coxofemoral

Introduction

Abnormal hip morphologies have been related to several pathologies of the inferior limbs. The prominence of the femur at the head-neck junction (CAM-type) and an excessive coverage of the femoral head by the acetabulum (PINCER-type) are abnormalities that alone or in combination induce the impingement of the femur against the acetabulum (femoroacetabular impingement, FAI) during extreme movements. This impingement may cause labral tears and premature development of osteoarthritis.¹1 Chegini S, Beck M, Ferguson SJ. The effects of impingement and dysplasia on stress distributions in the hip joint during sitting and walking: a finite element analysis. J Orthop Res 2009;27(02): 195-201 ²2 Beck M, Kalhor M, Leunig M, Ganz R. Hip morphology influences the pattern of damage to the acetabular cartilage: femoroacetabular impingement as a cause of early osteoarthritis of the hip. J Bone Joint Surg Br 2005;87(07):1012-1018

Another important abnormality of the femur is a low or excessive torsion of the neck. In the first case, the angle between the neck and longitudinal axis of the diaphysis is increased, or the angle between the neck and femoral condyle is decreased (< 10°),³3 Botser IB, Ozoude GC,Martin DE, Siddiqi AJ, Kuppuswami S, Domb BG. Femoral anteversion in the hip: comparison of measurement by computed tomography, magnetic resonance imaging, and physical examination. Arthroscopy 2012;28(05):619-627 which induces the external rotation (ER) of the femur. However, in order to maintain the foot pointing forward, the femur is internally rotated, reducing the offset between the anterior rim of the acetabulum and the femoral neck. This morphology decreases the internal rotation (IR) range of motion (RoM), potentiates the impingement,⁴4 Jackson TJ, Lindner D, El-Bitar YF, Domb BG. Effect of femoral anteversion on clinical outcomes after hip arthroscopy. Arthroscopy 2015;31(01):35-41 and increases the contact stress of the joint.⁵5 Satpathy J, Kannan A, Owen JR,Wayne JS, Hull JR, JiranekWA. Hip contact stress and femoral neck retroversion: a biomechanical study to evaluate implication of femoroacetabular impingement. J Hip Preserv Surg 2015;2(03):287-294 On the other hand when there is excessive anteversion of the femur, the angle between the neck and longitudinal axis of the femoral diaphysis is decreased, or the angle between the neck and femoral condyle is increased (> 22°),³3 Botser IB, Ozoude GC,Martin DE, Siddiqi AJ, Kuppuswami S, Domb BG. Femoral anteversion in the hip: comparison of measurement by computed tomography, magnetic resonance imaging, and physical examination. Arthroscopy 2012;28(05):619-627 which has a direct effect on the knee. The distal femur is positioned in IR, and the patella is turned medially.⁴4 Jackson TJ, Lindner D, El-Bitar YF, Domb BG. Effect of femoral anteversion on clinical outcomes after hip arthroscopy. Arthroscopy 2015;31(01):35-41 This position increases the contact pressure and results in patellofemoral syndrome (PFS).⁶6 Baldon RdeM, Nakagawa TH, Muniz TB, Amorim CF, Maciel CD, Serrão FV. Eccentric hip muscle function in females with and without patellofemoral pain syndrome. J Athl Train 2009;44(05): 490-496

Interestingly, both PFS and FAI pathologies have been related to an imbalance in muscle strength. Subjects with PFS have shown weakness in hip abduction and ER,⁷7 Ireland ML, Willson JD, Ballantyne BT, Davis IM. Hip strength in females with and without patellofemoral pain. J Orthop Sports Phys Ther 2003;33(11):671-676 ⁸8 Bolgla LA, Malone TR, Umberger BR, Uhl TL. Hip strength and hip and knee kinematics during stair descent in females with and without patellofemoral pain syndrome. J Orthop Sports Phys Ther 2008;38(01):12-18 while subjects with FAI have shown weakness in hip abduction, adduction, and ER when compared with asymptomatic controls.⁹9 Casartelli NC, Maffiuletti NA, Item-Glatthorn JF, et al. Hip muscle weakness in patients with symptomatic femoroacetabular impingement. Osteoarthritis Cartilage 2011;19(07):816-821 Furthermore, a suggestive weakness was observed in the IR, and no difference was observed in extension between symptomatic and asymptomatic subjects.⁹9 Casartelli NC, Maffiuletti NA, Item-Glatthorn JF, et al. Hip muscle weakness in patients with symptomatic femoroacetabular impingement. Osteoarthritis Cartilage 2011;19(07):816-821 Diamond et al¹⁰10 Diamond LE, Wrigley TV, Hinman RS, et al. Isometric and isokinetic hip strength and agonist/antagonist ratios in symptomatic femoroacetabular impingement. J Sci Med Sport 2016;19(09): 696-701 observed an isometric weakness in the abductors and an imbalance in the rotators in subjects with FAI. Comparing symptomatic and asymptomatic contralateral hips, Nepple et al¹¹11 Nepple JJ, Goljan P, Briggs KK, Garvey SE, Ryan M, Philippon MJ. Hip Strength Deficits in Patients With Symptomatic Femoroacetabular Impingement and Labral Tears. Arthroscopy 2015;31(11): 2106-2111 showed deficits in the isometric strength of the abductors and flexors.

The generalized weakness in hip muscles reported in subjects with symptomatic hips⁹9 Casartelli NC, Maffiuletti NA, Item-Glatthorn JF, et al. Hip muscle weakness in patients with symptomatic femoroacetabular impingement. Osteoarthritis Cartilage 2011;19(07):816-821 and the recovery of strength after the reduction of pain¹²12 Casartelli NC, Maffiuletti NA, Item-Glatthorn JF, Impellizzeri FM, Leunig M. Hip muscle strength recovery after hip arthroscopy in a series of patients with symptomatic femoroacetabular impingement. Hip Int 2014;24(04):387-393 induced the authors to conclude that the weakness was related to the pain caused by osteoarthritis. Nevertheless, the comparison based in symptoms without an evaluation of hip morphology cannot suggest whether the abnormal morphology responsible for FAI is associated to weakness. The resection of the CAM-type deformity and the reduction of pain were associated to the recovery of strength.¹²12 Casartelli NC, Maffiuletti NA, Item-Glatthorn JF, Impellizzeri FM, Leunig M. Hip muscle strength recovery after hip arthroscopy in a series of patients with symptomatic femoroacetabular impingement. Hip Int 2014;24(04):387-393

The CAM-type deformity reduces the range of IR, and the increase in motion could be associated to the recovery of internal rotator strength.

However, our hypothesis is that femoral version abnormalities might also be associated to weakness in subjects with CAM-type impingement and symptomatic hips. A simplified model of the anterior fibers of the gluteus medius and minimus to explain the theory of the femoral version-related weakness of the IR is shown in Fig. 1. The backward-shifted position of the greater trochanter relative to the head with the foot pointed forward in the excessive anteversion of the femur decreases the angle between the muscle vector and the axis of the femoral neck. This position may increase the magnitude of the vector responsible to press the head inside the acetabulum and decrease the vector responsible for the internal torque. Furthermore, the anteversion may be responsible for the disadvantageous length-tension relationship between the internal rotators and the psoas.¹³13 Schutte LM, HaydenSW, Gage JR. Lengths of hamstrings and psoas muscles during crouch gait: effects of femoral anteversion. J Orthop Res 1997;15(04):615-621 The backward position of the lesser trochanter may elongate the fibers, decreasing the number of actin-myosin cross-bridge formations and the ability to produce the maximal force. On the other hand, when the greater trochanter is shifted into a forward position, the angle between the muscle vector and the axis of the femoral neck is increased. Thus, the magnitude of the vector responsible for the internal torque is increased, and the vector responsible to press the head against the acetabulum decreases.

Fig. 1
The posterior view of hip in 90° flexion, and vectors of anterior fibers of gluteus medius and minimus in normal (10–22°), low (< 10°), and high (> 22°) femoral anteversion, respectively. The dot vectors are the responsible for internal rotation movement. The closed angle between femoral axis and muscle vector showed in high anteversion may results in decreased vector responsible for rotation compared to low anteversion. The opposed effect can be shown in low anteversion case.

Therefore, the sum of the vector changes and disadvantageous length-tension relationship may be enough to alter hip muscle strength when subjects with excessive and low femoral anteversion are compared. Taking this into account, the present study evaluated the correlation of the femoral version with isokinetic muscle strength in females with symptomatic CAM-type impingement.

Methods

Subjects

The sample of the present study was composed of subjects that were evaluated in our institute between July 2016 and December 2017. The inclusion criteria were having had the arthro-magnetic resonance image evaluated by the same radiologist, having pathological CAM-type FAI, and being able to execute the movements required in the isokinetic protocol without excessive pain (visual analog scale [VAS] < 4). All subjects provided their consent for the use of the data. Previous approval for the conduction of the study was obtained from the Ethics in Research Committee of our institution.

Assessment of Hip Morphology

All of the hip morphology evaluations were performed through arthro-magnetic resonance imaging (GE Infinity, GE, Boston, MA, US). After anesthesia with 5 mL of lidocaine 2%, an 18-mL physiologic buffer solution and 0.4 mL of gadoteric acid were injected into the hip. The scans were performed using T1 sequences with 0.3 cm of thickness and saturation of the axial fat at the axes of the femoral neck, and at the sagittal and coronal planes. Coronal short tau inversion recovery (STIR) images with fat saturation, 0.5 cm of thickness and axial proton density were also acquired. The femoral version was measured drawing a line crossing the center of the femoral neck and another line crossing both posterior condyles. The presence of CAM-type impingement was evaluated through the α angle. The α angle was measured drawing a line crossing the axis of neck and another line crossing the head-neck junction and the center of the femoral head. An angle ≥ 55° was considered positive for CAM-type impingement.¹⁴14 Barrientos C, Barahona M, Diaz J, Brañes J, Chaparro F, Hinzpeter J. Is there a pathological alpha angle for hip impingement? A diagnostic test study. J Hip Preserv Surg 2016;3(03):223-228 ¹⁵15 de Sa D, Urquhart N, Philippon M, Ye JE, Simunovic N, Ayeni OR. Alpha angle correction in femoroacetabular impingement. Knee Surg Sports Traumatol Arthrosc 2014;22(04):812-821

Assessment of Muscle Strength

The concentric peak torque was evaluated using a System 4 pro isokinetic dynamometer (Biodex Medical System, Shirley, NY, US). The manufacturer's protocols were followed for the flexion/extension and abduction/adduction movements. The supine position was adopted to evaluate the flexor and extensor muscle strength. The RoM was set as near as possible to 5° of flexion in order to avoid contact of the thigh with the chair. The upper limit was set at between 60° and 70°. The abduction and adduction movements were performed in lateral decubitus. The lower position was set at 0° of adduction, and the RoM was set between 45° and 55°. Gravity correction was performed at the lower limit of the RoM for the flexion/extension and abduction/adduction movements. The IR and ER were evaluated in a seated position with the hip and knee fixed at a flexion of 90°. The dynamometer axis was adjusted to the longitudinal axis of the femur and attached to the leg above the medial malleoli. To avoid any adduction and abduction movements during the test, the hip and the distal thigh were immobilized. The subjects themselves defined the RoM in order to avoid any feeling of pain. The minimum RoM accepted was of 20°. Gravity correction was not necessary. A warm-up session of five repetitions was performed for all movements. The peak torque was recorded over 5 repetitions with 30° per second of velocity, which were performed 2 minutes after the warm-up.

Statistical Analysis

The peak torque data was normalized by body mass. The correlation between the femoral version and the peak torque was evaluated adjusting a simple linear regression curve, and the analysis of variance was used to evaluate the significance of the regression. The significance level was set at 0.05.

Results

A total of 37 females fulfilled the inclusion criteria. A total of 23 females had unilateral symptoms, and 14 subjects had bilateral symptoms. Thus, 51 hips were evaluated. The data of the femoral anteversion angles and the characteristics of the subjects are summarized in Table 1. There was no correlation between the femoral version angle and the flexion (p= 0.59), extension (p= 0.22), abduction (p= 0.75), adduction (p= 0.61), and ER (p= 0.17) peak torques. A weak correlation between the femoral version and the IR (p= 0.013; r_adjusted= 0.10) peak torque was observed (Fig. 2).

Fig. 2
Dispersion of flexion, extension, abduction, adduction, internal rotation, and external rotation peak torque (N.m/Kg) versus femoral version angle.

Thumbnail

Table 1
Sample description

Discussion

The aim of the present study was to evaluate the correlation between the femoral version and the concentric isokinetic strength of the hip muscles. The results showed no effect of the version on flexion, extension, abduction, adduction, and ER strength; they also showed a weak correlation with IR strength in females with pathological CAM-type FAI.

The action of the rotator muscles depends on the relative position between the femoral and the pelvic insertions, which determines the vector of the muscles related to the rotational axis of the femur. The muscles with their vector in front of the rotational axis of the femur on the horizontal plane are responsible for the IR when the hip is at 0° of flexion. The main internal rotator muscles are the anterior fibers of the gluteus medius and minimus,¹⁶16 Beck M, Sledge JB, Gautier E, Dora CF, Ganz R. The anatomy and function of the gluteus minimus muscle. J Bone Joint Surg Br 2000;82(03):358-363 pectineus, and tensor fasciae latae. The adductor longus and brevis are secondary internal rotators.¹⁷17 Delp SL, Hess WE, Hungerford DS, Jones LC. Variation of rotation moment arms with hip flexion. J Biomech 1999;32(05):493-501 With a 90° hip flexion, the posterior fibers of the gluteus medius and the anterior fibers of the gluteus maximus also become internal rotators, increasing the internal moment compared with 0° of hip flexion.¹⁷17 Delp SL, Hess WE, Hungerford DS, Jones LC. Variation of rotation moment arms with hip flexion. J Biomech 1999;32(05):493-501 ¹⁸18 Neumann DA. Kinesiology of the hip: a focus onmuscular actions. J Orthop Sports Phys Ther 2010;40(02):82-94

Cibulka et al¹⁹19 CibulkaMT, Strube MJ,Meier D, et al. Symmetrical and asymmetrical hip rotation and its relationship to hip rotator muscle strength. Clin Biomech (Bristol, Avon) 2010;25(01):56-62 evaluated the effect of the asymmetric RoM on the IR of the hip rotator muscles. Asymptomatic subjects with a greater ER RoM when compared with the IR RoM (ER > IR), and subjects with the opposite characteristics (ER < IR) were evaluated. Although the authors did not evaluate hip morphology, the first pattern is similar to the pattern of RoM observed in subjects with low femoral anteversion, in whom the offset between the femoral neck and the anterior acetabular rim is short, resulting in low IR RoM, and the offset related to the posterior rim is large, resulting in high ER RoM,³3 Botser IB, Ozoude GC,Martin DE, Siddiqi AJ, Kuppuswami S, Domb BG. Femoral anteversion in the hip: comparison of measurement by computed tomography, magnetic resonance imaging, and physical examination. Arthroscopy 2012;28(05):619-627 ²⁰20 Philippon MJ, Ejnisman L, Pennock AT, et al. Does Femoral Anteversion Play a Role in the Pathomechanics and Subsequent Surgical Treatment of Femoroacetabular Impingement? (SS-44). Arthrosc J Arthrosc Relat Surg. 2011;27(05):e53 as shown in Fig. 1. The second pattern is similar to the pattern observed in subjects with excessive anteversion, in whom the offset between the femoral neck and anterior acetabular rim is large, and the offset related to posterior acetabular rim is short, resulting in a greater IR RoM when compared with the ER RoM.³3 Botser IB, Ozoude GC,Martin DE, Siddiqi AJ, Kuppuswami S, Domb BG. Femoral anteversion in the hip: comparison of measurement by computed tomography, magnetic resonance imaging, and physical examination. Arthroscopy 2012;28(05):619-627 ²⁰20 Philippon MJ, Ejnisman L, Pennock AT, et al. Does Femoral Anteversion Play a Role in the Pathomechanics and Subsequent Surgical Treatment of Femoroacetabular Impingement? (SS-44). Arthrosc J Arthrosc Relat Surg. 2011;27(05):e53 Subjects with ER > IR showed a higher isometric force of IR when compared with subjects with ER < IR when the angle of ER RoM used to measure the force was similar between them.¹⁹19 CibulkaMT, Strube MJ,Meier D, et al. Symmetrical and asymmetrical hip rotation and its relationship to hip rotator muscle strength. Clin Biomech (Bristol, Avon) 2010;25(01):56-62 The explanation used by the authors was that the muscle fibers were more elongated in the ER < IR pattern than the fibers in the ER > IR pattern for this RoM. The authors also observed that when the force of the IR was measured with the foot pointing forward (see Fig. 1 for clarity), the subjects with ER > IR had more strength than the ER < IR subjects.

Previous studies had suggested that excessive anteversion may affect the abduction strength. The electromyography of the hip muscles showed that asymptomatic athletes with excessive anteversion have reduced isometric electromyography activity of the gluteus medius during abduction associated to the ER test in the lateral decubitus position.²¹21 Nyland J, Kuzemchek S, Parks M, Caborn DNM. Femoral anteversion influences vastus medialis and gluteus medius EMG amplitude: composite hip abductor EMG amplitude ratios during isometric combined hip abduction-external rotation. J Electromyogr Kinesiol 2004;14(02):255-261 Another study performed a finite-element analysis of a hip prosthesis wrongly positioned in excessive anteversion, and it showed a slight decrease in the moment arm and force generation abilities of the abductors, and an increase in the force of the flexors.²²22 Delp SL, Komattu AV, Wixson RL. Superior displacement of the hip in total joint replacement: effects of prosthetic neck length, neck-stem angle, and anteversion angle on the moment-generating capacity of the muscles. J Orthop Res 1994;12(06): 860-870

Although we did not evaluate the existence of PFS in our sample, a relationship between excessive anteversion and weakness in the hip muscles has been suggested as a cause of PFS, due to the resultant internal rotation of the distal femur when the foot is pointing forward.⁴4 Jackson TJ, Lindner D, El-Bitar YF, Domb BG. Effect of femoral anteversion on clinical outcomes after hip arthroscopy. Arthroscopy 2015;31(01):35-41 Subjects with PFS have shown this femoral positioning during dynamic activities such as running²³23 Souza RB, Powers CM. Predictors of hip internal rotation during running: an evaluation of hip strength and femoral structure in women with and without patellofemoral pain. Am J Sports Med 2009;37(03):579-587 and squatting.²⁴24 Powers CM. The influence of abnormal hip mechanics on knee injury: a biomechanical perspective. J Orthop Sports Phys Ther 2010;40(02):42-51 This biomechanics has been associated to the inability of the gluteus maximus to counterbalance the IR, since subjects with PFS have shown a weakness in the abductors and external rotators.⁷7 Ireland ML, Willson JD, Ballantyne BT, Davis IM. Hip strength in females with and without patellofemoral pain. J Orthop Sports Phys Ther 2003;33(11):671-676 ⁸8 Bolgla LA, Malone TR, Umberger BR, Uhl TL. Hip strength and hip and knee kinematics during stair descent in females with and without patellofemoral pain syndrome. J Orthop Sports Phys Ther 2008;38(01):12-18

Our results did not show any effect of the different version angles on the isokinetic torque of the external rotators, abductors, and flexors. We hypothesized that the lateral decubitus position in the open chain used to evaluate the isokinetic strength of abduction may enable the adjustment of a more favorable orientation of muscle fibers to develop the maximal force. A possible deficit of the abductor related to femoral version may become evident when the muscles act eccentrically to stabilize the drop of the pelvis in the frontal plane and control the IR moment, such as observed in subjects with PFS.⁶6 Baldon RdeM, Nakagawa TH, Muniz TB, Amorim CF, Maciel CD, Serrão FV. Eccentric hip muscle function in females with and without patellofemoral pain syndrome. J Athl Train 2009;44(05): 490-496 ²⁵25 Baldon RdeM, Lobato D FM, Carvalho LP, Wun P YL, Presotti CV, Serrão FV. Relationships between eccentric hip isokinetic torque and functional performance. J Sport Rehabil 2012;21(01):26-33

These findings show that femoral version is not a determinant factor for muscle weakness. Moreover, they are in line with studies that have shown that abnormal femoral anteversion does not change the outcomes after arthroscopy for FAI.⁴4 Jackson TJ, Lindner D, El-Bitar YF, Domb BG. Effect of femoral anteversion on clinical outcomes after hip arthroscopy. Arthroscopy 2015;31(01):35-41 ²⁶26 Ferro FP, Ho CP, Briggs KK, Philippon MJ. Patient-centered outcomes after hip arthroscopy for femoroacetabular impingement and labral tears are not different in patients with normal, high, or low femoral version. Arthroscopy 2015;31(03):454-459 However, in order to better understand the effect of femoral version, further studies should consider evaluating asymptomatic hips to avoid the bias of pain in the maximal development of the torque. Although no limiting pain was reported (VAS < 4), the IR movement with 90° of flexion may impinge the femur against the acetabulum, triggering pain. Therefore, it is not possible to guarantee that pain did not influence the maximal peak torque development. The lack of a control group is the major limitation of the present study.

Conclusion

Femoral version did not show a correlation with the strength of flexion, extension, abduction, adduction, ER and IR in symptomatic females with FAI.

References

¹
Chegini S, Beck M, Ferguson SJ. The effects of impingement and dysplasia on stress distributions in the hip joint during sitting and walking: a finite element analysis. J Orthop Res 2009;27(02): 195-201
²
Beck M, Kalhor M, Leunig M, Ganz R. Hip morphology influences the pattern of damage to the acetabular cartilage: femoroacetabular impingement as a cause of early osteoarthritis of the hip. J Bone Joint Surg Br 2005;87(07):1012-1018
³
Botser IB, Ozoude GC,Martin DE, Siddiqi AJ, Kuppuswami S, Domb BG. Femoral anteversion in the hip: comparison of measurement by computed tomography, magnetic resonance imaging, and physical examination. Arthroscopy 2012;28(05):619-627
⁴
Jackson TJ, Lindner D, El-Bitar YF, Domb BG. Effect of femoral anteversion on clinical outcomes after hip arthroscopy. Arthroscopy 2015;31(01):35-41
⁵
Satpathy J, Kannan A, Owen JR,Wayne JS, Hull JR, JiranekWA. Hip contact stress and femoral neck retroversion: a biomechanical study to evaluate implication of femoroacetabular impingement. J Hip Preserv Surg 2015;2(03):287-294
⁶
Baldon RdeM, Nakagawa TH, Muniz TB, Amorim CF, Maciel CD, Serrão FV. Eccentric hip muscle function in females with and without patellofemoral pain syndrome. J Athl Train 2009;44(05): 490-496
⁷
Ireland ML, Willson JD, Ballantyne BT, Davis IM. Hip strength in females with and without patellofemoral pain. J Orthop Sports Phys Ther 2003;33(11):671-676
⁸
Bolgla LA, Malone TR, Umberger BR, Uhl TL. Hip strength and hip and knee kinematics during stair descent in females with and without patellofemoral pain syndrome. J Orthop Sports Phys Ther 2008;38(01):12-18
⁹
Casartelli NC, Maffiuletti NA, Item-Glatthorn JF, et al. Hip muscle weakness in patients with symptomatic femoroacetabular impingement. Osteoarthritis Cartilage 2011;19(07):816-821
¹⁰
Diamond LE, Wrigley TV, Hinman RS, et al. Isometric and isokinetic hip strength and agonist/antagonist ratios in symptomatic femoroacetabular impingement. J Sci Med Sport 2016;19(09): 696-701
¹¹
Nepple JJ, Goljan P, Briggs KK, Garvey SE, Ryan M, Philippon MJ. Hip Strength Deficits in Patients With Symptomatic Femoroacetabular Impingement and Labral Tears. Arthroscopy 2015;31(11): 2106-2111
¹²
Casartelli NC, Maffiuletti NA, Item-Glatthorn JF, Impellizzeri FM, Leunig M. Hip muscle strength recovery after hip arthroscopy in a series of patients with symptomatic femoroacetabular impingement. Hip Int 2014;24(04):387-393
¹³
Schutte LM, HaydenSW, Gage JR. Lengths of hamstrings and psoas muscles during crouch gait: effects of femoral anteversion. J Orthop Res 1997;15(04):615-621
¹⁴
Barrientos C, Barahona M, Diaz J, Brañes J, Chaparro F, Hinzpeter J. Is there a pathological alpha angle for hip impingement? A diagnostic test study. J Hip Preserv Surg 2016;3(03):223-228
¹⁵
de Sa D, Urquhart N, Philippon M, Ye JE, Simunovic N, Ayeni OR. Alpha angle correction in femoroacetabular impingement. Knee Surg Sports Traumatol Arthrosc 2014;22(04):812-821
¹⁶
Beck M, Sledge JB, Gautier E, Dora CF, Ganz R. The anatomy and function of the gluteus minimus muscle. J Bone Joint Surg Br 2000;82(03):358-363
¹⁷
Delp SL, Hess WE, Hungerford DS, Jones LC. Variation of rotation moment arms with hip flexion. J Biomech 1999;32(05):493-501
¹⁸
Neumann DA. Kinesiology of the hip: a focus onmuscular actions. J Orthop Sports Phys Ther 2010;40(02):82-94
¹⁹
CibulkaMT, Strube MJ,Meier D, et al. Symmetrical and asymmetrical hip rotation and its relationship to hip rotator muscle strength. Clin Biomech (Bristol, Avon) 2010;25(01):56-62
²⁰
Philippon MJ, Ejnisman L, Pennock AT, et al. Does Femoral Anteversion Play a Role in the Pathomechanics and Subsequent Surgical Treatment of Femoroacetabular Impingement? (SS-44). Arthrosc J Arthrosc Relat Surg. 2011;27(05):e53
²¹
Nyland J, Kuzemchek S, Parks M, Caborn DNM. Femoral anteversion influences vastus medialis and gluteus medius EMG amplitude: composite hip abductor EMG amplitude ratios during isometric combined hip abduction-external rotation. J Electromyogr Kinesiol 2004;14(02):255-261
²²
Delp SL, Komattu AV, Wixson RL. Superior displacement of the hip in total joint replacement: effects of prosthetic neck length, neck-stem angle, and anteversion angle on the moment-generating capacity of the muscles. J Orthop Res 1994;12(06): 860-870
²³
Souza RB, Powers CM. Predictors of hip internal rotation during running: an evaluation of hip strength and femoral structure in women with and without patellofemoral pain. Am J Sports Med 2009;37(03):579-587
²⁴
Powers CM. The influence of abnormal hip mechanics on knee injury: a biomechanical perspective. J Orthop Sports Phys Ther 2010;40(02):42-51
²⁵
Baldon RdeM, Lobato D FM, Carvalho LP, Wun P YL, Presotti CV, Serrão FV. Relationships between eccentric hip isokinetic torque and functional performance. J Sport Rehabil 2012;21(01):26-33
²⁶
Ferro FP, Ho CP, Briggs KK, Philippon MJ. Patient-centered outcomes after hip arthroscopy for femoroacetabular impingement and labral tears are not different in patients with normal, high, or low femoral version. Arthroscopy 2015;31(03):454-459

*
Work conducted at Clinica Reab, Florianopolis, SC, Brazil

Publication Dates

Publication in this collection
07 Oct 2019
Date of issue
Jul-Aug 2019

History

Received
16 July 2018
Accepted
12 Mar 2019

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ¹
Chegini S, Beck M, Ferguson SJ. The effects of impingement and dysplasia on stress distributions in the hip joint during sitting and walking: a finite element analysis. J Orthop Res 2009;27(02): 195-201

[2] ²
Beck M, Kalhor M, Leunig M, Ganz R. Hip morphology influences the pattern of damage to the acetabular cartilage: femoroacetabular impingement as a cause of early osteoarthritis of the hip. J Bone Joint Surg Br 2005;87(07):1012-1018

[3] ³
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Description	Mean	Standard deviation	Minimum	Maximum
Femoral version angle (degree)	17	7.8	0	31
Alpha angle (degree)	60	6.39	55	86
Age	36	8.23	24	52
Height (m)	1.63	0.06	1.5	1.78
Body mass (kg)	63	8.32	51	98

Brasil

Brasil

Is Femoral Version Associated with Changes in Hip Muscle Strength in Females with Symptomatic Femoroacetabular Impingement?^* * Work conducted at Clinica Reab, Florianopolis, SC, Brazil

Abstract

Objective

Method

Results

Conclusion

Resumo

Objetivo

Método

Resultados

Conclusão

Introduction

Methods

Subjects

Assessment of Hip Morphology

Assessment of Muscle Strength

Statistical Analysis

Results

Discussion

Conclusion

References

Publication Dates

History

Brasil

Brasil

Is Femoral Version Associated with Changes in Hip Muscle Strength in Females with Symptomatic Femoroacetabular Impingement?* * Work conducted at Clinica Reab, Florianopolis, SC, Brazil

Abstract

Objective

Method

Results

Conclusion

Resumo

Objetivo

Método

Resultados

Conclusão

Introduction

Methods

Subjects

Assessment of Hip Morphology

Assessment of Muscle Strength

Statistical Analysis

Results

Discussion

Conclusion

References

Publication Dates

History

Is Femoral Version Associated with Changes in Hip Muscle Strength in Females with Symptomatic Femoroacetabular Impingement?^* * Work conducted at Clinica Reab, Florianopolis, SC, Brazil