Abstract
Objective
To evaluate knee alignment in the frontal plane and pelvic balance during the step-down test in female and male soccer players.
Methods
Cross-sectional study carried out with male and female soccer players from under-15 and under-17 teams of a professional club in Southern Brazil. The step-down test was performed, filmed with a video camera, and evaluated according to the angular measurements obtained during movement using the Kinovea software (open source), version 0.8.24.
Results
The sample consisted of 38 individuals, 19 males and 19 females. Female athletes had a greater varus angle (9.42º ± 1.65º) compared to male athletes (3.91º ± 2.0º; p = 0.04). There was no difference regarding the unilateral pelvic drop between the groups. In addition, the association between the hip-related pelvic drop and the projection angle on the frontal plane of the knee was weak in both genders.
Conclusion
Even though the pelvic drop was observed in both genders, young female athletes had greater varus knee angles on the step-down test, which require greater attention to minimize the risk of injury.
Resumo
Objetivo
Avaliar o alinhamento do joelho no plano frontal e o equilíbrio pélvico durante a descida de um degrau comparando atletas de futebol feminino e masculino.
Métodos
Estudo transversal, realizado com atletas de futebol das categorias sub-15 e sub-17, de ambos os sexos, de um clube profissional do Sul do Brasil. Foi realizado o teste de descida de um degrau, o qual foi filmado por uma câmera de vídeo, e, em sua avaliação, traçaram-se as medidas angulares durante o movimento por meio do software Kinovea (código aberto), versão 0.8.24.
Resultados
A amostra foi composta por 38 indivíduos, 19 do sexo masculino e 19 do sexo feminino. As atletas do sexo feminino apresentaram maior ângulo em varo (9,42º ± 1,65º) quando comparadas com os atletas masculinos (3,91º ± 2,0º; p = 0,04). Não houve diferença em relação à queda unilateral da pelve (drop pélvico) entre os grupos, e a associação entre o drop pélvico do quadril e o ângulo de projeção no plano frontal do joelho foi fraca em ambos os sexos.
Conclusão
Apesar de ambos os sexos terem apresentado queda pélvica, as atletas de base do sexo feminino apresentaram maior angulação do joelho em varo no teste de descida do degrau, e necessitam maior atenção para minimizar o risco de lesão.
Introduction
At a high performance level, soccer is a physically complex, intense sport that may cause injuries, especially in the lower limbs.11 Abrahão GS, Caixeta LF, Barbosa LR, Siqueira dPP, Carvalho LC, Matheus JPC. Incidência das lesões ortopédicas por segmento anatômico associado à avaliação da frequência e intensidade da dor emuma equipe de futebol amador. Braz J Biomotr 2009;3(02): 152–158 A number of factors are related to non-contact injuries, including age, gender, body morphology, muscle strength, flexibility, and joint stability and alignment.22 Almeron MM, Pacheco AM, Pacheco I. Relação entre fatores de risco intrínsecos e extrínsecos e a prevalência de lesões em membros inferiores em atletas de basquetebol e voleibol. Rev Cienc Salud 2009;2(02):58–65 Among the changes in dynamic joint alignment, the valgus or varus knee is associated with the highest risk of injury, since misaligned lower limbs increase the load imposed on the joint. As such, health professionals must identify and minimize this risk factors in soccer athletes.33 Tamura A, Akasaka K, Otsudo T, Shiozawa J, Toda Y, Yamada K. Dynamic knee valgus alignment influences impact attenuation in the lower extremity during the deceleration phase of a single-leg landing. PLoS One 2017;12(06):e0179810,44 Lima YL, Ferreira VMLM, de Paula Lima PO, Bezerra MA, de Oliveira RR, Almeida GPL. The association of ankle dorsiflexion and dynamic knee valgus: A systematic review and meta-analysis. Phys Ther Sport 2018;29:61–69
Excessive valgus during running subjects the knee to chronic tension on medial ligament structures, and results in an abnormal rigidity in the iliotibial tract; in contrast, the varus increases the load imposed on the lateral ligament complex of the knee.55 Schmitz RJ, Shultz SJ, Nguyen AD. Dynamic valgus alignment and functional strength in males and females during maturation. J Athl Train 2009;44(01):26–32 The kinematics of the lower limbs is directly related to the pelvic girdle, and the weakening of the pelvic muscles, such as the abductors and external rotators of the hip, in addition to the delayed activation time of the hip musculature, can reflect in a dynamic knee misalignment.66 Araújo VL, Souza TR, Carvalhais VODC, Cruz AC, Fonseca ST. Effects of hip and trunk muscle strengthening on hip function and lower limb kinematics during step-down task. Clin Biomech (Bristol, Avon) 2017;44(01):28–35
7 Bittencourt NF, Ocarino JM, Mendonça LD, Hewett TE, Fonseca ST. Foot and hip contributions to high frontal plane knee projection angle in athletes: a classification and regression tree approach. J Orthop Sports Phys Ther 2012;42(12):996–1004-88 Snyder KR, Earl JE, O’Connor KM, Ebersole KT. Resistance training is accompanied by increases in hip strength and changes in lower extremity biomechanics during running. Clin Biomech (Bristol, Avon) 2009;24(01):26–34 Studies show that subjects with weakened pelvic muscles are more likely to develop patellofemoral pain;99 Magalhães E, Fukuda TY, Sacramento SN, Forgas A, Cohen M, Abdalla RJ. A comparison of hip strength between sedentary females with and without patellofemoral pain syndrome. J Orthop Sports Phys Ther 2010;40(10):641–647,1010 EmamvirdiM, Letafatkar A, Khaleghi Tazji M. The Effect of Valgus Control Instruction Exercises on Pain, Strength, and Functionality in Active Females With Patellofemoral Pain Syndrome. Sports Health 2019;11(03):223–237 in addition, the dynamic misalignment of the knee is related to more serious injuries which prevent athletic activities for long periods of time, such as injuries to the ankle ligament and rupture of the anterior cruciate ligament of the knee.1111 Brophy RH, Chiaia TA, Maschi R, et al. The core and hip in soccer athletes compared by gender. Int J Sports Med 2009;30(09): 663–667
12 Larruskain J, Lekue JA, Diaz N, Odriozola A, Gil SM. A comparison of injuries in elitemale and female football players: A five-season prospective study. Scand J Med Sci Sports 2018;28(01):237–245-1313 Watson A, Mjaanes JMCOUNCIL ON SPORTS MEDICINE AND FITNESS. Soccer Injuries in Children and Adolescents. Pediatrics 2019;144(05):e20192759
Even though there is a trend to generalize pelvic muscle weakness in lower-limb injuries, other factors, including gender, must be considered.1414 Heiderscheit BC. Lower extremity injuries: is it just about hip strength? J Orthop Sports Phys Ther 2010;40(02):39–41 More specifically, among athletes at the same level of activity, women are more susceptible to sports injuries, presenting them in a higher incidence and greater severity. This occurs because women have lower general stability and muscle strength, in addition to joint hypermobility resulting from hormonal factors, which can potentiate a biomechanical change during movement.1111 Brophy RH, Chiaia TA, Maschi R, et al. The core and hip in soccer athletes compared by gender. Int J Sports Med 2009;30(09): 663–667,1212 Larruskain J, Lekue JA, Diaz N, Odriozola A, Gil SM. A comparison of injuries in elitemale and female football players: A five-season prospective study. Scand J Med Sci Sports 2018;28(01):237–245,1515 Sieńko-Awierianów E, Chudecka M. Risk of Injury in Physically Active Students: Associated Factors and Quality of Life Aspects. Int J Environ Res Public Health 2020;17(07):2564
16 Cesar GM. Influência do ciclo menstrual na atividade eletromiográfica e na cinemática do joelho durante a aterrissagem do salto [dissertação]. São Carlos: Programa de Pós Graduação em Fisioterapia, Universidade Federal de São Carlos; 2009-1717 Rodríguez C, Echegoyen S, Aoyama T. The effects of “Prevent Injury and Enhance Performance Program” in a female soccer team. J Sports Med Phys Fitness 2018;58(05):659–663 Women present increased angle of adduction and medial hip rotation due to weakness of the abductor and lateral hip rotator muscles; this fact led to the hypothesis that female athletes have greater dynamic misalignment of the knee and less movement control when compared to the male athletes since adolescence. Therefore, women require more attention regarding the risk of new injuries.1616 Cesar GM. Influência do ciclo menstrual na atividade eletromiográfica e na cinemática do joelho durante a aterrissagem do salto [dissertação]. São Carlos: Programa de Pós Graduação em Fisioterapia, Universidade Federal de São Carlos; 2009
As such, the present study aims to compare the relationship between knee alignment in the frontal plane and pelvic balance during the step-down test in young female and male soccer players.
Materials and Methods
Participants
The present is a cross-sectional study with young athletes from a professional soccer club in Southern Brazil. The study was approved by the Research Ethics Committee of Universidade Católica de Pelotas (opinion report number: 1.759.216), and the participants and their guardians respectively signed a consent form for underage participants and an informed consent form. The sample was selected per convenience, and all athletes from the club's youth ranks (under-17 and under-15), of both genders, were invited to participate in the study. The inclusion criterion consisted of playing soccer for the team during the season. The exclusion criteria were defined as the following: athletes submitted to lower-limb surgery within the previous 6 months, those absent due to injury during data collection, those who felt pain during test, athletes with discrepancy in the lower limbs, and those unable to perform the test without exacerbated postural compensations.
At the initial approach, 68 informed consent forms were retrieved; however, 22 athletes did not return to contact, and were considered lost. Another eight athletes were excluded from the study: one for having dropped out during the test, three due to knee pain, and four because they were unable to perform the step-down movement without exaggerated postural compensations. These last four subjects presented excessive trunk flexion that completely covered the markers positioned on the hip, increasing the chance of analytical error. As such, the final sample consisted of 38 athletes, 19 male and 19 female athletes.
Procedures
Investigators were previously trained and qualified regarding the location and demarcation of the landmarks for analysis. A pilot study was carried out with two volunteers for the adaptation of the method. All demarcations and software-based measurements were performed by a single evaluator to sustain the standardization of thr criteria.
Discrepancy and pain in the lower limbs
Lower-limb discrepancy was evaluated with the athletes in the supine position. Two points were marked, one on the anterosuperior iliac spine, and the other on the medial malleolus. A difference ≥ 1 cm between the limbs was considered a positive test. Pain was assessed withthea visual analog scale (VAS), which ranges from 0 to 10, with 0 indicating no pain, and 10, extreme pain.1818 Crossley KM, Bennell KL, Cowan SM, Green S. Analysis of outcome measures for personswith patellofemoral pain: which are reliable and valid? Arch Phys Med Rehabil 2004;85(05):815–822
Pelvic drop and knee dynamic alignment
The unilateral pelvic drop and the frontal plane projection angle (FPPA) of the knee were evaluated during the step-down test by video recordings in 2D with a camera (AFC 183 14 megapixels, Kodak, Rochester, NY, US) 2 meters away from the athlete, fixed to a tripod at a height of 60 cm. For a better evaluation of the recordings, landmarks, including the anterosuperior iliac spines, the midpoint between the femoral epicondyles, and the midpoint between the malleoli, were identified with non-reflective adhesives.77 Bittencourt NF, Ocarino JM, Mendonça LD, Hewett TE, Fonseca ST. Foot and hip contributions to high frontal plane knee projection angle in athletes: a classification and regression tree approach. J Orthop Sports Phys Ther 2012;42(12):996–1004 The Kinovea software (open source), version 0.8.24, was used for the angular analysis of the in-motion data. The unilateral pelvic drop was defined by the inferior displacement of one of the hip demarcations, contralateral to the examined limb; it often results from weakness of the gluteus medius muscle of the supporting limb (►Figure 1); valgus misalignment was defined as the medial displacement of the knee marker (negative angular values in relation to the midline), whereas varus misalignment was determined by a lateral increase in the distal markers (positive angular values in relation to the midline) (►Figure 2).
Evaluation of the pelvic drop using the step-down test in young soccer players (Kinovea software, version 0.8.24).
Evaluation of the frontal plane projection angle(FPPA) of the knee using the step-down test in young soccer players (Kinovea software, version 0.8.24).
The height of the step was standardized as 16 cm. The athletes were instructed to remain 15 cm away from the step. Subsequently, they were asked to climb on the step and remain as relaxed as possible for 10 seconds to capture a frontal image at the beginning of the test; next, they were asked to step down, touching the heel on the ground 5 cm in front of the step, on previously-made markings. Before the test, the athletes performed three rounds of rehearsal for adaptation; the mean values of the five consecutive tests were considered for analysis. The supporting limb was assessed during the movement.66 Araújo VL, Souza TR, Carvalhais VODC, Cruz AC, Fonseca ST. Effects of hip and trunk muscle strengthening on hip function and lower limb kinematics during step-down task. Clin Biomech (Bristol, Avon) 2017;44(01):28–35
Statistical Analysis
The angles were analyzed using the Kinovea software, and the values are presented as means and standard deviations. The Shapiro-Wilk test was performed to verify data distribution. The Student t-test for independent samples was used for the comparative analysis of the mean pelvic drop and mean FPPA in athletes from both genders; the level of significance was set at 5%. The Pearson correlation was used to analyze the association between the pelvic drop and the FPPA. The r-value was interpreted as follows: r = 0 to 0.19, no association; 0.2 to 0.39, low association; 0.4 to 0.69, moderate association; 0.7 to 0.89, high association; and 0.9 to 1.0, strong association. All statistical analyses were performed using the STATA (StataCorp, College Station, TX, US) software, version 12.2.
Results
The characteristics of the sample are presented in ►Table 1. There was a disparity between the male and female athletes regarding the time of soccer practice, and it must be highlighted that 89.5% of men had been playing for 5 years or more, compared to only 5.3% of women.
►Table 2 compares the mean pelvic drop and mean FPPA in female and male athletes submitted to the step-down test. Although there is no significant difference regarding the pelvic drop, female athletes present, on average, a greater varus angle on the step-down test (p = 0.04).
Comparison of the knee FPPA and pelvic drop using the step-down test in young soccer players
►Table 3 shows that the association between the pelvic drop and the varus angle of the knee is weak in both genders; as such, this is not the main factor for joint misalignment in our sample of young athletes.
Association between knee angle in the frontal plane and pelvic drop on the step-down test in young soccer players
Discussion
The main finding of the present study was that young female soccer athletes had lower knee alignment in the frontal plane (varus deviation) during the step-down test. In addition, the pelvic drop was observed in both males and females, but it does not seem to be the main factor related to this misalignment.
Although pelvic muscle weakness is usually associated with dynamic valgus compensation, soccer athletes, like those in our sample, present a trend toward varus.1919 de Rezende LFM, Santos M, Araújo TL, Matsudo VKR. A prática do futebol acentua os graus de geno varo? Rev Bras Med Esporte 2011;14(05):329–333 The varus is characterized by hip abduction and lateral rotation of the knee. Particularly in soccer, a change in the postural knee pattern to varus is common due to the greater use of hip abduction and flexion chains according to the specific sport movement.77 Bittencourt NF, Ocarino JM, Mendonça LD, Hewett TE, Fonseca ST. Foot and hip contributions to high frontal plane knee projection angle in athletes: a classification and regression tree approach. J Orthop Sports Phys Ther 2012;42(12):996–1004,2020 Sigward SM, Ota S, Powers CM. Predictors of frontal plane knee excursion during a drop land in young female soccer players. J Orthop Sports Phys Ther 2008;38(11):661–667
Our study dynamically evaluated the pelvic drop and frontal knee alignment of both male and female adolescent athletes using the step-down test. For weight-unloading activities in a closed kinetic chain, force results from a ground reaction medially to the knee joint, leading to a possible joint misalignment, which is resisted primarily by the collateral ligaments and adjoining musculature.2121 Powers CM. The influence of abnormal hip mechanics on knee injury: a biomechanical perspective. J Orthop Sports Phys Ther 2010;40(02):42–51 In fact, lower-limb misalignment occurs in sports,2222 Burnet EN, Pidcoe PE. Isometric gluteus medius muscle torque and frontal plane pelvic motion during running. J Sports Sci Med 2009;8(02):284–288 and the female population apparently presents the greatest angular variations in the frontal plane due to lower joint stability and higher weakness in the pelvic girdle muscles.99 Magalhães E, Fukuda TY, Sacramento SN, Forgas A, Cohen M, Abdalla RJ. A comparison of hip strength between sedentary females with and without patellofemoral pain syndrome. J Orthop Sports Phys Ther 2010;40(10):641–647,2323 Souza RB, Powers CM. Differences in hip kinematics, muscle strength, andmuscle activation between subjects with andwithout patellofemoral pain. J Orthop Sports Phys Ther 2009;39(01):12–19,2424 Herrington L. Knee valgus angle during landing tasks in female volleyball and basketball players. J Strength Cond Res 2011;25 (01):262–266 However, other factors require further analysis.77 Bittencourt NF, Ocarino JM, Mendonça LD, Hewett TE, Fonseca ST. Foot and hip contributions to high frontal plane knee projection angle in athletes: a classification and regression tree approach. J Orthop Sports Phys Ther 2012;42(12):996–1004,2525 Cruz AC, Fonseca ST, Araújo VL, et al. Pelvic Drop Changes due to Proximal Muscle Strengthening Depend on Foot-Ankle Varus Alignment. Appl Bionics Biomech 2019;2019:2018059 In decelerating sport movements, women have lower knee flexion angles during the initial contact with the ground, because they present a biomechanical decrease in hip-flexion angles.33 Tamura A, Akasaka K, Otsudo T, Shiozawa J, Toda Y, Yamada K. Dynamic knee valgus alignment influences impact attenuation in the lower extremity during the deceleration phase of a single-leg landing. PLoS One 2017;12(06):e0179810 The muscles surrounding the hip joint play a key role in stabilization during movement, especially in the dynamic frontal knee alignment;2626 Claiborne TL, Armstrong CW, Gandhi V, Pincivero DM. Relationship between hip and knee strength and knee valgus during a single leg squat. J Appl Biomech 2006;22(01):41–50 as such, weakened hip muscles can render women more susceptible to sports injuries, especially those with increased severity, including to the knee ligaments.1010 EmamvirdiM, Letafatkar A, Khaleghi Tazji M. The Effect of Valgus Control Instruction Exercises on Pain, Strength, and Functionality in Active Females With Patellofemoral Pain Syndrome. Sports Health 2019;11(03):223–237,1212 Larruskain J, Lekue JA, Diaz N, Odriozola A, Gil SM. A comparison of injuries in elitemale and female football players: A five-season prospective study. Scand J Med Sci Sports 2018;28(01):237–245,1414 Heiderscheit BC. Lower extremity injuries: is it just about hip strength? J Orthop Sports Phys Ther 2010;40(02):39–41,2727 Resende RA, Kirkwood RN, Figueiredo EM. Cinemática da marcha de adultos jovens: dados normativos iniciais. Rev Ter Manual 2010;8(39):370–376,2828 Baldon RM, Lobato DF, Carvalho LP, Wun PY, Serrão FV. Diferenças biomecânicas entre os gêneros e sua importância nas lesões do joelho. Fisioter Mov 2011;24(01):157–166
Strengthening the trunk, pelvis and hip muscles can increase stability and decrease knee misalignment during the step-down test,66 Araújo VL, Souza TR, Carvalhais VODC, Cruz AC, Fonseca ST. Effects of hip and trunk muscle strengthening on hip function and lower limb kinematics during step-down task. Clin Biomech (Bristol, Avon) 2017;44(01):28–35 and this generally involves all lower-limb kinematics.2929 Barendrecht M, Lezeman HC, Duysens J, Smits-Engelsman BC. Neuromuscular training improves knee kinematics, in particular in valgus aligned adolescent team handball players of both sexes. J Strength Cond Res 2011;25(03):575–584,3030 Willy RW, Davis IS. The effect of a hip-strengthening program on mechanics during running and during a single-leg squat. J Orthop Sports Phys Ther 2011;41(09):625–632 In addition to muscle strength, a greater range of motion also appears to be important. A study with 39 young female soccer players showed an inverse correlation between the range of motion of the hip and knee alignment, that is, a lower range of motion of the hip is associated with greater frontal misalignment;2020 Sigward SM, Ota S, Powers CM. Predictors of frontal plane knee excursion during a drop land in young female soccer players. J Orthop Sports Phys Ther 2008;38(11):661–667 pelvic girdle stability seems more complex than the mere analysis of its drop during movement.
In addition for a greater control of the pelvic and trunk muscles, programs and instructions for the control of knee alignment during movement can decrease pain and improve functional performance, especially in women.1010 EmamvirdiM, Letafatkar A, Khaleghi Tazji M. The Effect of Valgus Control Instruction Exercises on Pain, Strength, and Functionality in Active Females With Patellofemoral Pain Syndrome. Sports Health 2019;11(03):223–237 In a study3131 Zazulak BT, Ponce PL, Straub SJ,MedveckyMJ, Avedisian L, Hewett TE. Gender comparison of hip muscle activity during single-leg landing. J Orthop Sports Phys Ther 2005;35(05):292–299 carried out with 22 athletes, women had a higher electromyographic activation of the quadriceps and lower activation of the maximum gluteus during single-leg landing when compared to men. Therefore, increased quadriceps activity combined to lower gluteal activity can contribute to the altered energy absorption during landing by overloading other lower-limb muscle groups and increasing the risk of injury.3131 Zazulak BT, Ponce PL, Straub SJ,MedveckyMJ, Avedisian L, Hewett TE. Gender comparison of hip muscle activity during single-leg landing. J Orthop Sports Phys Ther 2005;35(05):292–299 Programs guided by trained professionals can increase the activation of specific muscles, improving the quadriceps-hamstring ratio and the function of the hip adductor and abductor muscles. These programs are important for joint stability and alignment, and they benefit soccer athletes, especially females.1717 Rodríguez C, Echegoyen S, Aoyama T. The effects of “Prevent Injury and Enhance Performance Program” in a female soccer team. J Sports Med Phys Fitness 2018;58(05):659–663
It is also worth mentioning that, in addition to gender-related physiological differences, that is, the greater dynamic knee misalignment in women due to the lower muscle strength, greater widening of the pelvis and increased ligament laxity, resulting in an increased susceptibility to sports injuries compared to men, it is logical that long-term training facilitates the proper execution of sport movements, saving energy and potentially protecting the athlete from injuries. Regarding teenage soccer, males often play for a longer time and with higher frequency; this is consistent with our findings, in which almost 90% of the male participants had been playing for more than 5 years, compared to only 5% of the female athletes. As such, clinical care and injury prevention must be potentialized in females since their teen years.
Although the present is a cross-sectional study, which may limit conclusions about the cause-effect relationship in knee alignment, we believe that it is essential that health professionals working with athletes are be able to identify dynamic misalignments and institute specific injury-prevention protocols starting at the youth ranks, with special attention to the female population due to their physiological and biomechanical predisposition to a higher incidence and severity of injuries.
Conclusion
Even though both genders presented a pelvic drop, young female athletes had greater varus knee angles on the step-down test, and require greater attention to minimize the risk of injury.
-
*
Study developed at Universidade Católica de Pelotas, Pelotas, Rio Grande do Sul, Brazil.
References
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1Abrahão GS, Caixeta LF, Barbosa LR, Siqueira dPP, Carvalho LC, Matheus JPC. Incidência das lesões ortopédicas por segmento anatômico associado à avaliação da frequência e intensidade da dor emuma equipe de futebol amador. Braz J Biomotr 2009;3(02): 152–158
-
2Almeron MM, Pacheco AM, Pacheco I. Relação entre fatores de risco intrínsecos e extrínsecos e a prevalência de lesões em membros inferiores em atletas de basquetebol e voleibol. Rev Cienc Salud 2009;2(02):58–65
-
3Tamura A, Akasaka K, Otsudo T, Shiozawa J, Toda Y, Yamada K. Dynamic knee valgus alignment influences impact attenuation in the lower extremity during the deceleration phase of a single-leg landing. PLoS One 2017;12(06):e0179810
-
4Lima YL, Ferreira VMLM, de Paula Lima PO, Bezerra MA, de Oliveira RR, Almeida GPL. The association of ankle dorsiflexion and dynamic knee valgus: A systematic review and meta-analysis. Phys Ther Sport 2018;29:61–69
-
5Schmitz RJ, Shultz SJ, Nguyen AD. Dynamic valgus alignment and functional strength in males and females during maturation. J Athl Train 2009;44(01):26–32
-
6Araújo VL, Souza TR, Carvalhais VODC, Cruz AC, Fonseca ST. Effects of hip and trunk muscle strengthening on hip function and lower limb kinematics during step-down task. Clin Biomech (Bristol, Avon) 2017;44(01):28–35
-
7Bittencourt NF, Ocarino JM, Mendonça LD, Hewett TE, Fonseca ST. Foot and hip contributions to high frontal plane knee projection angle in athletes: a classification and regression tree approach. J Orthop Sports Phys Ther 2012;42(12):996–1004
-
8Snyder KR, Earl JE, O’Connor KM, Ebersole KT. Resistance training is accompanied by increases in hip strength and changes in lower extremity biomechanics during running. Clin Biomech (Bristol, Avon) 2009;24(01):26–34
-
9Magalhães E, Fukuda TY, Sacramento SN, Forgas A, Cohen M, Abdalla RJ. A comparison of hip strength between sedentary females with and without patellofemoral pain syndrome. J Orthop Sports Phys Ther 2010;40(10):641–647
-
10EmamvirdiM, Letafatkar A, Khaleghi Tazji M. The Effect of Valgus Control Instruction Exercises on Pain, Strength, and Functionality in Active Females With Patellofemoral Pain Syndrome. Sports Health 2019;11(03):223–237
-
11Brophy RH, Chiaia TA, Maschi R, et al. The core and hip in soccer athletes compared by gender. Int J Sports Med 2009;30(09): 663–667
-
12Larruskain J, Lekue JA, Diaz N, Odriozola A, Gil SM. A comparison of injuries in elitemale and female football players: A five-season prospective study. Scand J Med Sci Sports 2018;28(01):237–245
-
13Watson A, Mjaanes JMCOUNCIL ON SPORTS MEDICINE AND FITNESS. Soccer Injuries in Children and Adolescents. Pediatrics 2019;144(05):e20192759
-
14Heiderscheit BC. Lower extremity injuries: is it just about hip strength? J Orthop Sports Phys Ther 2010;40(02):39–41
-
15Sieńko-Awierianów E, Chudecka M. Risk of Injury in Physically Active Students: Associated Factors and Quality of Life Aspects. Int J Environ Res Public Health 2020;17(07):2564
-
16Cesar GM. Influência do ciclo menstrual na atividade eletromiográfica e na cinemática do joelho durante a aterrissagem do salto [dissertação]. São Carlos: Programa de Pós Graduação em Fisioterapia, Universidade Federal de São Carlos; 2009
-
17Rodríguez C, Echegoyen S, Aoyama T. The effects of “Prevent Injury and Enhance Performance Program” in a female soccer team. J Sports Med Phys Fitness 2018;58(05):659–663
-
18Crossley KM, Bennell KL, Cowan SM, Green S. Analysis of outcome measures for personswith patellofemoral pain: which are reliable and valid? Arch Phys Med Rehabil 2004;85(05):815–822
-
19de Rezende LFM, Santos M, Araújo TL, Matsudo VKR. A prática do futebol acentua os graus de geno varo? Rev Bras Med Esporte 2011;14(05):329–333
-
20Sigward SM, Ota S, Powers CM. Predictors of frontal plane knee excursion during a drop land in young female soccer players. J Orthop Sports Phys Ther 2008;38(11):661–667
-
21Powers CM. The influence of abnormal hip mechanics on knee injury: a biomechanical perspective. J Orthop Sports Phys Ther 2010;40(02):42–51
-
22Burnet EN, Pidcoe PE. Isometric gluteus medius muscle torque and frontal plane pelvic motion during running. J Sports Sci Med 2009;8(02):284–288
-
23Souza RB, Powers CM. Differences in hip kinematics, muscle strength, andmuscle activation between subjects with andwithout patellofemoral pain. J Orthop Sports Phys Ther 2009;39(01):12–19
-
24Herrington L. Knee valgus angle during landing tasks in female volleyball and basketball players. J Strength Cond Res 2011;25 (01):262–266
-
25Cruz AC, Fonseca ST, Araújo VL, et al. Pelvic Drop Changes due to Proximal Muscle Strengthening Depend on Foot-Ankle Varus Alignment. Appl Bionics Biomech 2019;2019:2018059
-
26Claiborne TL, Armstrong CW, Gandhi V, Pincivero DM. Relationship between hip and knee strength and knee valgus during a single leg squat. J Appl Biomech 2006;22(01):41–50
-
27Resende RA, Kirkwood RN, Figueiredo EM. Cinemática da marcha de adultos jovens: dados normativos iniciais. Rev Ter Manual 2010;8(39):370–376
-
28Baldon RM, Lobato DF, Carvalho LP, Wun PY, Serrão FV. Diferenças biomecânicas entre os gêneros e sua importância nas lesões do joelho. Fisioter Mov 2011;24(01):157–166
-
29Barendrecht M, Lezeman HC, Duysens J, Smits-Engelsman BC. Neuromuscular training improves knee kinematics, in particular in valgus aligned adolescent team handball players of both sexes. J Strength Cond Res 2011;25(03):575–584
-
30Willy RW, Davis IS. The effect of a hip-strengthening program on mechanics during running and during a single-leg squat. J Orthop Sports Phys Ther 2011;41(09):625–632
-
31Zazulak BT, Ponce PL, Straub SJ,MedveckyMJ, Avedisian L, Hewett TE. Gender comparison of hip muscle activity during single-leg landing. J Orthop Sports Phys Ther 2005;35(05):292–299
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Publication in this collection
04 June 2021 -
Date of issue
Mar-Apr 2021
History
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Received
11 Sept 2019 -
Accepted
16 Sept 2020