CLINICAL MUSCULAR EVALUATION IN PATELLOFEMORAL PAIN SYNDROME

LOBO JÚNIOR, PAULO; BARBOSA NETO, ITAMAR ALVES; BORGES, JOSÉ HUMBERTO DE SOUZA; TOBIAS, RODRIGO FERREIRA; BOITRAGO, MARCOS VINÍCIUS DA SILVA; OLIVEIRA, MÁRCIO DE PAULA

doi:10.1590/1413-785220182602187215

ABSTRACT

Objective:

To define a profile of the muscle groups affected by patellofemoral pain syndrome (PFPS) to determine a pattern of functional weaknesses around the knee.

Methods:

Sixty-three female patients were randomly selected, and 17 included in this study, receiving a clinical evaluation with pre-established protocol which evaluated the quadriceps, abductors, range of motion in the internal rotators and ankle dorsiflexors, pelvic tilt, and dynamic valgus.

Results:

Losses were seen in abductor strength and ankle dorsiflexor range of motion in comparison with the contralateral limb (0.031 and 0.040, respectively). There was a loss of quadriceps strength and decreased amplitude of internal hip rotation when compared to the Kujala score (0.032 and 0.002, respectively). Dynamic valgus and pelvic fall were greater in comparison with the Kujala score (0.668 and 0.567, respectively).

Conclusion:

Clinical evaluation showed deficits in the quadriceps and abductor muscle groups, as well as decreased range of motion in the internal hip rotators and ankle dorsiflexors and increased dynamic valgus and pelvic drop. Level of Evidence IV; Case series.

Keywords:
Patellofemoral pain syndrome/physiopathology; Patellofemoral pain syndrome/therapy; Knee joint; Muscle, skeletal/physiology.

RESUMO

Objetivo:

Definir o perfil de acometimento de grupos musculares envolvidos na síndrome de dor patelofemoral (SDPF) a fim de determinar um padrão de fraqueza funcional em torno do joelho.

Métodos:

Foram selecionados randomicamente 63 pacientes do sexo feminino, dos quais 17 foram incluídos no trabalho e submetidos a uma avaliação clínica com protocolo preestabelecido que avaliou quadríceps, abdutores, amplitude de movimento de rotadores internos e dorsiflexores de tornozelo, além de inclinação pélvica e valgo dinâmico.

Resultados:

Houve déficit de força de abdutores e diminuição de amplitude do movimento de dorsiflexores de tornozelo em comparação com o membro contralateral (0,031; 0,040, respectivamente). Houve déficit de força de quadríceps e diminuição de amplitude de rotação interna do quadril quando em comparação com o escore de Kujala (0,032; 0,002, respectivamente). Verificou-se aumento do valgo dinâmico e queda pélvica com relação ao escore de Kujala (0,668; 0,567, respectivamente).

Conclusões:

Após avaliação clínica dos pacientes incluídos, observaram-se déficits dos seguintes grupos musculares: quadríceps e abdutores, além da diminuição da amplitude de movimento de rotadores internos do quadril e dorsiflexores de tornozelo; por fim, foram identificados aumento do valgo dinâmico e queda pélvica. Nível de Evidência IV; Série de casos.

Descritores:
Síndrome da dor patelofemoral/fisiopatologia; Síndrome da dor patelofemoral/terapia; Articulação do joelho; Músculo esquelético/fisiologia.

INTRODUCTION

The yearly incidence of anterior knee pain reaches 22 out of every 1000 randomly selected people,¹1 Boling M, Padua D, Marshall S, Guskiewicz K, Pyne S, Beutler A. Gender differences in the incidence and prevalence of patellofemoral pain syndrome. Scand J Med Sci Sports. 2010;20(5):725-30.^,²2 Robinson RL, Nee RJ. Analysis of hip strength in females seeking physical therapy treatment for unilateral patellofemoral pain syndrome. J Orthop Sports Phys Ther. 2007;37(5):232-8. approximately 17 of whom are young women.¹1 Boling M, Padua D, Marshall S, Guskiewicz K, Pyne S, Beutler A. Gender differences in the incidence and prevalence of patellofemoral pain syndrome. Scand J Med Sci Sports. 2010;20(5):725-30.

2 Robinson RL, Nee RJ. Analysis of hip strength in females seeking physical therapy treatment for unilateral patellofemoral pain syndrome. J Orthop Sports Phys Ther. 2007;37(5):232-8.^-³3 Fulkerson JP, Arendt EA. Anterior knee pain in females. Clin Orthop Relat Res. 2000;(372):69-73. Patellofemoral pain syndrome (PFPS) has a broadly discussed terminology due to the variety of symptoms it presents; this condition is also known as runner’s knee, patellar pain, patellar chondropathy, patellar overload syndrome, and patellofemoral pain.⁴4 Grayson TH, editor. Disorders of the patellofemoral joint. 2nd ed. Baltimore: Williams & Wilkins; 1990.^,⁵5 Reid DC. The myth, mystic and frustration of anterior knee pain. Clin J Sport Med. 1993;3:139-43. Furthermore, PFPS is a diagnosis of exclusion, after discarding other pathologies that may cause anterior knee pain, such as degenerative, structural, mechanical or neurological pathologies.⁵5 Reid DC. The myth, mystic and frustration of anterior knee pain. Clin J Sport Med. 1993;3:139-43.^,⁶6 Thomeé R, Renström P, Karlsson J, Grimby G. Patellofemoral pain syndrome in young women. II. Muscle function in patients and healthy controls. Scand J Med Sci Sports. 1995;5(4):245-51.

The etiology of PFPS is multifactorial; notable components include impairment of neuromuscular control of the trunk, pelvis, and legs during functional activities, particularly with regard to the imbalance of forces involved in the musculature around the knee.⁷7 Antich TJ, Randall CC, Westbrook RA, Morrissey MC, Brewster CE. Evaluation of knee extensor mechanism disorders: clinical presentation of 1 12 patients. J Orthop Sports Phys Ther. 1986;8(5):248-54. Moller et al.⁸8 Møller BN, Krebs B, Tidemand-Dal C, Aaris K. Isometric contractions in the patellofemoral pain syndrome. An electromyographic study. Arch Orthop Trauma Surg. 1986;105(1):24-7. found an unbalance between the quadriceps and the hamstrings in patients with PFPS compared with a control group when assessing muscle activities via electroneuromyography.

Currently, neuromuscular training has been gaining prominence as an excellent technique for use in clinical practice, but there is no consensus in the literature as to a specific method for neuromuscular training or even until what point neuromuscular imbalance can lead to anterior knee pain. Consequently, many authors have emphasized exercises to strengthen the vastus medialis obliquus (VMO).⁹9 Weinstabl R, Scharf W, Firbas W. The extensor apparatus of the knee joint and its peripheral vasti: anatomic investigation and clinical relevance. Surg Radiol Anat. 1989;11(1):17-22. But Cerny¹⁰10 Cerny K. Vastus medialis oblique/vastus lateralis muscle activity ratios for selected exercises in persons with and without patellofemoral pain syndrome. Phys Ther. 1995;75(8):672-83. reported that exercises strengthening the vastus lateralis were as important as those strengthening the VMO.

The objective of this study is to define a profile of muscular involvement and mechanical changes involved in PFPS in order to determine a pattern of involvement for functional weaknesses around the knee, optimizing future training protocols to treat PFPS.

MATERIALS AND METHODS

We randomly selected 63 female patients; of these, 17 with knee pain were effectively assessed after the exclusion criteria were carefully applied. All patients underwent magnetic resonance imaging (MRI) and were evaluated by the same team composed of three orthopedic physicians and two physiotherapists.

The inclusion criteria were: female patients between eighteen and forty-five years with anterior knee pain. The exclusion criteria were: any degenerative changes of the knee or hip, history of patellar dislocation, clinical evidence of knee instability, meniscal or other intra-articular injuries, evidence of edema, Osgood-Schlatter disease or Sinding-Larsen-Johanssen syndrome, patellar tendinopathy, chondral injury, osteoarthritis, neurological involvement affecting the gait, joint or muscle injuries in the hip, lumbar pain, sacroiliac pain, patients who previously received surgical treatment in the knee or hip joints, and bilateral complaint of anterior knee pain, since all patients were assessed in comparison with the healthy knee.

Within the sample group, muscular strength was assessed in the abductors (SA), in the external rotators of the hip (SEHR), and the quadriceps (QS). A calibrated Hand Held MicroFET 2 manual dynamometer (Hoggan Scientific, Salt Lake City, USA) was used to assess these parameters. Range of motion was assessed via ankle dorsiflexion (RAD) and internal rotation of the hip (RIHR). A calibrated AM-2 angle meter (Starrett, Athol, MA, USA) was also used.

The EVA and Kujala scores were calculated, in addition to the degree of dynamic valgus and pelvic drop.

Each calculation was repeated three times and the average of these values was used.

The results were statistically evaluated by the most appropriate method, using SPSS software (IBM, Armonk, NY, USA). All tests were performed at a 5% significance level.

This study was approved by the Brasil Platform for ethics in human research (CAAE: 60238116.9.0000.0023) and an informed consent form was signed by all patients.

RESULTS

Clinical evaluation of the groupings in which muscular strength was measured showed only a loss of strength in comparison with the contralateral knee, with a statistically significant result (0.031) for the abductors. (Table 1)

Thumbnail

Table 1
Difference between mean values for lower limbs.

When range of movement was assessed, loss was seen in RAD (0.040), as demonstrated in Table 1.

Comparison of dynamic valgus and pelvic drop correlated to the Kujala score (0-100; the lower the score, the greater the weakness of the knee) showed statistically significant results (0.668 and 0.567, respectively). (Table 2) According to the B coefficient (linear regression coefficient) for each grade plus the difference between the mean averages for the legs in dynamic valgus or pelvic drop, there was a decrease of 1.502 and 2.544 times that of the Kujala score, respectively. (Table 2)

Thumbnail

Table 2
Relation between difference in the means between lower limbs and Kujala score.

There was a loss in QS and decrease in RIHR when these variables were correlated to the Kujala score (0.032 and 0.002, respectively). (Table 2) According to the B coefficient, for each degree reduced between the mean difference for each leg in RIHR or for each Newton of force reduced in the difference between the mean QS values, there was a 1.133 and 0.714-fold reduction in the Kujala score, respectively.

DISCUSSION

PFPS is known to involve anterior knee pain without any chondral changes in the femoropatellar joint, according to Petersen et al.¹¹11 Petersen W, Ellermann A, Liebau C, Bru¨ggemann GP, Best R, Go¨sele-Koppenburg A, et al. Das patellofemorale schmerzsyndrom. Orthopa ¨dische Praxis. 2010;46(8):34-42. Muscle imbalance is believed to be one of the main factors that increases the risk of PFPS.⁴4 Grayson TH, editor. Disorders of the patellofemoral joint. 2nd ed. Baltimore: Williams & Wilkins; 1990.^,¹²12 Insall J. Current concepts review: patellar pain. J Bone Joint Surg Am. 1982;64(1):147-52.

13 Ficat R, Hungerford D. Disorders of the patello-femoral joint. Baltimore: Williams & Wilkins, 1977.

14 Bentley G, Dowd G. Current concepts of etiology and treatment of chondromalacia patellae. Clin Orthop Relat Res. 1984;(189):209-28.^-¹⁵15 Kujala UM, Osterman K, Kvist M, Aalto T, Friberg O. Factors predisposing to patellar chondropathy and patellar apicitis in athletes. Int Orthop. 1986;10(3):195-200. This fact is confirmed by the results of this study, which found a significant reduction in SA and QS.

Recent studies have shown that PFPS does not appear in the knee joint, but rather in the decreased amplitude of internal rotation of the femur, due to weakness of the hip abductors (gluteus medius and minimus muscles).¹⁶16 Baldon Rde M, 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(5):490-6.

17 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(1):12-8.

18 Brent JL, Myer GD, Ford KR, Hewett TE. A longitudinal examination of hip abduction strength in adolescent males and females. Med Sci Sports Exerc.2008;39(5):S290-S1.

19 Padua DA, Marshall SW, Beutler AI, Demaio M, Boden BP, Yu B, et al. Predictors of knee valgus angle during a jump-landing task. Med Sci Sports Exerc. 2005;37(5 Suppl.):398.^-²⁰20 Prins MR, van der Wurff P. Females with patellofemoral pain syndrome have weak hip muscles: a systematic review. Aust J Physiother. 2009;55(1):9-15. Both of these results were statistically determined in this study.

Weakness of the gluteus medius and minimus muscles causes pelvic instability, and consequently the patient cannot support the pelvis for one minute while standing on the affected leg, thus determining pelvic drop, as reported by Petersen et al.¹¹11 Petersen W, Ellermann A, Liebau C, Bru¨ggemann GP, Best R, Go¨sele-Koppenburg A, et al. Das patellofemorale schmerzsyndrom. Orthopa ¨dische Praxis. 2010;46(8):34-42. Moreover, weakness in these muscles lead to internal rotation of the femur, thus decreasing RIHR. These statements were confirmed by the assessment of pelvic angle in this study.

Besides pelvic instability, weakness of the hip muscles causes a leg alignment known as dynamic valgus.²¹21 Ford KR, Myer GD, Hewett TE. Valgus knee motion during landing in high school female and male basketball players. Med Sci Sports Exerc. 2003;35(10):1745-50.^,²²22 Ford KR, Myer GD, Toms HE, Hewett TE. Gender differences in the kinematics of unanticipated cutting in young athletes. Med Sci Sports Exerc. 2005;37(1):124-9. This biomechanical and muscular mechanism may be strongly linked to the pathogenesis of PFPS.¹¹11 Petersen W, Ellermann A, Liebau C, Bru¨ggemann GP, Best R, Go¨sele-Koppenburg A, et al. Das patellofemorale schmerzsyndrom. Orthopa ¨dische Praxis. 2010;46(8):34-42.^,²³23 Hewett TE, Myer GD, Ford KR. Decrease in neuromuscular control about the knee with maturation in female athletes. J Bone Joint Surg Am. 2004;86(8):1601-8.^,²⁴24 Powers CM, Ward SR, Chen YJ, Chan LD, Terk MR. Effect of bracing on patellofemoral joint stress while ascending and descending stairs. Clin J Sport Med. 2004;14(4):206-14. This assessment pattern (dynamic valgus) was seen to have a strong influence on the pathogenesis of PFPS in our results (0.003).

To the best of our knowledge, no single assessment combining results related to the muscular forces around the knee and the biomechanical changes that corroborate with the etiology of PFPS can be found in the recent literature. Although we effectively evaluated 17 patients, a number that could represent bias in our results, this bias was minimized by the regularity and expressive statistical results of the evaluated parameters, and our study was strengthened by the selective exclusion method applied.

Understanding PFPS is absolutely essential in order to be able to treat this condition, and our results can guide future training efforts for treatment.

CONCLUSIONS

Patients with PFPS in this study demonstrated a reduction in SA, decrease in RIHR and reduction of RAD, and increase in pelvic tilt and dynamic valgus.

REFERENCES

¹
Boling M, Padua D, Marshall S, Guskiewicz K, Pyne S, Beutler A. Gender differences in the incidence and prevalence of patellofemoral pain syndrome. Scand J Med Sci Sports. 2010;20(5):725-30.
²
Robinson RL, Nee RJ. Analysis of hip strength in females seeking physical therapy treatment for unilateral patellofemoral pain syndrome. J Orthop Sports Phys Ther. 2007;37(5):232-8.
³
Fulkerson JP, Arendt EA. Anterior knee pain in females. Clin Orthop Relat Res. 2000;(372):69-73.
⁴
Grayson TH, editor. Disorders of the patellofemoral joint. 2nd ed. Baltimore: Williams & Wilkins; 1990.
⁵
Reid DC. The myth, mystic and frustration of anterior knee pain. Clin J Sport Med. 1993;3:139-43.
⁶
Thomeé R, Renström P, Karlsson J, Grimby G. Patellofemoral pain syndrome in young women. II. Muscle function in patients and healthy controls. Scand J Med Sci Sports. 1995;5(4):245-51.
⁷
Antich TJ, Randall CC, Westbrook RA, Morrissey MC, Brewster CE. Evaluation of knee extensor mechanism disorders: clinical presentation of 1 12 patients. J Orthop Sports Phys Ther. 1986;8(5):248-54.
⁸
Møller BN, Krebs B, Tidemand-Dal C, Aaris K. Isometric contractions in the patellofemoral pain syndrome. An electromyographic study. Arch Orthop Trauma Surg. 1986;105(1):24-7.
⁹
Weinstabl R, Scharf W, Firbas W. The extensor apparatus of the knee joint and its peripheral vasti: anatomic investigation and clinical relevance. Surg Radiol Anat. 1989;11(1):17-22.
¹⁰
Cerny K. Vastus medialis oblique/vastus lateralis muscle activity ratios for selected exercises in persons with and without patellofemoral pain syndrome. Phys Ther. 1995;75(8):672-83.
¹¹
Petersen W, Ellermann A, Liebau C, Bru¨ggemann GP, Best R, Go¨sele-Koppenburg A, et al. Das patellofemorale schmerzsyndrom. Orthopa ¨dische Praxis. 2010;46(8):34-42.
¹²
Insall J. Current concepts review: patellar pain. J Bone Joint Surg Am. 1982;64(1):147-52.
¹³
Ficat R, Hungerford D. Disorders of the patello-femoral joint. Baltimore: Williams & Wilkins, 1977.
¹⁴
Bentley G, Dowd G. Current concepts of etiology and treatment of chondromalacia patellae. Clin Orthop Relat Res. 1984;(189):209-28.
¹⁵
Kujala UM, Osterman K, Kvist M, Aalto T, Friberg O. Factors predisposing to patellar chondropathy and patellar apicitis in athletes. Int Orthop. 1986;10(3):195-200.
¹⁶
Baldon Rde M, 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(5):490-6.
¹⁷
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(1):12-8.
¹⁸
Brent JL, Myer GD, Ford KR, Hewett TE. A longitudinal examination of hip abduction strength in adolescent males and females. Med Sci Sports Exerc.2008;39(5):S290-S1.
¹⁹
Padua DA, Marshall SW, Beutler AI, Demaio M, Boden BP, Yu B, et al. Predictors of knee valgus angle during a jump-landing task. Med Sci Sports Exerc. 2005;37(5 Suppl.):398.
²⁰
Prins MR, van der Wurff P. Females with patellofemoral pain syndrome have weak hip muscles: a systematic review. Aust J Physiother. 2009;55(1):9-15.
²¹
Ford KR, Myer GD, Hewett TE. Valgus knee motion during landing in high school female and male basketball players. Med Sci Sports Exerc. 2003;35(10):1745-50.
²²
Ford KR, Myer GD, Toms HE, Hewett TE. Gender differences in the kinematics of unanticipated cutting in young athletes. Med Sci Sports Exerc. 2005;37(1):124-9.
²³
Hewett TE, Myer GD, Ford KR. Decrease in neuromuscular control about the knee with maturation in female athletes. J Bone Joint Surg Am. 2004;86(8):1601-8.
²⁴
Powers CM, Ward SR, Chen YJ, Chan LD, Terk MR. Effect of bracing on patellofemoral joint stress while ascending and descending stairs. Clin J Sport Med. 2004;14(4):206-14.

2
Work conducted at the Hospital Ortopédico e Medicina Especializada, Brasília, DF, Brasil and Centro de Ensino Unificado de Brasília, Brasília, DF, Brasil.

Publication Dates

Publication in this collection
Mar-Apr 2018

History

Received
30 Oct 2017
Accepted
31 Oct 2017

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

[1] ¹
Boling M, Padua D, Marshall S, Guskiewicz K, Pyne S, Beutler A. Gender differences in the incidence and prevalence of patellofemoral pain syndrome. Scand J Med Sci Sports. 2010;20(5):725-30.

[2] ²
Robinson RL, Nee RJ. Analysis of hip strength in females seeking physical therapy treatment for unilateral patellofemoral pain syndrome. J Orthop Sports Phys Ther. 2007;37(5):232-8.

[3] ³
Fulkerson JP, Arendt EA. Anterior knee pain in females. Clin Orthop Relat Res. 2000;(372):69-73.

[4] ⁴
Grayson TH, editor. Disorders of the patellofemoral joint. 2nd ed. Baltimore: Williams & Wilkins; 1990.

[5] ⁵
Reid DC. The myth, mystic and frustration of anterior knee pain. Clin J Sport Med. 1993;3:139-43.

[6] ⁶
Thomeé R, Renström P, Karlsson J, Grimby G. Patellofemoral pain syndrome in young women. II. Muscle function in patients and healthy controls. Scand J Med Sci Sports. 1995;5(4):245-51.

[7] ⁷
Antich TJ, Randall CC, Westbrook RA, Morrissey MC, Brewster CE. Evaluation of knee extensor mechanism disorders: clinical presentation of 1 12 patients. J Orthop Sports Phys Ther. 1986;8(5):248-54.

[8] ⁸
Møller BN, Krebs B, Tidemand-Dal C, Aaris K. Isometric contractions in the patellofemoral pain syndrome. An electromyographic study. Arch Orthop Trauma Surg. 1986;105(1):24-7.

[9] ⁹
Weinstabl R, Scharf W, Firbas W. The extensor apparatus of the knee joint and its peripheral vasti: anatomic investigation and clinical relevance. Surg Radiol Anat. 1989;11(1):17-22.

[10] ¹⁰
Cerny K. Vastus medialis oblique/vastus lateralis muscle activity ratios for selected exercises in persons with and without patellofemoral pain syndrome. Phys Ther. 1995;75(8):672-83.

[11] ¹¹
Petersen W, Ellermann A, Liebau C, Bru¨ggemann GP, Best R, Go¨sele-Koppenburg A, et al. Das patellofemorale schmerzsyndrom. Orthopa ¨dische Praxis. 2010;46(8):34-42.

[12] ¹²
Insall J. Current concepts review: patellar pain. J Bone Joint Surg Am. 1982;64(1):147-52.

[13] ¹³
Ficat R, Hungerford D. Disorders of the patello-femoral joint. Baltimore: Williams & Wilkins, 1977.

[14] ¹⁴
Bentley G, Dowd G. Current concepts of etiology and treatment of chondromalacia patellae. Clin Orthop Relat Res. 1984;(189):209-28.

[15] ¹⁵
Kujala UM, Osterman K, Kvist M, Aalto T, Friberg O. Factors predisposing to patellar chondropathy and patellar apicitis in athletes. Int Orthop. 1986;10(3):195-200.

[16] ¹⁶
Baldon Rde M, 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(5):490-6.

[17] ¹⁷
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(1):12-8.

[18] ¹⁸
Brent JL, Myer GD, Ford KR, Hewett TE. A longitudinal examination of hip abduction strength in adolescent males and females. Med Sci Sports Exerc.2008;39(5):S290-S1.

[19] ¹⁹
Padua DA, Marshall SW, Beutler AI, Demaio M, Boden BP, Yu B, et al. Predictors of knee valgus angle during a jump-landing task. Med Sci Sports Exerc. 2005;37(5 Suppl.):398.

[20] ²⁰
Prins MR, van der Wurff P. Females with patellofemoral pain syndrome have weak hip muscles: a systematic review. Aust J Physiother. 2009;55(1):9-15.

[21] ²¹
Ford KR, Myer GD, Hewett TE. Valgus knee motion during landing in high school female and male basketball players. Med Sci Sports Exerc. 2003;35(10):1745-50.

[22] ²²
Ford KR, Myer GD, Toms HE, Hewett TE. Gender differences in the kinematics of unanticipated cutting in young athletes. Med Sci Sports Exerc. 2005;37(1):124-9.

[23] ²³
Hewett TE, Myer GD, Ford KR. Decrease in neuromuscular control about the knee with maturation in female athletes. J Bone Joint Surg Am. 2004;86(8):1601-8.

[24] ²⁴
Powers CM, Ward SR, Chen YJ, Chan LD, Terk MR. Effect of bracing on patellofemoral joint stress while ascending and descending stairs. Clin J Sport Med. 2004;14(4):206-14.

Difference between mean values for lower limbs.
	Contralateral side	Affected side	Sig***
RAD*	41.17	39.83	0.040
SA**	23.26	21.03	0.031

Relation between difference in the means between lower limbs and Kujala score.
	B*	Sig ****
Pelvic Drop	-2.544	0.010
Dynamic Valgus	*-1502	0.003
QS**	0.714	0.032
RIHR***	1.133	0.002

Brasil