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Computer Methods in Biomechanics and Biomedical Engineering Volume 22, 2019 - Issue 2
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Articles

Patellofemoral cartilage stresses are most sensitive to variations in vastus medialis muscle forces

Saikat PalDepartment of Biomedical Engineering, New Jersey Institute of Technology, Newark, NJ, USA; Correspondence[email protected]
,
Thor F. BesierAuckland Bioengineering Institute & Department of Engineering Science, University of Auckland, Auckland, New Zealand;
,
Garry E. GoldDepartment of Bioengineering, Stanford University, Stanford, CA, USA; ;Department of Radiology, Stanford University, Stanford, CA, USA; ;Department of Orthopaedic Surgery, Stanford University, Stanford, CA, USA;
,
Michael FredericsonDepartment of Orthopaedic Surgery, Stanford University, Stanford, CA, USA;
,
Scott L. DelpDepartment of Bioengineering, Stanford University, Stanford, CA, USA; ;Department of Orthopaedic Surgery, Stanford University, Stanford, CA, USA; ;Mechanical Engineering Department, Stanford University, Stanford, CA, USA;
&
Gary S. BeaupreDepartment of Bioengineering, Stanford University, Stanford, CA, USA; ;Musculoskeletal Research Laboratory, VA Palo Alto Health Care System, Palo Alto, CA, USAORCID Iconhttp://orcid.org/0000-0002-6211-7621
ORCID Icon
Pages 206-216 | Received 19 Jul 2018, Accepted 01 Nov 2018, Published online: 31 Dec 2018

References

  • Amis AA, Firer P, Mountney J, Senavongse W, Thomas NP. 2003. Anatomy and biomechanics of the medial patellofemoral ligament. Knee. 10(3):215–220.
  • Beaupre GS, Orr TE, Carter DR. 1990. An approach for time-dependent bone modeling and remodeling-theoretical development. J Orthop Res. 8:651–661.
  • Beaupre GS, Stevens SS, Carter DR. 2000. Mechanobiology in the development, maintenance, and degeneration of articular cartilage. J Rehabil Res Dev. 37(2):145–151.
  • Benjafield AJ, Killingback A, Robertson CJ, Adds PJ. 2015. An investigation into the architecture of the vastus medialis oblique muscle in athletic and sedentary individuals: an in vivo ultrasound study. Clin Anat. 28(2):262–268.
  • Bennell K, Duncan M, Cowan S. 2006. Effect of patellar taping on vasti onset timing, knee kinematics, and kinetics in asymptomatic individuals with a delayed onset of vastus medialis oblique. J Orthop Res. 24(9):1854–1860.
  • Bennell K, Duncan M, Cowan S, McConnell J, Hodges P, Crossley K. 2010. Effects of vastus medialis oblique retraining versus general quadriceps strengthening on vasti onset. Med Sci Sports Exerc. 42(5):856–864.
  • Besier TF, Fredericson M, Gold GE, Beaupre GS, Delp SL. 2009. Knee muscle forces during walking and running in patellofemoral pain patients and pain-free controls. J Biomech. 42(7):898–905.
  • Besier TF, Pal S, Draper CE, Fredericson M, Gold GE, Delp SL, Beaupre GS. 2015. The role of cartilage stress in patellofemoral pain. Med Sci Sports Exerc. 47(11):2416–2422.
  • Bolgla LA, Malone TR, Umberger BR, Uhl TL. 2008. Hip strength and hip and knee kinematics during stair descent in females with and without patellofemoral pain syndrome. J Orthop Sports Phys Ther. 38(1):12–18.
  • Brechter JH, Powers CM. 2002. Patellofemoral joint stress during stair ascent and descent in persons with and without patellofemoral pain. Gait Posture. 16(2):115–123.
  • Carter DR, Beaupre GS. 2001. Skeletal function and form: mechanobiology of skeletal development, aging, and regeneration. New York: Cambridge University Press.
  • Cavazzuti L, Merlo A, Orlandi F, Campanini I. 2010. Delayed onset of electromyographic activity of vastus medialis obliquus relative to vastus lateralis in subjects with patellofemoral pain syndrome. Gait Posture. 32(3):290–295.
  • Chen HY, Chien CC, Wu SK, Liau JJ, Jan MH. 2012. Electromechanical delay of the vastus medialis obliquus and vastus lateralis in individuals with patellofemoral pain syndrome. J Orthop Sports Phys Ther. 42(9):791–796.
  • Cowan SM, Bennell KL, Hodges PW. 2002. Therapeutic patellar taping changes the timing of vasti muscle activation in people with patellofemoral pain syndrome. Clin J Sport Med. 12(6):339–347.
  • Cowan SM, Bennell KL, Hodges PW, Crossley KM, McConnell J. 2001. Delayed onset of electromyographic activity of vastus medialis obliquus relative to vastus lateralis in subjects with patellofemoral pain syndrome. Arch Phys Med Rehabil. 82(2):183–189.
  • Cowan SM, Crossley KM, Bennell KL. 2009. Altered hip and trunk muscle function in individuals with patellofemoral pain. Br J Sports Med. 43(8):584–588.
  • Crowninshield RD, Brand RA. 1981. A physiologically based criterion of muscle force prediction in locomotion. J Biomech. 14(11):793–801.
  • Davies AP, Costa ML, Shepstone L, Glasgow MM, Donell S, Donnell ST. 2000. The sulcus angle and malalignment of the extensor mechanism of the knee. J Bone Joint Surg Br. 82(8):1162–1166.
  • Devereaux MD, Lachmann SM. 1984. Patello-femoral arthralgia in athletes attending a Sports Injury Clinic. Br J Sports Med. 18(1):18–21.
  • Donahue TL, Hull ML, Rashid MM, Jacobs CR. 2002. A finite element model of the human knee joint for the study of tibio-femoral contact. J Biomech Eng. 124(3):273–280.
  • Draper CE, Besier TF, Fredericson M, Santos JM, Beaupre GS, Delp SL, Gold GE. 2011. Differences in patellofemoral kinematics between weight-bearing and non-weight-bearing conditions in patients with patellofemoral pain. J Orthop Res. 29(3):312–317.
  • Draper CE, Besier TF, Santos JM, Jennings F, Fredericson M, Gold GE, Beaupre GS, Delp SL. 2009. Using real-time MRI to quantify altered joint kinematics in subjects with patellofemoral pain and to evaluate the effects of a patellar brace or sleeve on joint motion. J Orthop Res. 27(5):571–577.
  • Duffey MJ, Martin DF, Cannon DW, Craven T, Messier SP. 2000. Etiologic factors associated with anterior knee pain in distance runners. Med Sci Sports Exerc. 32(11):1825–1832.
  • Elias JJ, Cech JA, Weinstein DM, Cosgrea AJ. 2004. Reducing the lateral force acting on the patella does not consistently decrease patellofemoral pressures. Am J Sports Med. 32(5):1202–1208.
  • Farrokhi S, Keyak JH, Powers CM. 2011. Individuals with patellofemoral pain exhibit greater patellofemoral joint stress: a finite element analysis study. Osteoarthritis Cartilage. 19(3):287–294.
  • Fulkerson JP. 2002. Diagnosis and treatment of patients with patellofemoral pain. Am J Sports Med. 30(3):447–456.
  • Fulkerson JP, Shea KP. 1990. Mechanical basis for patellofemoral pain and cartilage breakdown. Articular cartilage and knee joint function: basic science and arthroscopy. J. W. Ewing, editor. New York, Raven Press; p. 93–101.
  • Grabiner MD, Koh TJ, Draganich LF. 1994. Neuromechanics of the patellofemoral joint. Med Sci Sports Exerc. 26(1):10–21.
  • Haldar A, Mahadevan S. 2000. Probability, reliability and statistical methods in engineering design. New York, NY: John Wiley & Sons, Inc.
  • Higginson GR, Snaith JE. 1979. The mechanical stiffness of articular cartilage in confined oscillating compression. Eng Med. 8(1):11–14.
  • Hug F, Hodges PW, Tucker K. 2015. Muscle force cannot be directly inferred from muscle activation: illustrated by the proposed imbalance of force between the vastus medialis and vastus lateralis in people with patellofemoral pain. J Orthop Sports Phys Ther. 45(5):360–365.
  • Kadaba MP, Ramakrishnan HK, Wootten ME. 1990. Measurement of lower extremity kinematics during level walking. J Orthop Res. 8(3):383–392.
  • Karst GM, Willett GM. 1995. Onset timing of electromyographic activity in the vastus medialis oblique and vastus lateralis muscles in subjects with and without patellofemoral pain syndrome. Phys Ther. 75(9):813–823.
  • Keenan KE, Pal S, Lindsey DP, Besier TF, Beaupre GS. 2013. A viscoelastic constitutive model can accurately represent entire creep indentation tests of human patella cartilage. J Appl Biomech. 29(3):292–302.
  • Kujala UM, Jaakkola LH, Koskinen SK, Taimela S, Hurme M, Nelimarkka O. 1993. Scoring of patellofemoral disorders. Arthroscopy. 9(2):159–163.
  • Levinger P, Gilleard W. 2007. Tibia and rearfoot motion and ground reaction forces in subjects with patellofemoral pain syndrome during walking. Gait Posture. 25(1):2–8.
  • Li G, Lopez O, Rubash H. 2001. Variability of a three-dimensional finite element model constructed using magnetic resonance images of a knee for joint contact stress analysis. J Biomech Eng. 123(4):341–346.
  • Lloyd DG, Besier TF. 2003. An EMG-driven musculoskeletal model to estimate muscle forces and knee joint moments in vivo. J Biomech. 36(6):765–776.
  • McClay I, Manal K. 1998. A comparison of three-dimensional lower extremity kinematics during running between excessive pronators and normals. Clin Biomech. 13(3):195–203.
  • Ng GY, Zhang AQ, Li CK. 2008. Biofeedback exercise improved the EMG activity ratio of the medial and lateral vasti muscles in subjects with patellofemoral pain syndrome. J Electromyogr Kinesiol. 18(1):128–133.
  • Pal S, Besier TF, Beaupre GS, Fredericson M, Delp SL, Gold GE. 2013. Patellar maltracking is prevalent among patellofemoral pain subjects with patella alta: an upright, weightbearing MRI study. J Orthop Res. 31(3):448–457.
  • Pal S, Besier TF, Draper CE, Fredericson M, Gold GE, Beaupre GS, Delp SL. 2012. Patellar tilt correlates with vastus lateralis: vastus medialis activation ratio in maltracking patellofemoral pain patients. J Orthop Res. 30(6):927–933.
  • Pal S, Draper CE, Fredericson M, Gold GE, Delp SL, Beaupre GS, Besier TF. 2011. Patellar maltracking correlates with vastus medialis activation delay in patellofemoral pain patients. Am J Sports Med. 39(3):590–598.
  • Pal S, Haider H, Laz PJ, Knight LA, Rullkoetter PJ. 2008. Probabilistic computational modeling of total knee replacement wear. Wear. 264(7–8):701–707.
  • Pal S, Langenderfer JE, Stowe JQ, Laz PJ, Petrella AJ, Rullkoetter PJ. 2007. Probabilistic modeling of knee muscle moment arms: effects of methods, origin-insertion, and kinematic variability. Ann Biomed Eng. 35(9):1632–1642.
  • Powers CM. 2000. Patellar kinematics, part I: the influence of vastus muscle activity in subjects with and without patellofemoral pain. Phys Ther. 80:956–964.
  • Reeves ND, Maganaris CN, Narici MV. 2003. Effect of strength training on human patella tendon mechanical properties of older individuals. J Physiol. 548(3):971–981.
  • Souza DR, Gross MT. 1991. Comparison of vastus medialis obliquus: vastus lateralis muscle integrated electromyographic ratios between healthy subjects and patients with patellofemoral pain. Phys Ther. 71(4):310–316.
  • Souza RB, Powers CM. 2009. Differences in hip kinematics, muscle strength, and muscle activation between subjects with and without patellofemoral pain. J Orthop Sports Phys Ther. 39(1):12–19.
  • Ward SR, Terk MR, Powers CM. 2007. Patella alta: association with patellofemoral alignment and changes in contact area during weight-bearing. J Bone Joint Surg Am. 89(8):1749–1755.
  • Wu YT, Millwater HR, Cruse TA. 1990. Advanced probabilistic structural-analysis method for implicit performance functions. AIAA J. 28(9):1663–1669.

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