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The Biomechanics of the Human Lower Extremity

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1 The Biomechanics of the Human Lower Extremity
Chapter 8 The Biomechanics of the Human Lower Extremity Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D. © 2012 The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin

2 Basic Biomechanics, 6th edition
Structure of the Hip What is the hip joint? a ball and socket joint where the head of the femur articulates with the concave acetabulum a more stable joint than the shoulder because of bone structure and the number and strength of the muscles and ligaments crossing the joint Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

3 Ischiofemoral ligament
Structure of the Hip Iliofemoral (Y) ligament Pubofemoral ligament Femur Ischium Anterior view Iliofemoral ligament Ischiofemoral ligament Posterior view The integrity of the hip is enhanced by the strong ligaments crossing the joint. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

4 Basic Biomechanics, 6th edition
Structure of the Hip Femoral head Femur Acetabulum Ilium Sacrum Pubis Ischium The pelvic girdle includes the two ilia and the sacrum. It can be rotated forward, backward, and laterally to optimize positioning of the hip. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

5 Basic Biomechanics, 6th edition
Movements at the Hip What movements of the femur are facilitated by pelvic tilt? Pelvic tilt direction Femoral movement posterior flexion anterior extension lateral (to opposite abduction side) Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

6 Basic Biomechanics, 6th edition
Movements at the Hip Flexor muscles at the hip are iliacus and psoas major, assisted by pectineus, rectus femoris, sartorius, and tensor fascia latae. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

7 Basic Biomechanics, 6th edition
Movements at the Hip Extensor muscles at the hip are gluteus maximus and the hamstrings: biceps femoris, semimembranosus, and semitendinosus. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

8 Basic Biomechanics, 6th edition
Movements at the Hip The abductor muscle at the hip is the gluteus medius, assisted by gulteus minimus. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

9 Basic Biomechanics, 6th edition
Movements at the Hip The adductor muscles at the hip are adductor magnus, adductor longus, and adductor brevis, assisted by gracilis. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

10 Basic Biomechanics, 6th edition
Structure of the Knee What is the tibiofemoral joint? dual condyloid articulations between the medial and lateral condyles of the tibia and the femur; composing the main hinge joint of the knee considered to be the knee joint Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

11 Bony structure of the tibiofemoral joint.
Structure of the Knee Patella Tibia Fibula Femur Bony structure of the tibiofemoral joint. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

12 Basic Biomechanics, 6th edition
Structure of the Knee What is the patellofemoral joint? articulation between the patella and the femur (the patella improves the mechanical advantage of the knee extensors by as much as 50%) Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

13 Basic Biomechanics, 6th edition
Structure of the Knee What are the menisci? cartilaginous discs located between the tibial and femoral condyles structures that distribute the load at the knee over a large surface area and also help absorb shock Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

14 Posterior cruciate ligament Anterior cruciate ligament
Structure of the Knee Lateral meniscus Posterior cruciate ligament Transverse ligament Anterior cruciate ligament Medial meniscus Superior view The menisci of the knee. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

15 Basic Biomechanics, 6th edition
Structure of the Knee What major ligaments cross the knee? collateral ligaments - cross the medial and lateral aspects of the knee cruciate ligaments - cross each other in connecting the anterior and posterior aspects of the knee Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

16 Basic Biomechanics, 6th edition
Movements at the Knee The popliteus “unlocks” the fully extended knee by laterally rotating the femur with respect to the tibia to allow flexion to proceed. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

17 Basic Biomechanics, 6th edition
Movements at the Knee What muscles contribute to flexion at the knee? hamstrings assisted by: gracilis sartorius popliteus gastrocnemius Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

18 Basic Biomechanics, 6th edition
Structure of the Ankle What is the tibiotalar joint? hinge joint where the convex surface of the superior talus articulates with the concave surface of the distal tibia considered to be the ankle joint Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

19 Basic Biomechanics, 6th edition
Structure of the Ankle What is the distal tibiofibular joint? (a syndesmosis where dense, fibrous tissue binds the distal tibia and fibula together) Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

20 The bony structure of the ankle.
Fibula Tibia Talus Calcaneus Posterior view The bony structure of the ankle. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

21 Basic Biomechanics, 6th edition
Movements at the Ankle Dorsiflexors at the ankle include tibialis anterior, extensor digitorum longus, and peroneus tertius, assisted by extensor hallucis longus. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

22 Basic Biomechanics, 6th edition
Movements at the Ankle Plantar flexors at the ankle are gastrocnemius and soleus, assisted by tibialis posterior, plantaris, peroneus longus, flexor hallucis longus, peroneus brevis, and flexor digitorum longus. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

23 Basic Biomechanics, 6th edition
Structure of the Foot What is the subtalar joint? (the anterior and posterior facets of the talus articulate with the sustencalculum tali on the superior calcaneus) Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

24 Basic Biomechanics, 6th edition
Structure of the Foot What are the tarsometatarsal and intermetatarsal joints? nonaxial joints that permit only gliding movements enable the foot to function as a semirigid unit and to adapt flexibly to uneven surfaces during weight bearing Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

25 Basic Biomechanics, 6th edition
Structure of the Foot What are the metatarsophalangeal and interphalangeal joints? condyloid and hinge joints, respectively the toes function to smooth the weight shift to the opposite foot during walking and help maintain stability during weight bearing by pressing against the ground when necessary Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

26 Basic Biomechanics, 6th edition
Structure of the Foot What are the plantar arches? the medial and lateral longitudinal arches stretch form the calcaneus to the metatarsals and tarsals the transverse arch is formed by the bases of the metatarsal bones Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

27 Basic Biomechanics, 6th edition
Structure of the Foot What are the plantar fascia? thick bands of fascia that cover the plantar aspects of the foot During weight bearing, mechanical energy is stored in the stretched ligaments, tendons, and plantar fascia of the foot. This energy is released to assist with push-off of the foot from the surface. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

28 Basic Biomechanics, 6th edition
Structure of the Foot Lateral view Plantar view Plantar fascia The plantar fascia. Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

29 Basic Biomechanics, 6th edition
Movements of the Foot What muscles are responsible for toe flexion and extension? flexion - flexor digitorum longus, flexor digitorum brevis, quadratus plantae, lumbricals, interossei extension - extensor hallucis longus, extensor digitorum longus, extensor digitorum brevis Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.

30 Basic Biomechanics, 6th edition
Movements of the Foot What muscles are responsible for inversion and eversion? inversion - tibialis posterior, tibialis anterior eversion - peroneus longus, peroneus brevis, assisted by peroneus tertius Basic Biomechanics, 6th edition By Susan J. Hall, Ph.D.


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