Transcript Chapter 8
Chapter 8:
The Biomechanics of the
Upper Extremities
Basic Biomechanics, 4th edition
Susan J. Hall
Presentation Created by
TK Koesterer, Ph.D., ATC
Humboldt State University
Objectives
• Explain how anatomical structure affects movement
capabilities of lower extremity articulations.
• Identify factors influencing the relative mobility and
stability of lower extremity articulations.
• Explain the ways in which the lower extremity is
adapted to its weightbearing function.
• Identify muscles that are active during specific lower
extremity movements.
• Describe the biomechanical contributions to common
injuries of the lower extremity.
Structure of the Hip
• Anterior reinforcement from iliofemoral
ligament and pubofemoral ligament
• Posterior reinforcement from ischiofemoral
ligament.
• Iliopsoas Bursa
• Deep Trochanteric Bursa
• Femur major weightbearing bone
– Longest, largest and strongest in body.
Movements at the Hip
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Pelvic Girdle
Flexion
Extension
Abduction
Adduction
Medial and Lateral Rotation of Femur
Horizontal Abduction and Adduction
Loads on the Hip
• During swing phase of walking:
– Compression on hip approx. same as body
weight (due to muscle tension)
• Increases with hard-soled shoes
• Increases with gait increases (both support
and swing phase)
• Body weight, impact forces translated upward
thru skeleton from feet and muscle tension
contribute to compressive load on hip.
Common Injuries of the Hip
• Fractures
– Usually of femoral neck, a serious injury usually
occurring in elderly with osteoporosis
• Contusions
– Usually in anterior aspect of thigh, during contact
sports
• Strains
– Usually to hamstring during sprinting or
overstriding
Structure of the Knee
• A large synovial joint with three articulations
within joint capsule.
• Tibiofemoral Joint
• Menisci
• Ligaments: tibial and fibular collateral,
anterior and posterior cruciate, iliotibial band
• Patellofemoral Joint
• Joint Capsule and Bursae
Movements at the Knee
• Flexion and Extension
– Popliteus
– Quadriceps
• Rotation and Passive Abduction and
Adduction
• Patellofemoral Joint Motion
Loads on Knee
• Forces at tibiofemoral Joint
– Loaded with shear and compression forces
during daily activities.
– Medial tibial plateau
• Forces at Patellofemoral Joint
– With a squat, reaction force is 7.6 times
BW on this joint.
• Beneficial to rehab of cruciate ligament
or patellofemoral surgery
Common Injuries of the Knee
and Lower Leg
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ACL injuries
PCL injuries
MCL injuries
Prophylactic Knee Bracing
Meniscus Injuries
Iliotibial Band Friction Syndrome
Breaststroker’s Knee
Patellofemoral Pain Syndrome
Shin Splints
Structure of the Ankle
• Movements of the ankle:
– Dorsiflexion
• Tibialis anterior
• Extensor digitorum longus
• Peroneus tertius
– Plantar Flexion:
• Two heads of gastrocnemius
• Soleus
Structure of the Foot
• Subtalar Joint
• Tarsometatarsal and Intermetatarsal Joints
• Metatarsophalangeal and interphalangeal
Joints
• Plantar Arches
Muscles of the Foot
• Extrinsic muscles cross ankle
• Intrinsic muscles have both attachments
within the foot.
• Toe Flexion and Extension
• Inversion and Eversion
• Pronation and Supination
Loads on the Foot
• Structures of foot anatomically linked to
evenly distribute load over whole foot.
• 50% of BW distributed through subtalar joint
to calcaneous
– Remaining 50% transmitted across
metatarsal heads.
• Architecture of food affects loading
– Flat arch: reduced forefoot load
– High arch: increased forefoot load
Common Injuries of the Ankle
and Foot
• Ankle Sprains
– Inversion sprain much more common than
eversion sprains
• Overuse Injuries
– Tendonitis
– Excessive pronation
– Stress Fractures
Common Injuries of the Ankle
and Foot
• Alignment Anomalies of Foot:
– Varus
– Valgus
• Injuries Related to High and Low Arch
Structures
Summary
• Lower extremity well adapted to function of
weight bearing and locomotion
• The hip is a typical ball and socket joint
• The knee is a large, complex joint composed
of two side-by-side condyloid articulations
• The ankle includes articulations of the tibia
and fibula with the talus.
• Like the hand, the foot is composed of many
small bone their articulations