Presentation is loading. Please wait.

Presentation is loading. Please wait.

ESS 303 – Biomechanics Ankle and Foot. Tibiofibular Joint Similar to radioulnar joint Superior tibiofibular joint Middle tibiofibular joint (interosseus.

Published byKaylah Surls Modified over 9 years ago

Similar presentations

Presentation on theme: "ESS 303 – Biomechanics Ankle and Foot. Tibiofibular Joint Similar to radioulnar joint Superior tibiofibular joint Middle tibiofibular joint (interosseus."— Presentation transcript:

1 ESS 303 – Biomechanics Ankle and Foot

2

3

4 Tibiofibular Joint Similar to radioulnar joint Superior tibiofibular joint Middle tibiofibular joint (interosseus membrane) Inferior tibiofibular joint Rotational movements not called pronation or supination

5 Ankle Joint Distal tibia and fibula articulates with talus Hinge joint – sagital plane Flexion – dorsiflexion (about 20°) Extension – plantarflexion or volar flexion (30-50°) Some transverse plane (rotational) movement possible 7° medial, 10 ° lateral Some frontal plane (side-to-side tilt) movement possible ≈ 5 ° frontal talar tilt

6 Foot Positions Subtalar or talocalcaneal joint Inversion & eversion Pronation = ankle dorsiflexion + subtalar (calcaneal) eversion + forefoot abduction (external rotation) Supination = ankle plantarflexion + subtalar (calcaneal) inversion + forefoot adduction (internal rotation)

7 Foot Positions

8

9

10 Arches of the Foot

11

12 Arch Positions Normal High arch: Pes cavus Low arch (flat foot): Pes planus

13 Ankle Joint Stability Distal ends of tibia and fibula – like mortise (pinchers) of adjustable wrench Tibia is weight bearing Fibula is considered non-weight bearing – may hold up-to 10% of body weight Multiple ligaments

14 Ligaments and Sprains

15

16 Return to Activity Must have complete range of motion and at least 80-90% of pre-injury strength before return to sport If full practice is tolerated w/out insult, athlete can return to competition Must involve gradual progression of functional activities, slowly increasing stress on injured structure

17 Movements & Major Muscles Dorsiflexion: Tibialis anterior Plantar flexion: Gastrocnemius & soleus Inversion: Tibialis anterior, peroneus longus & peroneus brevis Eversion: Peroneus tertius

18 Biomechanics of Gate Stance phase (60-65%) Heel contact (heel strike or initial contact) Foot flat (loading response) Mid stance Heel off (terminal stance) Toe off Swing phase (35-40%) Toe off (acceleration or initial swing) Mid swing Heel contact (deceleration or terminal swing)

19

20 Single Limb Weight Bearing Pelvis forms a 1st class lever Hip is fulcrum, resistance force is body weight, effort force is from abductors and adductors Body is drawn over supporting leg by adductor muscles Hip abductors of the support leg prevent the pelvis from dropping on the opposite (unsupported) side

21

22 Knee Joint and Gate

23 Chimpanzee: medial and lateral condyle similar Human: medial condyle larger than lateral condyle – allows COM to shift over foot

24 Disadvantages Loss of speed Loss of agility Advantages Carry food Carry tools Increased ability to nurture/protect offspring Enable to give birth more often Advantages/disadvantages to Bipedal Locomotion

Download ppt "ESS 303 – Biomechanics Ankle and Foot. Tibiofibular Joint Similar to radioulnar joint Superior tibiofibular joint Middle tibiofibular joint (interosseus."

Similar presentations

Basic Biomechanics, (5th edition) by Susan J. Hall, Ph.D.

Basic Biomechanics, (5th edition) by Susan J. Hall, Ph.D.
Chapter 18 Review The Ankle and Lower Leg.

Chapter 18 Review The Ankle and Lower Leg.
Special Tests For the Lower Leg and Ankle

Special Tests For the Lower Leg and Ankle
Lower Limb Skeleton (homologous with upper limb)

Lower Limb Skeleton (homologous with upper limb)
Ankle Injury Management

Ankle Injury Management
Anatomy and evaluation of the ankle Robert DeJohn Jr, MS, ATC Head Athletic Trainer Pioneer High School.

Anatomy and evaluation of the ankle Robert DeJohn Jr, MS, ATC Head Athletic Trainer Pioneer High School.
Anatomy of Ankle and Foot. Overview Bones of Ankle and Foot Functions Blood Vessels and Nerves Parts of the Foot Arches of the Foot Joints Tendons and.

Anatomy of Ankle and Foot. Overview Bones of Ankle and Foot Functions Blood Vessels and Nerves Parts of the Foot Arches of the Foot Joints Tendons and.
The Ankle and Foot Joints

The Ankle and Foot Joints
Ankle Joint It consists of a deep socket formed by the lower end of the tibia & fibula , into which is fitted the upper part of the body of the talus .

Ankle Joint It consists of a deep socket formed by the lower end of the tibia & fibula , into which is fitted the upper part of the body of the talus .
Biomechanical Examination Parameters

Biomechanical Examination Parameters
Lower Leg, Ankle, and Foot Conditions Chapter 16.

Lower Leg, Ankle, and Foot Conditions Chapter 16.
Foot and Ankle Rance L. McClain, D.O., FACOFP Associate Professor – FM Dept. KCUMB-COM.

Foot and Ankle Rance L. McClain, D.O., FACOFP Associate Professor – FM Dept. KCUMB-COM.
Ambulation and Ambulation Aids

Ambulation and Ambulation Aids
Phases of the Gait Cycle And Determinants of Gait

Phases of the Gait Cycle And Determinants of Gait
THE FOOT Chapter 18. Introduction The traditional sports activities in which athletes compete at the high school, college and professional level all involve.

THE FOOT Chapter 18. Introduction The traditional sports activities in which athletes compete at the high school, college and professional level all involve.
Foot and Ankle Andrea, Colten, Jessica, Tyne. Surface Anatomy.

Foot and Ankle Andrea, Colten, Jessica, Tyne. Surface Anatomy.
Progression: The basic objective of the locomotor system is to move the body forward from the current site to a new location so the hands and head can.

Progression: The basic objective of the locomotor system is to move the body forward from the current site to a new location so the hands and head can.
The Ankle and Foot Joints

The Ankle and Foot Joints
The Ankle.

The Ankle.
The Ankle and Foot Joints. Function of the foot Provide a stable platform Generate propulsion Absorb shock.

The Ankle and Foot Joints. Function of the foot Provide a stable platform Generate propulsion Absorb shock.

Similar presentations

Ads by Google