1 Gait Analysis – Objectives To learn and understand: –The general descriptive and temporal elements of the normal walking movement –The important features.

Slides:

Advertisements

Similar presentations

Keys to getting FASTER To improve one’s speed an athlete must obtain proper technique and form, while balancing workouts with proper rest. Warm-up Frontside.

Advertisements

KINETIC ANALYSIS OF GAIT INITIATION D. Gordon E. Robertson, PhD, FCSB 1 Richard Smith, PhD 2 Nick ODwyer, PhD 2 1 Biomechanics Laboratory, School of Human.

Development of Human Locomotion

Prepared by: MUHAMMAD IBRAHIM KHAN BS.PT(Pak), MS.PT(Pak), NCC(AKUH)

Biomechanical Examination Parameters

UNDERSTANDING NORMAL & PATHOLOGICAL GAIT

ASSESSMENT CHAPTER 6. Physical assessment PHYSIOTHERAPY ASSESSMENT session CHAPTER 6 PART

Renee Kitto Port Macquarie Base Hospital

Anatomical Society is a registered Charity No: and Limited Company Registered in England and Wales No: | Registered.

Biomechanics of Locomotion D. Gordon E. Robertson, PhD, FCSB Biomechanics, Laboratory, School of Human Kinetics, University of Ottawa, Ottawa, Canada D.

Ambulation and Ambulation Aids

Phases of the Gait Cycle And Determinants of Gait

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

Human Locomotion Focus on Walking Taylor Murphy HSS 537.

CHAPTER 18:PART 1 LOCOMOTION: SOLID SURFACE

Walking Analysis … the process A gait cycle consists of “the activities that occur from the point of initial contact of one lower extremity to the point.

Stair Gait Lecture Notes.

Kinesiology Laboratory 8

Thornbers Podiatry “Promoting optimum health and performance”

This is a sequence shot of a home run by Albert Pujols off Roy Oswalt of Houston in the 2005 NLCS, both side and front views. You can start it by pressing.

Foot and Ankle Andrea, Colten, Jessica, Tyne. Surface Anatomy.

Biomechanics- Gait.

By Jeff C. Conforti, DPT.  To understand the basic elements of posture and gait  To learn the phases of gait  To learn the key muscles and their function.

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.

KINETIC ANALYSIS OF GAIT INITIATION D. Gordon E. Robertson, PhD, FCSB 1 Richard Smith, PhD 2 Nick O’Dwyer, PhD 2 1 Biomechanics Laboratory, School of Human.

Gait Analysis Study of human locomotion Walking and running

Analysis of a continuous skill – walking and running (gait)

Biomechanics of Gait Walking

Determinants of Gait Determinants of Gait.

Gait Analysis – Objectives

Gait Analysis – Objectives

Normal and Pathological Gait in the Elderly Peggy R. Trueblood, PhD, PT California State University, Fresno.

Development of Human Locomotion

Analysis of gait Analysis of gait.

Building a Better Runner.  Maximal Oxygen Consumption (VO 2 MAX )  Lactate threshold (LT)  Running speed  Running economy Performance Velocity Resistance.

Gait development in children. The prerequisite for Gait development Adequate motor control. C.N.S. maturation. Adequate R.O.M. Muscle strength. Appropriate.

BIPEDAL LOCOMOTION Prima Parte Antonio D'Angelo.

The Gait Cycle:.

Chapter 9 Evaluation of Gait. Introduction Gait Analysis – functional evaluation of a person’s walking or running style Systematic method of identifying.

Science Project Running and Running Shoes Micah Hinson.

Chapter 19: Locomotion: Solid Surface

KINESIOLOGY Energy Systems Anatomy Biomechanics “…….on your mark”

Kamonwan Kathipotjananun Toursim & hospitality. Running is a means for an animal to move on foot. It is defined in sporting terms as a gait in which at.

Block Starts Wendy Truvillion

ANKLE JOINT Bony arrangement = stability

Gait Analysis – Objectives

 Support Events  Foot (Heel) Strike  Foot Flat  Midstance  Heel Off  Foot (Toe) Off  Swing Events  Pre swing  Midswing  Terminal swing.

Gait (3) Sagittal Plane Analysis Lecture Notes. Example To Make Things Clear  If during gait knee flexion is necessary, & a flexion moment is acting.

1 Gait Analysis – Objectives To learn and understand: –The general descriptive and temporal elements of the normal walking movement –The important features.

Prosthetics & Orthotics 단국대학교 일반대학원 물리 · 작업치료전공 강권영.

Articulations of the Hip, Knee, and Ankle

Figure Figure Figure Figure

Muscle function during running and walking Forward dynamical simulations Split-belt treadmill with embedded force plates.

SCOLIOTIC CURVE CAN YOU NAME SOME MUSCLES THAT ARE OVERSTRETCHED?

Bare weight Provide a means for locomotion Maintain equilibrium

IC = Initial Contact LR = Loading Response MSt = Mid Stance

AN INTRODUCTION TO THE GAIT CYCLE Shayne Trinder DPodM, MChs, FCPodS

Keith E. Gordon, PhD, Daniel P. Ferris, PhD, Arthur D. Kuo, PhD

Melissa M. Scott-Pandorf, MS, Nicholas Stergiou, PhD, Jason M

Panagiotis Koutakis, BS, Jason M. Johanning, MD, Gleb R

Energy expenditure and gait characteristics of a bilateral amputee walking with C-leg prostheses compared with stubby and conventional articulating prostheses

Presentation transcript:

1 Gait Analysis – Objectives To learn and understand: –The general descriptive and temporal elements of the normal walking movement –The important features and components of both the swing and stance phases of the gait cycle –The joint range of motion and muscle activity during walking –The differences between movement patterns, muscle activity, range of motion, and forces of walking and running –The clinical methods of studying gait –Gait changes with normal ageing

2 Gait Analysis – Overview Source: – Jones, K. & Barker, K. (1996) Human Movement Explained, pp (on reserve) Clinical uses of gait analysis The gait cycle Range of motion at the joints in walking Running analysis –Muscle activity Clinical methods of gait analysis Gait changes with age and disease

3 Clinical uses of gait analysis Assesses the degree and extent of departure from the norm Documents changes due to therapeutic interventions Evaluates results of rehab (improvement)

4 Walking Analysis (Human Gait) Human gait provides a method of locomotion. As a species, we are “bipedal” meaning we move on two extremities. Walking, while usually taken for granted by most of us, is an extremely complex movement.

5 The gait cycle Distance and temporal factors in gait (Fig 15.1) –Foot angle, step length, stride length, step width The gait cycle (Fig 15.2) –Stance phase (60 %) –double support phase (20%) –swing phase (40%)

6 Walking Analysis … the process A gait cycle consists of “the activities that occur from the point of initial contact of one lower extremity to the point at which the same extremity contacts the ground again” During one gait cycle, each extremity passes through two phases, a single stance phase and a single swing phase.

7 The Gait Cycle:

8 Walking – The Stance Phase

9 Components of the Stance Phase Stance phase comprises 60% of the gait cycle Heel strike – moment when the heel first strikes the ground Foot flat – from heel strike to when the full foot is in contact with the ground Midstance – body weight is directly over the stance leg Heel off – moment the heel of the stance leg leaves the ground Toe off – when only the toe of the stance leg is in contact with the ground

10 Walking – The Swing Phase

11 Components of the Swing Phase Swing phase comprises 40% of the gait cycle Acceleration – the toe of the stance leg leaves the ground and begins to swing forward Midswing – the swinging leg is directly beneath the body Deceleration – the swinging leg continues forward towards knee extension but is slowing down as it travels, stopping just prior to full knee extension and heel contact with the ground

12

13 Range of motion at the joints Trunk - As left leg moves forward, pelvis rotates clockwise as viewed from above 7 deg Hip Joint (30 deg flex at HS strike, 180 deg at TO) –Stance - extension, adduction, internal rotation –Swing - flexion/extension, abduction, ext rotation Knee joint deg at HS, 160 deg at mid-stance Ankle joint - Neutral at HS, hinges down during support, and plantar flexes at TO. ROM 30 deg COM displacement +5 cm bilaterally and vertically (Fig 15.3)

14 Running Analysis…... Running is similar to walking BUT, it differs significantly in a number of ways, for example: No period of “double support” Float periods (both feet airborne) Requires greater balance Requires greater strength Requires greater ROM at hip, knee, and ankle joints Involves greater excursion of center of mass Involves greater ground reaction forces

15 Running – A Gait Cycle

16 Muscle Activity in Running... Glut. Max. & med. -- active at the beginning of the stance phase (concentrically) and again at the end of the swing phase (eccentrically). Iliopsoas -- active during a portion of the swing phase (concentrically). Quadriceps -- 1st 10% of the stance phase (eccentrically) and last 20% of the swing phase (concentrically). Hamstrings -- initial portion of the swing phase (concentric) and at the end of the swing phase (eccentric). Plantar flexors (gastrocnemius & soleus) – Mid and latter part of stance phase

17 Clinical Methods of Studying Gait Observational techniques (use checklist, and videotape when possible)(Slide 17) Quantitative analysis –time-distance measurements (stop watch, footswitches) (Slide 18) –Kinetic techniques (Slide 19 & 20) –Kinematic analysis –Videotaping, semi-automated imaging (Slide 21) –Combined kinematic and kinetic (Slides 20 & 21)

18 Sample gait checklist

19 Analysis aids: Timing of foot contact

20 Analysis aids: Pressure on bottom of feet

21 Force Plates – Measurement of ground reaction forces

22 Optoelectric system - Vicon

23 Gait changes with normal ageing Lower walking speeds Shorter step and stride lengths Reduced plantar flexor force production Reduced hip extension Increased double support time Greater variation in stride width Wider base of support