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.
The Gait Cycle:
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
Walking – The Stance Phase
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
Walking – The Swing Phase
GRF while walking
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)
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
Running – A Gait Cycle
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
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) –Kinematic analysis –Videotaping, semi-automated imaging (Slides 20 & 21) –Combined kinematic and kinetic (Slides 19 & 20)
Sample gait checklist
Analysis aids: Pressure on bottom of feet
Force Plates – Measurement of ground reaction forces
Optoelectric system - Vicon
Vicon System:
Gait changes with normal ageing Generally, they try to improve stability by the following adjustments: Shorter step and stride lengths lower walking speeds greater variation in stride width wider base of support
Gait in children base is wider until 4 yrs no heel strike until 2 yrs - contact is made with a flat foot stride length and velocity is less cadence is greater reduced knee flexion in stance phase until 2 yrs of age no reciprocal arm swing until 4 yrs adult stride length, velocity & cadence are obtained around 15 yrs of age
Scientific Method of Problem Solving Develop (define and delimit) the problem Formulate the general hypothesis: –Overload training improves strength –(e.g., 3 sets of bp 3 d/w will improve bp strength) Formulate the specific hypothesis: –If A (general) is true, then B (specific) will be true –(e.g., if the general hyp is true, then posttest > pretest) Gather, analyze, and interpret the data –If B is true (significant difference), what about A? –If B is not true (no sig diff), what about A? Discuss the results –Is B without A very unlikely, or are there alternative explanations?
COMPUTER SEARCH PROCEDURES Literature Search –Go to KSU home page: –Double click on “KSU Libraries” –Click on “databases” –Scroll down and click on “Pub Med” and/or “Sport Discus” –Begin literature search by typing the term(s) that pertain to your topic of interest in the search box. Double click on “search” Journal Location –Return to the libraries home page –Click on “catalogs” and click on “go” –Click on “author/title/subject” –Click on journal title –Type in the journal title and click on “search” – Click on the journal description that best matches what you are looking for –Scroll down to see if the journal is located in either Hale or Trotter library