Gait

Question 1

What are the 2 main phases of gait?

Answer 1

1. stance phase
2. Swing phase

Question 2

What percentage of stance phase makes up the gait cycle? and what type of limb support occurs?

Answer 2

• 62% of gait cyle
• single OR double limb support

Question 3

What are the sub phases of stance and swing?

Answer 3

Stance:
- initial contact
- loading response
- midstance
- terminal stance
- pre-swing

Swing:
- initial swing
- midswing
- terminal swing

Question 4

What occurs duing initial contact?

Answer 4

• 0-2% of gait
• begins as soon as heel touches down
• Glut max contracts to control hips (very important bc it helps maintain hip and torso)
• dorsiflexion contracts eccentrically (lengthens)

Question 5

What occurs duing loading response?

Answer 5

• begins after IC and ends with end of double limb support
• 2-12% of gait
• body weight is trasported onto supporting limb
• Dorsifelxors contract eccentrically
• Quadraceps control knee flexion (stabilize knee)
• its purpose is to control the load being put through the limb

Question 6

What occurs in midstance?

Answer 6

• 12-31% of gait cycle
• From loading response to until ankles are aligned
• concentric contraction of hip and knee extension
• Looks like a SL stance
• Line of gravity straight through the supporting leg

Question 7

What occurs in Terminal Stance?

Answer 7

• 31-50% of gait cycle
• begins when heeel comes off the ground (to dorsiflex) and ends at double limb support
• COG gravity passes forward
• Toe flexes and plantar flexors contract to propel body forward
• Posterior tibilais is very active {plantar flexion and inversion helps to raise the arch to give us more leverage and power)

Question 8

What occurs duing pre-swing?

Answer 8

• 50-62% of gait cycle
• begins with initial contact of opposite side and ends with toe-off
• start of double limb support
• hip flexors drive leg forward

Question 9

What occurs during the swing phase of “initial swing”? Bonus what is another name for this phase?

Answer 9

• also called acceleration
• 62-75% of gait cycle
• starts with single limb support and ends at point of maximal knee flexion
• hip flexors contract concentrically

Question 10

What occurs during the swing phase “midswing”?

Answer 10

• 75-87% of gait cycle
• max knee flexion to the point where the tibia is vertical
• dorsiflexion (concentrically) ensures foot clearance

Question 11

What occurs duing the swing phase “terminal swing”?

Answer 11

• 87-100% of gait cycle
• begins when the tibia is vertical and ends just before initial contact
• hamstrings contract eccentrically to decelerate the hip and knee

Question 12

What are the ROM requirments for normal gait? (foot+ankle, knee, hips, pelvis)

Answer 12

Foot and ankle
- DF: 15
- PF: 20

**Knee: very important **
- full extension
- 60 flexion

Hip:
- 30 hip flexion (need very little)

Pelvis:
- needs to rotate and lift (lengthens leg and opens up the stride)

Question 13

How is running gait different than walking gait?

Answer 13

• gain a floating period
• lose double limb support
• decrease contact time
• increase GRF up to 8x bw
• increase knee flexion duing stance phase (allows for increased push-off and absorbtion of force)
• incerase pronation
• loading pattern differences to help transfer more force

Question 14

What are the phases of running?

Answer 14

• initial contact
• midstance
• take-off
• initial swing (2 legs in swing simulatnously {floating})
• midswing
• terminal swing

Question 15

How do you analyze gait?

Answer 15

• start with postural evaluation
• observe from all sides (ant, post, lat)
• first get big picture (composite) analysis, then break down components into more detail (what is ankle/knee doing ect)
• use a form like the rancho los amigos

Question 16

What are important aspects to include when analyzing gait?

Answer 16

• step (1foot) and stride length (both feet)
• step width
• cadence: temp of gait (av = 110 step/min)
• duration of stance and swing phases (stance is 60% and swing is 40%)
• symmetry and fluidity of gait

Question 16

What is typical weight transmission pattern and what can change this pattern?

Answer 16

• central heel strike, lateral roll-off, and toe-off
  Factors that change it:
• foot type (pes planus vs cavus)
• Heels VS flats
• hip alignment, wide q angle, pain/injury

Question 16

Why is wear pattern important to look at on shoes?

Answer 16

_

Question 16

How to do personal step calculations?

Answer 16

personal steps p/mile
- 5280 steps length
- 5280/2.5 = 2112 steps/mile

converting
- # of steps taken/PSM (total miles walked)
- 13,000/2112 = 6.16 miles

Question 16

What is the practical application of difference between rate and length?

Answer 16

Slow to medium speed: increase stride length but keep tempo
Med to sprint:
- if you try to just lengthen stride you will overstride (bad for speed bc you decrease GRF) (we cant use knee flexion to absorb force and the ankle is straight too, so force goes right into the knee)
- you should instead increase tempo not length

Question 17

What is the running tempo with the most efficiency? when we run slow what phase are we in most?

Answer 17

• 180 is temp reccomended
• slower you tun the more stance you are in (stance phase is where more injuries happen)

Question 18

What are the different types of running styles (strike patterns)?

Answer 18

• rearfoot (better in thicker padded shoe)
• forefoot (thinner shoe)
• midfoot (thinner shoe)

Question 19

What are pathalogical gait patterns the result of?

Answer 19

• body’s response to pain, paralysis, muscle spasticity

Question 20

Antalgic gait?

Answer 20

• limp (like an ankle sprain)
• trunk shifts towards good side
• painful gait
• goal of antalgic gait is to reduce the time in stance phase and elongate swing

Question 21

Gluteus maximus gait?

Answer 21

• caused by paralysis/weakness of glut max
• increased thoracic extension of initial contact
• trunk lurching (+ extension of spine)
• the body tries to fake this glut contraction

the glut is important for eccentric contraction in early stages of stance

Question 22

Psoatic limp?

Answer 22

• caused by weakness of the psoas major (can be associated with Legg-Calve-Perthes) where the femoral head starts to die
• Flex and rotation of the trunk towards the involved side (try to artifically shorten psoas major)
• Exagerated pelvic rotation
• ER, flexion, adduct hip

Question 23

Quadriceps gait?

Answer 23

• due to quad weakness or palsy
• lack of full knee extension
• pt may use hand to mimic quad contarction by pushing leg back into extension
• mid-late stage of stance quads control of eccentrically

Question 24

Steppage gait (drop-foot)

Answer 24

• caused by weakness or paralysis of dorsiflexion
• forefoot slapping the ground at initial contact
• DF unable to eccentrically contract and control the motion
• (may look like you are stepping into a box or the leg whips)

Question 25

Circumduction gait?

Answer 25

• lateral movement of the leg duing swing phase
• “peg-leg gait”
• Causes: knee stiffness OR lack of dorsifelxion of hip flexors

Question 26

Calcaneal gait?

Answer 26

• cuased by plantar flexor weakness or painful WB on the forefoot
• increased Dorsiflexion duing stance phase
• Increases WB on calcaneus of affected foot
• seen in ruptured achiles
• makes stance phase shorter and we lose those later stages (stride length is also shorter)

Question 27

Short leg gait?

Answer 27

• caused by leg length discrepency
• Increases pronation on longer side
• causes a shift of the trunk toward the longer leg
• they bring the pelvis up and close to the body, thus the body is trying to shorten the leg artificially
• clinical signifcance of asymetry is 1.5 cm
• this may look like a scoloiosis gate so you need to be thorough and measure

Question 28

Scissor gate?

Answer 28

• indicates spastic paralysis/tightness of adductor group (associated with CP) (may also be from obturator nerve issues)
• hyperadduction
• pigeon toed position

Question 29

What is the basic cause and types of Trendelenburg’s gait? What is the formula?

Answer 29

• caused by weakness of the gluteus medius
  Types:
• Uncompensated
• Compensated

Formula:
* D1 x BW = D2 x HAM (hip adducion moment)
* +d aor –> LOG (perpendicular ditance of axis of rotation leads to line of action)

Question 30

What is the compensating type of trendelenburg’s gait?

Answer 30

• pt has pain
• lean and shifts pelvis towards affected side (lurch laterally)

Question 31

What is the uncompensated type of trendelenburg’s gait?

Answer 31

• NO pain
• hip shifts/pelvic drop occurs
• looks like a bad model walk where the hip on one side pops

Question 32

Can we artificially shorten the functional distance between D1 and D2?

Answer 32

• Yes but only in compenstated
• with the trunk shift, the LOG comes close to the glut med so it does less work

Question 33

How can we fix this?

Answer 33

• can change bw over time, the less you weigh the less stress you put on your body
• fix by strengthning the glut medius