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Gait and posture analysis

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Title: Gait and posture analysis


1
Chapter 13
  • Gait and posture analysis

2
Overview
  • It is not clear whether gait is learned or is
    pre-programmed at the spinal cord level.
    However, once mastered, gait allows us to move
    around our environment in an efficient manner,
    requiring little in the way of conscious thought,
    at least in familiar surroundings.

3
The Gait Cycle
  • Walking involves the alternating action of the
    two lower extremities
  • The walking pattern is studied as a gait cycle
  • The gait cycle is defined as the interval of time
    between any of the repetitive events of walking.
    Such an event could include the point when the
    foot initially contacts the ground, to when the
    same foot contacts the ground again

4
The Gait Cycle
  • The gait cycle consists of two periods stance
    and swing
  • The stance period
  • Constitutes approximately 60 of the gait cycle
  • Describes the entire time the foot is in contact
    with the ground and the limb is bearing weight
  • Begins with the initial contact of the foot on
    the ground, and concludes when the ipsilateral
    foot leaves the ground
  • The stance period takes about 0.6 sec during an
    average walking speed

5
The Gait Cycle
  • Swing period
  • Constitutes approximately 40 of the gait cycle
  • Describes the period when the foot is not in
    contact with the ground
  • Begins as the foot is lifted from the ground and
    ends with initial contact with the ipsilateral
    foot

6
Stance Period
  • Within the stance period, two tasks and four
    intervals are recognized
  • The two tasks include weight acceptance and
    single limb support
  • The four intervals include loading response, mid
    stance, terminal stance and pre-swing

7
Stance Period
  • Weight acceptance
  • The weight acceptance task occurs during the
    first 10 of the stance period
  • The loading response interval begins as one limb
    bears weight while the other leg begins to go
    through its swing period. This interval may be
    referred to as the initial double stance period
    and consists of the first 0-10 of the gait cycle

8
Stance Period
  • Single Leg Support
  • The middle 40 of the stance period is divided
    equally into mid stance and terminal stance
  • The mid stance interval representing the first
    half of the single limb support task, begins as
    one foot is lifted, and continues until the body
    weight is aligned over the forefoot
  • The terminal stance interval is the second half
    of the single limb support task. It begins when
    the heel of the weight bearing foot lifts off the
    ground and continues until the contralateral foot
    strikes the ground

9
Stance Period
  • Limb Advancement
  • Pre-swing. This interval begins with initial
    contact of the contralateral limb and ends with
    ipsilateral toe-off. As both feet are on the
    floor at the same time during this interval,
    double support occurs for the second time in the
    gait cycle.

10
Swing Period
  • Within the swing period, one task and four
    intervals are recognized
  • The task involves limb advancement
  • The four intervals include pre-swing, initial
    swing, mid-swing, and terminal swing

11
Swing Period
  • Limb Advancement
  • Pre-swing. In addition to representing the final
    portion of the stance period and single limb
    support task, the pre-swing interval is
    considered as part of the swing period
  • Initial swing. This interval begins with the lift
    of the foot from the floor and ends when the
    swinging foot is opposite the stance foot.

12
Swing Period
  • Limb Advancement
  • Mid-swing. This interval begins as the swinging
    limb is opposite the stance limb, and ends when
    the swinging limb is forward and the tibia is
    vertical
  • Terminal swing. This interval begins with a
    vertical tibia of the swing leg with respect to
    the floor, and ends the moment the foot strikes
    the floor

13
Gait parameters
  • Cadence
  • Cadence is defined as the number of separate
    steps taken in a certain time
  • Normal cadence is between 90 and 120 steps per
    minute
  • The cadence of women is usually 6-9 steps per
    minute slower than that of men
  • Cadence is also affected by age, with cadence
    decreasing from the age of 4 to the age of 7, and
    then again in advancing years

14
Gait parameters
  • Stride length
  • Step length is measured as the distance between
    the same point of one foot on successive
    footprints (ipsilateral to the contralateral foot
    fall).
  • Stride length, on the other hand, is the distance
    between successive points of foot-to-floor
    contact of the same foot
  • A stride is one full lower extremity cycle
  • Two step lengths added together make the stride
    length

15
Characteristics of Normal Gait
  • Gait involves the displacement of body weight in
    a desired direction utilizing a coordinated
    effort between the joints of the trunk and
    extremities and the muscles that control or
    produce these motions
  • Any interference that alters this relationship
    may result in a deviation or disturbance of the
    normal gait pattern

16
Normal Gait
  • Five priorities of normal gait
  • Stability of the weight bearing foot throughout
    the stance period
  • Clearance of the non-weight bearing foot during
    the swing period
  • Appropriate pre-positioning (during terminal
    swing) of the foot for the next gait cycle
  • Adequate step length
  • Energy conservation

17
Center of Gravity (COG)
  • During the gait cycle, the COG is displaced both
    vertically and laterally

18
Joint Motions in Gait
  • Trunk and Upper Extremities
  • During the gait cycle
  • The swing of the arms is out of phase with the
    legs
  • As the upper body moves forward, the trunk twists
    about a vertical axis
  • The thoracic spine and the pelvis rotate in
    opposite directions to each other to enhance
    stability and balance
  • The lumbar spine tends to rotate with the pelvis
  • The shoulders and trunk rotate out of phase with
    each other during the gait cycle

19
Joint Motions in Gait
  • Pelvis
  • For normal gait to occur, the pelvis must both
    rotate and tilt

20
Joint Motions in Gait
  • Sacroiliac Joint
  • As the right leg moves through the swing period,
    the position of the right innominate changes from
    one of extreme anterior rotation at the point of
    pre-swing to a position of posterior rotation at
    the point of initial contact
  • As the right extremity moves through the loading
    response to mid stance, the ilium on that side
    begins to convert from a posteriorly rotated
    position to a neutrally rotated position. From
    mid stance to terminal stance, the ilium rotates
    anteriorly, achieving maximum position at
    terminal stance

21
Joint Motions in Gait
  • Sacroiliac Joint
  • The sacrum rotates forward around a diagonal axis
    during the loading response, reaching its maximum
    position at mid stance (e.g., right rotation on a
    right oblique axis at right mid stance), and then
    begins to reverse itself during terminal stance

22
Joint Motions in Gait
  • Hip
  • Hip motion occurs in all three planes during the
    gait cycle
  • Knee
  • The knee flexes twice and extends twice during
    each gait cycle once during weight bearing and
    once during non-weight bearing

23
Joint Motions in Gait
  • Foot and ankle
  • Ankle joint motion during the gait cycle occurs
    primarily in the sagittal plane
  • At initial contact with the ground the ankle is
    dorsiflexed
  • During the loading response interval, plantar
    flexion occurs at the talocrural joint, with
    pronation occurring at the subtalar joint
  • At the end of the mid stance interval, the
    talocrural joint is maximally dorsiflexed, and
    the subtalar joint begins to supinate
  • From the mid stance to the terminal stance
    interval the foot is in supination
  • Once the ankle is fully close-packed, the heel is
    lifted by a combination of passive force and
    contraction from the taut gastrocnemius, and the
    soleus

24
Muscle Actions in Gait
  • Spine and pelvis
  • During the swing period, the semispinalis,
    rotatores, multifidus, and external oblique
    muscles are active on the side toward which the
    pelvis rotates
  • The erector spinae and internal oblique abdominal
    muscles are active on the opposite side
  • The psoas major and quadratus lumborum help to
    support the pelvis on the side of the swinging
    limb, while the contralateral hip abductors also
    provide support

25
Muscle Actions in Gait
  • Knee
  • During the swing period, there is very little
    activity from the knee flexors
  • The knee extensors contract slightly at the end
    of the swing period prior to initial contact.
    During level walking the quadriceps achieve peak
    activity during the loading response interval
    (25 maximum voluntary contraction) and are
    relatively inactive by mid stance as the leg
    reaches the vertical position and locks, making
    quadriceps contraction unnecessary

26
Muscle Actions in Gait
  • Hip
  • During the early to mid portion of the swing
    phase, the iliopsoas is the prime mover with
    assistance from the rectus femoris, sartorius,
    gracilis, adductor longus, and possibly the
    tensor fascia latae, pectineus, and the short
    head of the biceps femoris during the initial
    swing interval
  • In terminal swing, there is no appreciable action
    of the hip flexors when ambulating on level
    ground. Instead the hamstrings and gluteus
    maximus are strongly active to decelerate hip
    flexion and knee extension

27
Muscle Actions in Gait
  • Hip
  • The adductor magnus muscle supports hip extension
    and also rotates the pelvis externally toward the
    forward leg
  • In mid stance, coronal plane muscle activity is
    greatest as the abductors stabilize the pelvis.
    The muscle activity initially is eccentric as the
    pelvis shifts laterally over the stance leg. The
    gluteus medius and minimus remain active in
    terminal stance for lateral pelvic stabilization

28
Muscle Actions in Gait
  • Knee
  • Hamstring involvement is also important to normal
    knee function. The co activation of the
    antagonist muscles about the knee during the
    loading response aid the ligaments in maintaining
    joint stability, by equalizing the articular
    surface pressure distribution, and controlling
    tibial translation.

29
Muscle Actions in Gait
  • Foot and ankle
  • During the beginning of the swing period, the
    tibialis anterior, extensor digitorum longus
    (EDL), extensor hallucis longus (EHL), and
    possibly the peroneus tertius contract
    concentrically with slight to moderate intensity
    tapering off during the middle of the swing period

30
Muscle Actions in Gait
  • Foot and ankle
  • At the point where the leg is perpendicular to
    the ground during the swing period, the tibialis
    anterior, EDL and EHL group of muscles contract
    concentrically to dorsiflex and invert the foot
    in preparation for the initial contact

31
Muscle Actions in Gait
  • Foot and ankle
  • Following initial contact, the anterior tibialis
    works eccentrically to lower the foot to the
    ground during the loading response interval
  • Calcaneal eversion is controlled by the eccentric
    activity of the posterior tibialis, and the
    anterior movement of the tibia and talus is
    limited by the eccentric action of the
    gastrocnemius and soleus muscle groups as the
    foot moves towards mid stance
  • Pronation occurs in the stance period to allow
    for shock absorption, ground terrain changes, and
    equilibrium

32
Muscle Actions in Gait
  • Foot and ankle
  • The triceps surae become active again from mid
    stance to the late stance period contracting
    eccentrically to control ankle dorsiflexion as
    the COG continues to move forward
  • In late stance period the Achilles tendon is
    stretched as the triceps surae contracts and the
    ankle dorsiflexes
  • At this point the heel rises off the ground and
    the action of the plantar flexors changes from
    one of eccentric contraction, to one of
    concentric contraction

33
Influences on Gait
  • Pain
  • Posture
  • Flexibility and the amount of available joint
    motion
  • Endurance - economy of mobility
  • Base of Support
  • Interlimb coordination
  • Leg-length
  • Gender
  • Pregnancy

34
Influences on Gait
  • Obesity
  • Age
  • Lateral and vertical displacement of the COG
  • Properly functioning reflexes
  • Vertical Ground Reaction Forces
  • Medial-Lateral Shear Forces
  • Anterior-Posterior Shear Forces

35
Specific Deviations of Individual Joints
  • Hip
  • Inadequate power
  • Inadequate or inappropriate range of motion
  • Malrotation

36
Specific Deviations of Individual Joints
  • Knee
  • The common problem at the knee during the stance
    period is excessive flexion. During the swing
    period, the most common error is due to
    inadequate motion

37
Specific Deviations of Individual Joints
  • Foot and ankle
  • There are three broad types of errors of the foot
    and ankle in the stance and swing periods
  • Malrotation
  • Varus or valgus deformity
  • Abnormal muscle moments

38
Abnormal Gait Syndromes
  • In general gait deviations fall under four
    headings
  • Those caused by weakness
  • Those caused by abnormal joint position or range
    of motion
  • Those caused by muscle contracture
  • Those caused by pain

39
Abnormal Gait Syndromes
  • Antalgic Gait
  • The antalgic gait pattern can result from
    numerous causes including joint inflammation or
    an injury to the muscles tendons and ligaments of
    the lower extremity
  • The antalgic gait is characterized by a decrease
    in the stance period on the involved side in an
    attempt to eliminate the weight from the involved
    leg and use of the injured body part as much as
    possible

40
Abnormal Gait Syndromes
  • Equinus Gait
  • Equinus gait (toe-walking), one of the more
    common abnormal patterns of gait of patients with
    spastic diplegia, is characterized by forefoot
    strike to initiate the cycle and premature
    plantar flexion in early stance to midstance

41
Abnormal Gait Syndromes
  • Gluteus maximus Gait
  • The gluteus maximus gait, which results from
    weakness of the gluteus maximus, is characterized
    by a posterior thrusting of the trunk at initial
    contact in an attempt to maintain hip extension
    of the stance leg
  • The hip extensor weakness also results in forward
    tilt of the pelvis, which eventually translates
    into a hyperlordosis of the spine to maintain
    posture

42
Abnormal Gait Syndromes
  • Quadriceps Gait
  • Quadriceps weakness can result from a peripheral
    nerve lesion (femoral), a spinal berve root
    lesion, from trauma, or from disease (muscular
    dystrophy)
  • Quadriceps weakness requires that forward motion
    be propagated by circumducting each leg. The
    patient leans the body toward the other side to
    balance the center of gravity, and the motion is
    repeated with each step

43
Abnormal Gait Syndromes
  • Spastic Gait
  • A spastic gait may result from either unilateral
    or bilateral upper motor neuron lesions
  • Spastic hemiplegic (hemiparetic) gait. This type
    of gait results from a unilateral upper motor
    neuron lesion and is frequently seen following a
    completed stroke
  • Spastic paraparetic gait. This type of gait
    results from bilateral upper motor neuron lesions
    (e.g., cervical myelopathy in adults and cerebral
    palsy in children)

44
Abnormal Gait Syndromes
  • Ataxic Gait
  • The ataxic gait is seen in two principal
    disorders cerebellar disease (cerebellar ataxic
    gait) and posterior column disease (sensory
    ataxic gait)

45
Abnormal Gait Syndromes
  • Steppage Gait
  • This type of gait occurs in patients with a foot
    drop
  • A foot drop is the result of weakness or
    paralysis of the dorsiflexor muscles due to an
    injury to the muscles, their peripheral nerve
    supply, or the nerve roots supplying the muscles
  • The patient lifts the leg high enough to clear
    the flail foot off the floor by flexing
    excessively at the hip and knee, and then slaps
    the foot on the floor

46
Abnormal Gait Syndromes
  • Trendelenburg Gait
  • This type of gait is due to weakness of the hip
    abductors (gluteus medius and minimus)
  • The normal stabilizing affect of these muscles is
    lost and the patient demonstrates an excessive
    lateral list in which the trunk is thrust
    laterally in an attempt to keep the center of
    gravity over the stance leg

47
Abnormal Gait Syndromes
  • Parkinsonian Gait
  • The parkinsonian gait is characterized by a
    flexed and stooped posture with flexion of the
    neck, elbows, metacarpophalangeal joints, trunk,
    hips, and knees
  • The patient has difficulty initiating movements
    and walks with short steps with the feet barely
    clearing the ground. This results in a shuffling
    type of gait with rapid steps

48
Abnormal Gait Syndromes
  • Hysterical Gait
  • The hysterical gait is non-specific and bizarre
  • It does not conform to any specific organic
    pattern with the abnormality varying from moment
    to moment and from one examination to another
  • There may be ataxia, spasticity, inability to
    move, or other types of abnormality
  • The abnormality is often minimal or absent when
    the patient is unaware of being watched or when
    distracted

49
Posture
  • Good posture is a subjective term reflecting what
    the clinician believes to be correct based on
    ideal models.
  • Generally speaking muscles can be subdivided
    into
  • Postural muscles
  • Phasic muscles

50
Posture
  • The ability to main correct posture is related to
    a number of factors, which includes but is not
    limited to
  • Energy cost
  • Strength and flexibility
  • Structural deformities
  • Disease
  • Pain
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