1. Children with Hypertonia

2. What is Cerebral Palsy (CP)?
A group of disorders impacting the development of movement and posture
Results in activity limitation
Accompanied by disturbances of:
Sensation
Cognition
Communication
Perception
Possibly behavior and/or seizure disorder
(Campbell S 2000, Miller F 2005, Bax M 2005 )

3. What is Cerebral Palsy (CP)?
Caused by a non-progressive defect or lesion occurring in an immature brain
Insult occurs before or after birth
Single or multiple locations
(Campbell S 2000, Miller F 2005, Bax M 2005 )

4. Categories of CP Spastic or Hypertonic CP Ataxia Athetosis Hypotonia
Hemiplegia
Diplegia
Quadriplegia
Ataxia
Athetosis
Hypotonia

5. NDT Enablement Classification Model of Health and Disability
Domains
Dimension
Functional Domain
Disability Domain
A. Body structure & functions
Structural & functional integrity
Impairments
Primary
Secondary
B. Motor functions
Effective posture & movement
Ineffective posture & movement
C. Individual functions
Functional activities
Functional activity limitations
D. Social functions
Participation
Participation restriction
Dimensions
From: NDT Approach Theoretical Foundations & Principles of Clinical Practice, Table 2.1 pg. 82
M R Franjoine & M P Haynes

6. NDT Enablement Classification Model of Health and Disability
Domains
Dimension
Functional Domain
Disability Domain
A. Body structure & functions
Structural & functional integrity
Impairments
Primary
Secondary
B. Motor functions
Effective posture & movement
Ineffective posture & movement
C. Individual functions
Functional activities
Functional activity limitations
D. Social functions
Participation
Participation restriction
Dimensions
From: NDT Approach Theoretical Foundations & Principles of Clinical Practice, Table 2.1 pg. 82
M R Franjoine & M P Haynes

7. Body Structure and Functions
Spastic Diplegia
Spastic Hemiplegia %
Dyskinesia or Athetosis 10%
Spastic Quadriplegia %
Ataxia %
(Campbell S 2000)

8. Body Structure and Functions
Lesion(s) impacts:
the motor cortex
and/or
white matter projections to and from cortical sensorimotor areas of the brain
Causes:
Unknown prenatal condition
Asphyxia
Prematurity
Intracranial bleeds, infection, medical conditions
(Campbell S 2000)

9. Body Structure and Functions
Cognition
Neuromuscular System
Sensory System
Musculoskeletal System
Regulatory
Gastrointestinal
Cardiopulmonary
Integumentary

10. VARIABLE CHILD BY CHILD
Cognition
VARIABLE
CHILD BY CHILD
Dependent on:
Lesion(s)
Secondary effects of various systems
Seizures
Access to environment

11. What is muscle “tone”? Neuromuscular System
Amount of tension in a resting muscle
Resists being lengthened
Has neural components
Has mechanical and elastic components; muscle and connective tissue
(Lundy-Ekman 2002, Kandel 2000)

12. What is Hypertonicity? Neuromuscular System
Abnormally high resting tension
An abnormally high resistance to being lengthened
Still has both neural and mechanical components
The tonic component of hypertonus
(Crenna 1998, Lundy-Ekman 2002, Kandel 2000)

13. Neuromuscular System What is Spasticity?
Resistance to rapid muscle stretch
Velocity dependent
The phasic component of hypertonus
Often associated with:
Upper Motor Neuron Syndrome (UMNS)
Hyperactive deep tendon reflexes
Clonus
(Kandel 2000)

14. Neuromuscular System --Primary Impairments
Impaired Muscle Activation
Excessive Co-activation
Impaired Muscle Synergies
Inability to Initiate, Sustain, Terminate

15. Typical Co-activation
Simultaneous activation of agonists and antagonists at a joint influencing movement in the same plane
Normally used to increase joint stability or for proximal stability to support precise distal movements
Allows for graded movement

16. Excessive Co-activation
Atypical
Excessive Co-activation
Decreases movement speed
Limits flexibility of movement responses
Increased energy costs and fatigue

17. Child Picture

18. Typical Muscle Synergies
A group of muscles working together across multiple joints and organized to act as a functional unit
Simplifies the work of the CNS
Strengthens with repetition

19. Atypical Impaired Muscle Synergies
Based on limited movement repertoires
Difficult to vary or adapt to meet the requirements of different tasks
Produces stereotypical movement patterns

20. Atypical Impaired Muscle Synergies
Movements are limited in amount and frequency
Movements tend to be in more limited ranges

21. Child Picture

22. Typical Initiate, Sustain, Terminate
Quick response of muscles to the decision to move
Easily maintain posture against gravity
Relax muscles
Quick response of muscles to the decision to cease movement

23. Atypical Difficulty with Initiate, Sustain, Terminate
Delay between desire to activate and ability to initiate muscular movement (latency)
Difficulty holding against gravity…especially postural muscles
Can’t turn off muscles in time

24. Child Picture

25. Neuromuscular System Impaired Motor Execution
Impaired Modulation and Scaling of Forces
Impaired Timing and Sequencing
Excessive overflow of Intra-Interlimb contractions

26. Typical Modulation and Scaling of Forces
Controlled acceleration or deceleration
Using the proper amount of force
Constant balancing of agonists and antagonists during movement

27. Atypical Impaired Modulation and Scaling of Forces
Inability to slow down as they approach a target
Reduces accuracy (overshoots)
Particular difficulties grading grip

28. Child Picture

29. Typical
Timing and Sequencing

30. Atypical Impaired Timing and Sequencing
Unable to turn on and off muscles or patterns of muscles at the appropriate times
i.e. agonist and antagonist coordination
i.e. the hamstrings during gait
Incorrect sequence of activation for a task

31. Child Picture

32. Typical Overflow of Intra-Interlimb contractions
When learning a new skill
With increased effort
Within a limb or elsewhere in the body
Decreases as proficiency is gained
Can be actively overridden

33. Atypical Excessive overflow of Intra-Interlimb contractions
Bobaths described “associated movements”
i.e. while grasping with one arm, will posture with the other
i.e. when flexing the hip, the ankle dorsiflexes
Occur at times similar to typical but with a generally lower threshold
Decreases the capacity for isolated control during effort

34. Child Picture

35. Neuromuscular System Impaired Force Generation
Strength: the ability to contract a muscle to a sufficient degree to impact the task
Can be masked by tone and spasticity
Primary—impaired input from motor pathways
Secondary– atrophy and resultant fiber type and connective tissue changes
Postural
Movement system

36. Child Picture

37. Neuromuscular System Anticipatory Postural Control TYPICAL: ATYPICAL:
Postural set prior to initiating a task or movement
ATYPICAL:
Posture is not linked to movement
Fail to anticipate postural needs prior to a movement or task
Fail to generate adequate proximal posture for distal function

38. Child Picture

39. Neuromuscular System Poverty of Movement TYPICAL: ATYPICAL:
Large variety of movement repertoires to chose from
Can easily adapt and modify repertoires for the task
Movements are fluid, flexible, and complex
ATYPICAL:
Movement repertoires are limited in number
“Stereotypic”
Repertoires are difficult to change
Adapt poorly to various tasks

40. Neuromuscular System Fractionated or Dissociated Movements TYPICAL:
“Isolated movement” or “dissociated movement”
ATYPICAL:
Difficulty isolating movement
Segment to segment
Inter-limb
Intra-limb
Limbs from trunk

41. Child Picture

42. Sensory System
Vision
Vestibular
Somatosensory

43. Vision Varies greatly Cortical blindness to refractory errors
Strabismus (eyes not properly aligned)
Esotropia (the eye turns in)
Exotropia (the eye turns out)
Nystagmus
Visual tracking problems
Field cuts

44. Vision Ghasia, Brunstrom, Gordon & Tychsen, 2008 GMFCS levels I and II
Similar to typically developing children
Strabismus
Amblyopia (lazy eye)
GMFCS levels III to V
More severe deficits
Deficits not observed in typically developing children i.e. dyskinetic strabismus and Cerebral Visual Impairment

45. Vestibular Difficult to separate from vision and postural control
More impact seen in SQ than SD

46. Somatosensory Clearly atypical yet difficult to truly assess
Propioception
Kinesthetic awareness
2 point discrimination
Stereognosis

47. Sensory Processing
“ the ability of the nervous system to perceive, interpret, modulate, and organize sensory input for use in generating or adapting motor responses… (Miller & Lane 2000)

48. Musculoskeletal System
Considerable secondary impairments
Bone:
Boney deformities 2° atypical muscle pull
Decreased bone density of long bones (FX)

49. Musculoskeletal System
Considerable secondary impairments
Dislocations:
2° to atypical muscle pull and atypical bone shape formation
Impacts many joints from jaw to foot
Scoliosis and rib cage deformities

50. Musculoskeletal System
Considerable secondary impairments
Muscle:
Shortening and contracture
Fiber type shift
Weakness
Connective tissue:
Increased stiffness due to atypical matrix within muscle
Over-lengthening or shortening of tendons

51. NDT Enablement Classification Model of Health and Disability
Domains
Dimension
Functional Domain
Disability Domain
A. Body structure & functions
Structural & functional integrity
Impairments
Primary
Secondary
B. Motor functions
Effective posture & movement
Ineffective posture & movement
C. Individual functions
Functional activities
Functional activity limitations
D. Social functions
Participation
Participation restriction
Dimensions
From: NDT Approach Theoretical Foundations & Principles of Clinical Practice, Table 2.1 pg. 82
M R Franjoine & M P Haynes

52. Motor Functions Effective Posture and Movement
Ineffective Posture and Movement

53. Posture and Movement
“Observable conditions that are neither functional limitations nor system impairments” (Howle 2002)
Alignment of body segments
COM over BOS
Weight shift
Quality of movement (fast, slow)

54. The Child with Spastic Quadriplegia

55. General Characteristics of Posture in Children with SQ
Little variation
Influenced by limited joint range
Tone influenced by position in space
High tone extremities, low tone trunk

56. General Characteristics of Posture in Children with SQ
Uses increased tone to gain stability
Eyes adjust to posture rather than posture being driven by vision

57. General Characteristics of Movement in Children with SQ
Limited amount
Limited variety
Stiffen extremities to attain postural stability
Poor dissociation

58. General Characteristics of Movement in Children with SQ
Trunk moves with either flexors or extensors
Most active movement is in sagittal plane
Difficulty organizing movements in
relation to the BOS
Uses eyes and mouth to increase postural stability

59. Prone Posture Movement Difficult position
Pulled into gravity
Flexor tone is biased (typical)
Lack of joint range
Movement
Asymmetrical neck hyperextension OR
Not enough antigravity strength to lift head

60. Child Picture

61. Supine Posture Movement Preferred position
Stable
Have the possibility of viewing the world
Extensors are biased (typical)
Movement
Sometimes can kick reciprocally
Push with neck hyperextension asymmetrically and may arch with body

62. Child Picture

63. Sitting Posture Movement Very unstable position Narrow base
Stabilization efforts create non-functional alignment of hips, spine, neck, and head
Movement
Too unstable to seek movement
Increased full body stiffness when movement is initiated

64. Child Picture

65. Quadruped Posture Movement Rarely can hold without assistance
Often can’t move at all
May pull with both arms—”combat crawl”
Occasional child may “bunny hop”

66. Child Picture

67. Standing and Walking Posture Movement Placed in standing
Base too narrow--adducted legs and
plantar-flexed ankles
Movement
Stiffens whole body to gain stability
May support weight stiffly and then both “give”
Some may have reciprocal movements of legs

68. Child Picture

69. NDT Enablement Classification Model of Health and Disability
Domains
Dimension
Functional Domain
Disability Domain
A. Body structure & functions
Structural & functional integrity
Impairments
Primary
Secondary
B. Motor functions
Effective posture & movement
Ineffective posture & movement
C. Individual functions
Functional activities
Functional activity limitations
D. Social functions
Participation
Participation restriction
Dimensions
From: NDT Approach Theoretical Foundations & Principles of Clinical Practice, Table 2.1 pg. 82
M R Franjoine & M P Haynes

70. Activities and Activity Limitations
LOCOMOTOR
SKILLS
Weightbearing assisted transfers will improve quality of life
Motorized mobility if possible
COMMUNICATION
Establish early and simple communication
Think AT
BASIC ADL’S
Fully dependent in most skills
Full time assistance
Respite care for families

71. NDT Enablement Classification Model of Health and Disability
Domains
Dimension
Functional Domain
Disability Domain
A. Body structure & functions
Structural & functional integrity
Impairments
Primary
Secondary
B. Motor functions
Effective posture & movement
Ineffective posture & movement
C. Individual functions
Functional activities
Functional activity limitations
D. Social functions
Participation
Participation restriction
Dimensions
From: NDT Approach Theoretical Foundations & Principles of Clinical Practice, Table 2.1 pg. 82
M R Franjoine & M P Haynes

72. Participation Inclusion in family activities and outings difficult
Special classroom or mainstreamed with full-time paraprofessional
Participation is often limited due to:
Lack of interaction and communication with others
Wheelchair access
Transportation that accommodates WC

73. Treatment Strategies Address decreased ROM
Lengthen
Incorporate into your activities
Accompany with activation
and/or
Compensate
Work upright whenever possible

74. Treatment Strategies Help establish an appropriate BOS ALIGNMENT!
Usually need to widen
ALIGNMENT!
In relation to BOS
Segment to segment
Decrease asymmetries
Activate the trunk to free the extremities
Balanced flexors and extensors in the trunk
Work in the frontal and transverse planes

75. Treatment Strategies Keep them moving! Repetition
May need large ranges to know where they are
BUT
They can only control small ranges themselves
Repetition
Motor learning
Strength

76. Treatment Comments Empower these children!!!
Treat age appropriately despite motor abilities
Treat upright whenever possible
Forget the developmental sequence!!!
Attend to ALL the systems…Many impact their health and quality of life
Have a long term perspective

77. The Child with Spastic Diplegia

78. General Characteristics of Posture in Children with SD
Upper extremities show more variability than LEs
UE posturing may increase in unstable situations
Uses UEs for support in upright instead of trunk

79. General Characteristics of Posture in Children with SD
LEs: Hip adduction, internal rotation, knee flexion, ankle plantar-flexion
LEs influenced by limited joint range

80. General Characteristics of Movement in Children with SD
Active children
Pull themselves around with their arms
Poor dissociation of LEs from trunk and from each other

81. General Characteristics of Movement in Children with SD
Most active movement is in sagittal plane
Quadruped and walking progression is achieved by moving the COM outside the BOS
Walking speed is achieved by using LE spasticity instead of strength

82. Prone Posture Movement Tends to stay on elbows until going to 4s
Lack of joint range at hips increases anterior tilt of pelvis and stresses T-L joint
Movement
Lateral weightshifts are limited
Pulls with arms to move forward
Pushes with arms and keeps legs stiff to roll

83. Child Picture

84. Supine Posture Movement Plays with hands
LEs are stiff in hip flexion/adduction, internal rotation, knee flexion, ankle plantar-flexion
Movement
Reciprocal kicking, poorly graded
Very mild children may have hands to knee and hands to feet play
Move into and out of position using UEs

85. Child Picture

86. Sitting Posture Movement Like to sit
Narrow base is unstable so they seek “W” sit
Support with UEs
Movement
Get into and out of sitting in the sagittal plane
In “W” sitting, use both hands for play

87. Child Picture

88. Kneel Posture Movement
Hips flexed, anterior tilt to pelvis, lumbar lordosis
UEs either used for support or posture to increase trunk stability
Ankles often dorsiflex
Movement
Use this as a transition position to extend both legs and attain standing
Stay in sagittal plane, lateral weight shifts difficult

89. Child Picture

90. Quadruped Posture Movement
Difficulty controlling midrange hip and knee ranges so “sits” on heels
Movement
“Bunny Hop”
Moves both UEs together then both LEs together

91. Child Picture

92. Standing and Walking Posture
Base narrow--adducted legs and plantar-flexed ankles
Supports on UEs
Often “sinks” to foot flat during quiet standing
Can’t stand still

93. Standing and Walking Movement Reciprocal movements of LEs—often abrupt
Difficulty dissociating LEs from each other
LE posturing may increase during gait
Difficulty with lateral weight-shift so often use trunk

94. Child Picture

95. Child Picture

96. NDT Enablement Classification Model of Health and Disability
Domains
Dimension
Functional Domain
Disability Domain
A. Body structure & functions
Structural & functional integrity
Impairments
Primary
Secondary
B. Motor functions
Effective posture & movement
Ineffective posture & movement
C. Individual functions
Functional activities
Functional activity limitations
D. Social functions
Participation
Participation restriction
Dimensions
From: NDT Approach Theoretical Foundations & Principles of Clinical Practice, Table 2.1 pg. 82
M R Franjoine & M P Haynes

97. Activities and Activity Limitations
LOCOMOTOR
SKILLS
Usually walk (with & without assistive devices)
WC may be necessary for energy conservation
COMMUNICATION
Usually communicate without difficulty
BASIC ADL’S
Many become independent

98. NDT Enablement Classification Model of Health and Disability
Domains
Dimension
Functional Domain
Disability Domain
A. Body structure & functions
Structural & functional integrity
Impairments
Primary
Secondary
B. Motor functions
Effective posture & movement
Ineffective posture & movement
C. Individual functions
Functional activities
Functional activity limitations
D. Social functions
Participation
Participation restriction
Dimensions
From: NDT Approach Theoretical Foundations & Principles of Clinical Practice, Table 2.1 pg. 82
M R Franjoine & M P Haynes

99. Participation
Function well as a member of the family though may difficulty keeping up with siblings
Special classroom or mainstreamed.
Participation is often limited due to:
Fatigue
Speed and balance
Crutch, Walker, and WC access
Community accessabilty
Acceptance of peers

100. Treatment Strategies Address decreased ROM
Lengthen
Incorporate into your activities
Accompany with activation
and/or
Compensate
Help establish an appropriate BOS
Usually need to widen

101. Treatment Strategies ALIGNMENT! Get the trunk moving over the hip
In relation to BOS
Segment to segment
Decrease asymmetries
Get the trunk moving over the hip
Balanced flexors and extensors in the trunk
Work in the frontal and transverse planes

102. Treatment Strategies Keep the LEs dissociated from each other
Work for midrange control and eccentric control
Repetition
Motor learning
Strength

103. Treatment Comments Protect their hands and other joints
Remember biomechanics when they get on their feet
Increased function increases risk of deformities
Have a long term perspective