LE Orthotics

Question 1

Who is often the person who initiates the need for LE orthotic?

Answer 1

PT

Question 2

Things to consider for Pre-Orthotic Evaluation

Answer 2

• Patients structural and functional needs
• Patient’s goals/willingness to utilize orthotic

Question 3

Consideration of patient’s goals/willingness to utilize orthotic

Answer 3

• May need to provide education to patient on need, impact of orthotic
• Trial ambulation or transfer with and without orthotic
• Education on safety risk or risk to impact of LE without use of orthotic

Question 4

More Factors to consider for pre-orthotic evaluation/prescription

Answer 4

• Patient’s Height- Impact of height of orthotic
• Patient’s Weight- Impact choice of materials
• Diagnosis- Is diagnosis/prognosis static/ progressive?, Is function likely to improve/decline in time?
• Current Level of activity
• Anticipated Level of activity
• ROM- Ankle , Knee
• Strength- Entire LE
• Sensation
• Swelling

Question 5

Degree of Deformity

Answer 5

• Flexible Deformity- Correct
• Fixed Deforming- Accommodate
  *** for PF contracture, they need to be able to get to at least neutral

Question 6

Ambulation with and without a device

Answer 6

May not be safe to ambulate without device, especially if require high level of assist to ambulate

Question 7

Recommendation for device

Answer 7

• Justification for device
• Rationale for choice; especially important if primary PT is not going to meet with orthotist/team
• Team may ambulate very short distance while completing evaluation, but not likely at distance of therapist during treatment

Question 8

Orthotic Materials

Answer 8

• Plastic
• Metal
• Hybrid
• Carbon Fiber
• FES

Question 9

Conventional Metal Orthotic

Answer 9

• Metal Uprights
• Leather Cuff
• Attaches to shoe
• Space between leg and upright accommodates edema
  **total contact

Question 10

Molded plastic Orthotic

Answer 10

• plastic one-piece shell
• no moving parts
• total contact
• fits into shoe (can change shoes but heel height needs to stay the same)

Question 11

Articulating hybrid

Answer 11

• plastic molded calf shell and shoe inset
• articulating ankle joint
• can change shoes

Question 12

what will determine choice of orthotic material

Answer 12

consideration of patient’s presentation needs

Question 13

Which material and is typically preferred by patients and why

Answer 13

Generally plastic AFOs or carbon fiber due to ability to adjust foot wear, covered by clothing

Question 14

Why are plastic AFOs a caution for sensation or swelling

Answer 14

they have direct contact with skin throughout LEs

Question 15

Difference of weight from metal and plastic

Answer 15

Weight of metal and shoe is slightly more than plastic AFO and shoe-less than 1 lb difference –> energy consumption should not be impacted by this weight difference

Question 16

indications for metal systems

Answer 16

• Interim management –> Allows therapist to make changes to system; fixed to limited motion etc
• Swelling
• Poor sensation- dependent on patient ability perform skin checks or reliability of caregiver to evaluate skin
• Poor skin quality- history of ulcers, easily tear
• Need to get patients shoeware
• Severe spasticity (?)

Question 17

Metal System Advantages

Answer 17

• Easy alignment
• Good consistent footwear
• Ability of therapist to management/adjust
• Minimal direct skin contact

Question 18

Metal System Disadvantages

Answer 18

• Weight
• Appearance (Cosmesis)
• Shoes
• Limited control of foot

Question 19

Where should the calf band lie?

Answer 19

1.5 inches distal to neck of fibula

Question 20

Where does the shank of a metal system extend into?

Answer 20

body of shoe

Question 21

Axes of Metal System

Answer 21

• Anatomical axis at the ankle passes through malleoli
• Medial upright may curve anteriorly to align orthotic ankle axis to anatomical axis

Question 22

Double Action Ankle Joint/Bichannel Ankle Joint

Answer 22

• Manipulate anterior and posterior channels through ball bearing, peg (or spring) and screw
• Amount of closure of screw dictates amount of motion at ankle

Question 23

See typical shoe for metal AFO slide 15

Question 24

T Strap to control varus/valgus control

Answer 24

• Added to orthotic to limit hindfoot movement in the frontal plane
• Control inversion: stitched to lateral side of shoe and buckled around medical upright
• Control eversion: stitched to medial side of shoe and buckled around lateral upright
• Not commonly utilized, generally for excessive inversion/eversion

Question 25

Where does proximal trimline and calf band lie on a plastic AFO?

Answer 25

1.5 inches distal to fibular head

Question 26

Plastic AFOs Advantages

Answer 26

• Light weight
• Improved control, especially though foot
• Cosmesis
• Patient willingness to wear

Question 27

Plastic AFOs Disadvantages

Answer 27

• Intimate fit: directly on skin –> issues with sensation/skin
• Cannot adjust for large volume changes
• Therapist can not make adjustments to system

Question 28

Plastic System- Custom fitted to calf

Answer 28

If patient needs specific components, will be wearing AFO for longer period of time, custom is indicated

Question 29

Plastic System - Foot plate length

Answer 29

• To sulcus- usually utilized
• To end of toes- in cases of spasticity or toe clawing

Question 30

Plastic System - Ankle Joints

Answer 30

• Articulated- if plan is to eventually use articulated need to build joint in from
  the beginning
• Non-articulated

Question 31

If plastic system is non-articulated, what might it require?

Answer 31

• strengthening of ankle joints by incorporating carbon fiber composite reinforcement

Question 32

Non-articulated Plastic System - Control of motion/Type is dependent on:

Answer 32

• Type of plastic- polypropylene is most common
• Trimlines of brace

Question 33

Non-articulated plastic system - flexible/posterior leaf spring

Answer 33

• Trimlines very posterior to malleoli, essentially just cover Achilles
• Indicated for foot drop only
• Maintains neutral foot during swing

Question 34

Non-articulated plastic system - semi rigid AFO

Answer 34

• More full brace then flexible at shank and foot
• Trimlines behind malleoli, cut back behind malleoli
• Indicated for foot drop, slightly more control at foot may assist inversion/eversion

Question 35

Non articulated plastic system - Rigid AFOs

Answer 35

• Trimlines bisect the malleoli
• Provides plantarflexion stop, resists dorsiflexion
• Used to control drop foot, knee hyperextension

Question 36

Non articulated plastic system - Solid AFO

Answer 36

• Provides dorsiflexion stop
• Provides plantarflexion stop
• Trimlines anterior to malleoli
• Used to control knee buckling in stance phase,
  and drop foot in swing phase

Question 37

Ground reaction force AFO

Answer 37

• Non articulated AFO
• Solid AFO with increased control for knee
• Either single unit where instead of calf band has plastic segment up to patellar tendon
• OR Solid AFO with front shell on front of tibia up to patellar tendon
• Provides increased knee control

Question 38

Considerations for training with non articulated plastic system

Answer 38

• Fixed Ankle AFOs limit plantarflexion and dorsiflexion on purpose
• Has impact on functional abilities of patient
• Significant consideration/training for: Sit to stand, Up/down stairs, Ramps/Inclines, Grass/uneven flooring

Question 39

Articulated AFOs - Motion Control

Answer 39

• Provides free dorsiflexion
• Plantarflexion resistance/stop
• Dorsiflexion assist possible
• Possible to adjust angle or amount of limited
  motion
• Used to control foot drop and dependent on
  plantarflexion resistance/stop may impact knee hyperextension

Question 40

Way to advance non articulated AFO to articulated

Answer 40

Can start as solid AFO with joint included, then get cut to articulated AFO once patient is ready

Question 41

types of ankle joint systems for articulated AFOs

Answer 41

• Multiple options for ankle joints
• Made of various materials
• Different biomechanical functions
• Different abilities to adjust
• Cosmetic differences
• Orthotist usually makes recommendation

Question 42

Two ways to get dorsiflexion assist

Answer 42

• carbon fiber AFO
• Spring use in posterior channel

Question 43

DF Assist - Carbon Fiber AFO

Answer 43

Properties of Carbon Fiber during rocker of stance phase, compression provides bounce back to provide dorsiflexion assist during swing

Question 44

DF Assist - Spring in Posterior Channel

Answer 44

Can set up channels to have spring
instead of pin, compression of spring in stance phase provides DF assist once lifted in swing

Question 45

With what patient population are KAFOs typically utilized

Answer 45

SCI
- May be utilized with patient with peripheral nerve injury to femoral nerve

Question 46

What patient population are KAFOs NOT used with?

Answer 46

CVA and TBI
- Not able to get to stand/manipulated knee in constant extension

Question 47

KAFO UE strength

Answer 47

• Significant high demand on UE strength, ability to control hips by trunk position
• Effort significantly high, use low –> Most programs have specific requirements of UE strength and control to even initiate paragait training

Question 48

Benefits of KAFOs

Answer 48

decreased contractures, maintain UE strength, decrease instances of osteoporosis, patient mental health

Question 49

KAFO - Knee alignement Considerations

Answer 49

• Need to consider knee alignment/function/range * Consideration of contractures

Question 50

KAFO knee alignment in sagittal plane

Answer 50

control flexion and extension of the knee joint and
dorsiflexion/plantarflexion of the ankle joint

Question 51

KAFO knee alignment in frontal plane

Answer 51

can control mild genu varus/valgum

Question 52

KAFO Three point control system

Answer 52

• Sagittal Plane- Controls knee flexion/extension
• Frontal Plane- restrains tibia abduction/addition to prevent unwanted varus/valgus at knee

Question 53

Locked Knee KAFO Advantages

Answer 53

Stability at knee

Question 54

Locked Knee KAFO Disadvantages

Answer 54

• High energy expenditure= Decreased activity levels
• Creates gait deviations
• Uneven stride length or swing to gait required
• Functionally longer limb
• Secondary medical considerations long term due to compensatory patterns required at other joints – impact of contralateral limb/hip, trunk

Question 55

Drop Lock

Answer 55

• By far most common lock for AFO seen
• Released by manually lifting metal ring up
• Locked by manually sliding ring down over joint

Question 56

Bail Lock

Answer 56

• Bail lock is released when bail is lifted
• Allows knee flexion
• Helpful because patient could back up to chair and use chair to lift bail release
• Not used as much due to unintentional releases

Question 57

Posterior Offset Knee Joint

Answer 57

• Provides knee extension assistance during stance phase
• Ground Reaction Force Vector remains anterior to the mechanical axis and produces an extension moment at the knee

Question 58

Scott Craig KAFO

Answer 58

• Provides stance phase hip extension moment by manipulating ground reaction force vector posterior to the hip joint
• PF stop forces the legs to rotate as a whole forward during the loading response
• Hip is stabilized in slight extension by ground reaction forces and stabilized by anterior iliofemoral ligament in midstance
• KAFO must by set in 7-10 degrees of dorsiflexion to place legs anterior to hip in stance
• Ankles locked, knees locked

Question 59

Spreader Bar

Answer 59

• Attached between legs
• Keeps legs parallel and in line with one another
• Allows for swing through gait with legs operating as unit

Question 60

Footwear for metal orthotics

Answer 60

Get footwear with orthotic, educate patient on
monitoring wear/tear of shoe- will need orthotist if need new shoe

Question 61

Footwear for Plastic Orthotics

Answer 61

• Generally shoes need to be ½ size larger on side requiring AFO
• Some shoe companies will allow patient to get one shoe in one size, one shoe in a different size
• Laced and Velcro closures work best, want firm control at foot
• Heel height is critical- all shoes must have similar heel heights and must be minimal (higher heel- higher demand for patient to control knee)

Question 62

Socks

Answer 62

• Generally provide cushion, absorb perspiration, reduce shear forces
• Over the calf tube socks, specialty socks, stockinette, compression garments
• Make sure limb is covered for length of AFOs
• Don socks without without wrinkles

Question 63

Areas of Concern - Skin Inspection

Answer 63

• Malleoli
• Navicular Bone
• Calcaneus
• Base of 5th metatarsal
• Head of 1st and 5th metatarsal
• Calf Band
• Check locations of all trimlines

Question 64

Wear Time

Answer 64

• Depends on patient presentation, corrections needed, sensation, skin quality
• Needs to be part of the training to patient and caregiver
• Start with 1-2 hours of wear time; gradually increase every couple of days
• Skin checks after each initial use
• Redness lasting over 15 minutes and over areas of concern, can be a sign of ill-fitting orthotic and needs immediate attention from orthotist/tea

Question 65

Patient Education

Answer 65

• Educate patient on when they need to wear orthotic
• Training in donning/doffing
• Training in wear schedule
• Training in skin inspection
• Training in maintenance- likely areas to break down first
• Training in changes that must be made by orthotist
• Training to not place any additional foam inside brace for comfort

Question 66

Patient/Family Education

Answer 66

• Consideration of impact when orthotic is not in use
• Big concern is use of bathroom at night- can patient safely get to bathroom at night without putting orthotic on
• May change assist needs

Question 67

Check out

Answer 67

• Examination of orthotic (off of client)
• Re-examination of client
• Static assessment of orthotic on client
• Examination of orthotic on client during gait/transfers
• Examination of donning/doffing ability
• After wear and use for 30-60 minutes- skin check

Question 68

FES Systems

Answer 68

• Electrodes in calf band to stimulate- anterior tibialis
• Triggered by sensor set up to stimulate at specific angle on tibial inclination
• Indicated for foot drop only- no control at knee, no control for frontal plane motion

Question 69

Things about FES Systems

Answer 69

• Need to evaluate patient sensation/response to stimulation
• Need to have significant set-up specific to patient and patient gait cycle
• Not always covered by insurance
• Most hospitals/clinics do not have trial options for patients to utilize
• May be contraindicated in patients with pacemakers, metal implants, history of phlebitis