Rehab Techniques Final Review PDF

Summary

This document reviews rehabilitation techniques, including tandem and Romberg stance exercises for improving balance, and various stages of motor development. It also covers Rood technique, which focuses on normal development for food intake, respiration, and speech.

Full Transcript

REHAB TECHNIQUES FINAL REVIEW
Tandem stance- When you place the right foot in front of the left foot,
directly in front of the other, with the right heel touching the toes of the
left foot. Also known as tightrope walking

Tandem stance

Romberg stance-Standing with the feet close together

Romberg stance
Tandem and Romberg stance are good exercises to help improve balance.
Stages of motor development

Level I: Mobility (Reciprocal Innervation)
o Agonist muscle contracts as antagonist muscle relaxes
Level II: Stability (Co-innervation)
o Fixes potion of the body so weight bearing can be done
Level III: Mobility superimposed on stability with distal segment fixed
o Moving the limbs when they are fixed, closed chain
Level IV: Skill - Mobility superimposed on stability with distal segment
free
 o Ability to maintain stable proximal joint while the distal end moves,
open chain

Rood technique=The developmental approach (sensorimotor
therapy=sensory+motor)
Rood technique consists of working on normal development
Rood technique vital Functions: Food intake, respiration, eventually
speech
a. inspiration
b. Expiration: includes crying, sneezing, coughing (last two are protective)
c. Sucking: coordinated with swallowing and breathing
d. Swallowing: facilitated by sensory input from the trigeminal distribution
(CN 5th)
e. Phonation: controlled expiration -- speech development

Brunnstrom=Stages of recovery after a stroke
NDT=The problem-solving approach (Bobath)
Gross Motor skills-motor tasks that use large musculature precision of
movement is not as important to accomplish the task
Fine Motor skills-motor tasks that use small muscles precision is important
to accomplish the task, typically requires eye-hand coordination

Stages of motor learning
Massed= Practice occurs in a larger block of time with more practice time
than rest time.
Cramming for an exam the night before
5 hours of studying in one night
Distributed= Practice occurs in smaller blocks with breaks equal to or less
than rest time.
Studying in small chunks every evening
5 hours of studying 1 hour, each day, for 5 days
 Constant= Practice is focused on a single activity under the same
conditions every time.
Practicing a passage of music with the same start and end point each
time.
Working on walking in the gym with a pre-planned distance in the
same hallway, same speed, repeated
manner.
Variable= Practice occurs under a variety of conditions
Practicing the passage of music with different starting and ending
points.
Vary conditions of the activity: changing location, speed, or surface.
This practice ensures the learning is not dependent upon the specific
activity starting point but can be adapted under various circumstances.

Blocked= Single task performed uninterrupted by the practice of any other
task.
Training a basketball player to shoot, then dribble
Random= Multiple tasks are performed without regard to a particular
sequence.
Training a basketball player to shoot and dribble throughout game
play

Guidance= Providing verbal or physical cues for proper performance
Facilitation for normal patterns and movement
Assisting and cueing throughout the activity
Discovery= Allowing the learner to make changes based on their own
assessment
No feedback provided during the session, learning occurs through
trials and self-assessment

Error-Driven (Error-based): Allowing the learning to make mistakes
throughout practice and make changes based
Allowing trials with mistakes that encourages the learner to make
 errors and redirect performance based on cues or self-assessment
Not NO-DIRECTION, but some direction
Walking practice where the learner is directed in the end goal and
not the performance of each step
Error-Free: Learners are not allowed to make mistakes in practice.
Consistent and similar performance encouraged with each repetition
Walking with guided foot placement in the same location with each
step

Whole= Practicing the entire skill from start to finish
Part= Practicing components of skills
Stages of learning
Cognitive Stage: Learning what to do and what is necessary to perform a
skill correctly. Developing an understanding of the skill. This stage requires
the most attention and cognitive load
Associative Stage: Learning how to perform a skill with greater precision
and accuracy. Breaking the skill into components. Learning to experience
the correct “feel” of a skill. Fine tuning and applying the skill to basic
situation
Autonomous Stage: The learner has learned the skill and is able to perform
it with minimal cognitive monitoring.

Spasticity-Contractions of muscles causing stiff and awkward movements
(velocity dependent)
Rigidity- Resistance to stretch throughout range of movement
Muscle tone- overall state of tension in the body
Types of muscle tone
▪ Flaccid = no tone
▪ Hypotonia = decreased from normal
▪ Hypertonia = increased from normal
▪ Dystonia = disordered tone (seen with active movement)
 Modified Ashworth scale measure what: Spasticity
Modified Tardieu scale assesses what: Muscle response to stretch at given
velocities
▪ R1 measurement=spasticity
▪ R2 measurement= structural limitation (contracture)

Burke-Fahn-Marsden scale measures what: Dystonia
 What medicines is used for spasticity: CNS depressants (baclofen, valium
dantrolene sodium)
o Can also use botox injections to decrease spasticity
PNF
Facilitation: To free from difficulties or obstacles; to make easier;
to assist something to happen.
Inhibition: To hold back, repress, depress, slow down, or limit.

Quick ice and light touch are good faciliatory techniques to get a muscle
contraction
In PNF maximal resistance is the amount of resistance used to get an active
muscle contraction to get the correct motion you need
PNF improves coordination, strength, ROM, and balance
Diagonal line of motion is called the groove
The completely lengthened state is called the wind up
Which diagonal pattern used for chopping: UE D1 extension
Which diagonal pattern used for lifting: UE D2 flexion
Creeping has both a flexion and extension component
Joint approximation is a technique used to help a patient stay stable while
sitting upright
Shaking is a series of quick stretches
o You can use shaking with a rotational component to reduce spasticity
Fixing(co-activation)- using muscles in one body area to stabilize or to help
move another body part
walking on a balance beam 15 feet above the floor
child walking with a high guard
Balance and coordination

Coordination- the ability to use and control multi joints of the body
together to help move the body smoothly and efficiently.
Nonequilibrium coordination-control of discrete(separate) movements of
the extremities
 Equilibrium coordination-control of multi-joint movements for posture
and gait (includes the trunk)
Cerebellum, basal ganglia, and dorsal column are all areas where
balance impairments occur in
Cerebellum impairments: Hypotonia, dysmetria, dysdiadochokinesis,
tremor, dyssynergia, ataxia, dysarthria, asthenia, rebound phenomenon,
nystagmus
Basal ganglia impairments: Bradykinesia, akinesia, rigidity, tremor,
chorea, athetosis, choreoathetosis, hemiballismus, dystonia
Dorsal column impairments: Decreased proprioception, kinesthesia, and
discriminative touch
Cerebellum=intention tremor
Basal ganglia=resting tremor
Dysdiadochokinesis- Having trouble doing RAM (rapid alternating
movements)
o Flag wavers and taxi drivers don’t have trouble doing RAM
because their hands are stable
What exercises are used for ataxic pts- Frenkel's exercises
Ankle strategy-small perturbations within LOS, muscle work distal to
proximal
o What correct a backward sway in order: Tibialis anterior,
quadriceps, abdominals
Hip Strategy-Large perturbations on narrow BOS, muscle work
proximal to distal
o What correct a forward sway in order: Abdominals followed by
the quadriceps
Stepping strategy-Large fast perturbations
o Walking in a crowd and get push a little too hard you will use this
strategy to not fall down
Anticipatory or proactive- Tell pt ahead of time what they will expect
for preparation
o Helps improve pt confidence because they know what to expect
Compensatory or reactive- Don't tell pt ahead of time what to expect. Pt
will react to the stimulus provided
 Vestibular
The labyrinth has no collateral anastomotic network=susceptible to
ischemia
Otolith organs: utricle and saccule
o Detects linear motion acceleration and deceleration
Angular head movement coordinates the VOR (vestibular ocular reflex) in
semicircular canals
VOR- This is when your eyes can stay stable with rapid head movements,
so you won’t get dizzy
Semicircular canals- where rotary movement is at
Otoconia is located in the vestibule
o If otoconia travels to the semicircular canals you will get BPPV (Most
common cause of vertigo, feels like your world is spinning)
Smooth pursuits-eyes remain fixed on a moving object
VSR (vestibular-spinal reflex)- balance strategies
VCR (vestibulocollic reflex)- Cervical muscles used for head stabilization
Strabismus-crossed eye
Ptosis-drooping eyes
Vertigo-the illusion of spinning
Oscillopsia- vision gets blurry with head movements
 o You get this when the VOR is absent
Migraine vs Meniere’s disease
o Migraine
▪ Tinnitus, high pitched
▪ Ear fullness
▪ True vertigo is rare, occur for a few minutes
▪ Short naps helps
▪ Visual auras common
▪ Motion sickness common
Meniere’s disease
▪ Tinnitus, low-pitched
▪ Hearing loss
▪ True vertigo is common, occur for hours
▪ Short naps don’t help
▪ Visual auras uncommon
▪ Motion sickness uncommon
Meniere disease diagnosis=Low level hearing loss + endolymphatic
hydrops (imbalance of fluid)
BPPV is treatable
▪ Treat it by doing a vertebral artery screen, Dix-Hallpike, and finish off
with canalith repositioning technique

Functional assessment and outcome measures
Reliability=consistency
Validity-accuracy
Responsiveness-sensitivity
MDC (minimal detectable change)- how much is really change and not an
error
MCID (minimal clinical important difference)- How much change is
important for a specific population
Performance based tests- observational only, what the pt do
o Tinetti, TUG tests
Self-reports- what the pt reports to the PTA
o Pain scale from 0-10
Cut-off scores- The true decision for a specific population
 o Gait walk test to determine whether it safe for a pt to go home
ICF model measures health and disabilty at both individual and population
levels, treats pt impairment
o Consists of body function and structure, activities, participation,
Enviromental and personal factors

FEAR OF FALLING IS THE MAIN REASON AN OLDER ADULT IS
AT RISK FOR FALLS

Stages of arousal
 Alert: awake and attentive to normal levels of stimulation
Lethargic: appears drowsy and may fall asleep, if not stimulated in some
way
Obtunded: difficult to arouse from a somnolent (sleepy) state and
frequently confused when awake
Stupor: responds only to strong, generally noxious stimuli and returns to
unconscious when the stimulus is removed
Coma: cannot be aroused by any type of stimulation

Orthoses=improve
Prosthesis=replacement
Limb Loss
Excessive knee flexion can be d/t
o High heels, socket too fair anterior (prosthetic causes)
o Flexion contracture, weak quads (anatomic causes)
Lateral displacement/abduction
o High medial wall, long prosthesis (prosthetic cause)
o Adductor weakness (anatomic cause)
o Abduction contracture (anatomic cause)
o adductor tissue redundancy (adductor roll) (anatomic cause)
o Distolateral limb pain (anatomic cause)
Circumduction and vaulting (prosthesis causes)
o Long prosthesis
o Locked knee unit
o Loose friction at knee (does not flex as much as it should)
o Inadequate suspension (slips down)
o Socket is too small (limb does not go on completely, causes a long
leg)
o Foot plantarflexed
Circumduction (anatomic causes)
o Abduction contracture
o Poor knee control
o Patient finds it easier to circumduct than to control the knee unit
 PVD or Diabetes (vascular disease) are the main reasons for getting a limb
amputated.
Massages, limb wrapping, and early weightbearing can help decrease pain in
an amputated limb.
Phantom Limb Sensation
o PRO: An awareness of the missing limb, helps with early prosthetic
training
o CON: Wake up and fall out of bed because you still think you have
your leg= FALL RISK

Phantom Limb Pain
o CON: Can prevent prosthetic training d/t the pain

Total Contact Socket
o All surfaces touching, not all surfaces weight bearing, but makes a
very nice fit
o bearing on tolerant soft tissue areas
o Counter pressure assists with venous return
o Enhances sensory feedback

Patellar Tendon Bearing (most common)
o Patellar tendon takes most weight (Provides the weightbearing)
o Facilitates quadriceps loading
o Prevents recurvatum
o Requires socket flexion- 5*

TFA-quadrilateral
o Can bear weight on the ischial tuberosity
TFA- ischial containment
o Can bear weight on the glutes and bottom of the limb
TFA comfort flex socket is hard not soft
 o Reduces socket rotation on the limb

Wraps can be replaced with shrinkers once the skin is healed.
Following an amputation to help control swelling of the residual limb you
use a shrinker
DONT WEAR A SHRINKER INSIDE OF A PROSTHESIS,
PRESSURE OF THE PROSTHESIS DOES THE SAME JOB AS A
SHRINKER.
SHRINKER IS WORN ONCE THE WOUND IS HEALED AND THE
SUTURES HAVE BEEN REMOVED
With an amputated transfemoral limb prone lying helps with hip extension,
Hip adduction and hip extension is important. YOU DO NOT WANT HIP
ABDUCTION AND FLEXION. With a transtibial amputation if the pt sits in a w/c make sure the KNEE IS
PLACED IN EXTENSION
The main concern after getting a limb amputated: CONTRACTURES
o Contractures are prevented through ROM and frequent positioning
o DO NOT REST LIMBS IN A GRAVITY DEPENDENT
POSITION=CONTRACTURES
Main rules for limb wrapping
o No tape on the skin
o Use a figure 8 style
o Wrap on a diagonal, never circumferential, wrapping
circumferential will decrease circulation in the limb which
causes ischemia
o No stirrups
o Even Pressures
o Cover all holes and windows
o Should feel tight
o Maintain upward pressure gradient
o Pressure is greater distally than proximally
o Pull on the up, not down phase
o Anchor with 2 layers of minimal stretch to hold in place
 o May use tape to secure top layers, but no pins
o Leave space for hygiene
o Watch out for wrap sizes so you won’t create a tourniquet.
Ex: if you start the limb wrap with 2-inch bandages, the
next bandage you use is a 2- inch or higher. Never go
smaller because it will cause edema in the distal limb.
o Wrap in a diagonal to avoid dog ears (stirrups- wraps start
in the middle which will cause flaps on both sides=dog ears)

Burns
Thermal burns – Due to an external heat source that raises the
temperature of the skin. Thermal burns can be caused when hot
metal, scalding liquid, steam or flames come in contact with the skin.
Chemical Burns – Due to strong acids, alkalis, detergents or solvents
coming in contact with the skin.
Electrical Burns – From an electrical current (alternating current AC or
direct current DC). Can be accompanied by flash flame (thermal) burn.
Radiation Burn – Due to prolonged exposure to UV rays from the sun
or exposure to radiation such as therapeutic cancer treatments or
nuclear power plant leaks.
Friction Burn – When heat generated by friction causes direct damage
to the skin (ex: road rash, rope burn)
Eschar- dead tissue

Rules of 9’s- the percentage of how much of the body is burned
RULE of NINES TBSA
9 head
9 each arm
18 each leg
18 anterior thorax
18 posterior thorax
 1 perineal area
EX: if the patient burned their entire left leg and right arm
what's the TBSA: 18+9=27%
EX: if the patient burned half their right arm and half of
their left leg what's the TBSA: half of 9=4.5, half of 18=9,
9+4.5=13.5%

If a burn patient does not try to move or ambulate what are some
complications they can get: Pulmonary complications (pneumonia), or DVT.
o It’s very important for a burn patient not to be down. Encourage
ambulation so the patient won’t get deconditioned
When is it contraindicated to ambulate a burn patient: If the burn patient
has a new skin graft or is getting dialysis done every hour
Deep burns in the skin can affect the nerve endings in the body which result
in tingling in the skin, numbness, weakness, pain, or burning in the body
Temporary wound coverings: Xenograft(pigskin), Allografts(cadaver)
What’s the difference between a mesh graft and sheet graft: the mesh graft
covers way more skin than the sheet graft
REMEMBER THE DEEPER THE BURN THE MORE ALTERED
THE SENSATION WOULD BE
THE POSITION OF COMFORT= THE POSITION OF
CONTRACTURE
 The optimal position to keep a patient in
with burns so they wont get contractures (Important picture)

Optimal positions for burns examples
o Burns on the anterior neck what position should the head be in to
prevent contracture: Neck extension, no neck flexion= comfortable
position, which results in a contracture
o Burns on the hip what position should the hip be in to prevent
contracture: In a straight neutral position, (hip extension), no hip
flexion or hip external rotation (frog legs) =comfortable position,
which results in a contracture
o Burns in the axilla area what position should the arm be to prevent
contractures: Shoulder abduction, external rotation and arm supination
Never put in shoulder internal rotation, adduction, arm
pronation=comfortable position, which results in a contracture
o Burns on the foot what position should the foot be to prevent
contractures: Dorsiflexion, no plantarflexion=comfortable position,
which results in a contracture
o Burns on the knee what position should knee be to prevent
contractures: Knee extension, no knee flexion=comfortable position,
which results in a contracture
When is stretching contraindicated for a burn patient: If the skin and
tendons are way too dry and fragile= can rip the skin off (BAD)
Epithelization- The process of covering the epithelium with new skin
o This process does not occur in full thickness burns
 Granulation-The development of new tissue and blood vessels in a wound
during the healing process (looks like ground beef)
Circumferential burns=ischemia (decreased circulation)
Burns greater than (>) 25%= organ failure
What is an inhalation injury: when someone gets burned in a very tight
closed space which can result in pulmonary complications, pt inhaled all the
smoke and fumes during the fire
Alimentation means nourishment, to feed **Not to keep pt weight up!!
Burn patients diet need to consist of a lot of protein and meat so the patient
wound can heal faster and to help the patient immune system
Escharotomy-full thickness incision through eschar (down to
subcutaneousfat) relieve pressure on vasculature from circumferential deep
burns
Fasciotomy-incision through all skin layers, into muscle compartment to
release pressure
What’s the main reason a patient with burns could die from: Infection
Burn contractures are common in the axilla area
Heterograft (xenograft)- A graft from another species (not human, EX:
pigskin)
Allograft (homograft)- A graft from another human, same species, EX:
human cadaver
Autograft- skin graft from own person’s body
Hypertrophic Scar - an abnormal response to scar development, an over
growth of dermal contents that remain within the boundaries of the
wound.
o How can you control hypertrophic scarring: Laser therapy, steroid
injections or pressure therapy Compression
Keloid - A scar which extends beyond the boundaries of the wound. Most
common in African Americans.
Superficial thickness (1st degree burns)- Involves the epidermis, sunburn
Partial thickness (2nd degree burns)- Involves the epidermis and some or
all of the dermis
Full thickness (3rd degree burns)- Involves the entire epidermis and dermis
and extends into the hypodermis (subcutaneous tissue)
4th degree full thickness burns- Involves the fascia, muscle, and bone
Hypertrophic scar

Keloids

1st degree burn
 2nd degree burn

3rd degree burn

4th degree burn

Debridement-The removal of dead tissue
o Burn patient may bleed a lot d/t debridement
If a burn patient has an arterial line, make sure you wrap it with an ace wrap
before ambulation
Local flaps heal faster than free flaps
 Local Flap – tissue taken from area adjacent to original wound; tissue
remains attached at one end and is nourished by original blood supply
Free Flap – tissue is completely detached from one area and transplanted to
another, along with its own blood supply, whose circulation is restored after
transplantation

Environmental and seating, W/C
Ramps outside on snow and ice what measures are for the ramp to be
modified- 1:20
What the difference between accessible designs and universal designs:
Accessible designs are for people with disability, universal design is for all
people
Lever type handles are good for people who have limited grip/or strength in
the hands. EX: people with MS, arthritis, brachial plexus syndrome, or
Parkinson's
Width of a wheelchair: 18-25 inches
What’s the standard width for a door to let a standard w/c get through: 32-34
inches
Tilt in space w/c- facilitate feeding and respiratory function, reduce pressure
beneath the pelvis, and improve visual alignment by holding the head
upright.
▪ Used for pts who will be moving around all day
Make sure the wheelchair width size fits the patient so the patient can propel
their wheelchair in the community properly
A patient with extensor tone what kind of w/c is suitable: A chair that 90
degrees at the hip, knees, and ankles
The height of stairs should never go pass 7 inches, and handrails should be at
least 34 inches high
Cambers on wheelchairs help with turning the wheel faster and easier.
Mostly seen on sports w/c
 Camber w/c used for sports
Handrails length should about 12 inches with a grip of 1.25 inches and a
wall clearance of 1.5 inches
To propel in a wheelchair, you must have strong stable proximal joints
Never use abductor cushions to keep a patient stable and from falling
out of the wheelchair. Long-term use can cause future pressure injuries
A k5 w/c have rigid foldable frames
Maximum rise of a ramp-30 inches
Maximum width of a ramp-36 inches
Closets bar height-52 inches
Kitchen for w/c counter height-no greater than 31 inches, knee clearance
height-27.5-30 inches, and depth-at least 24 inches
Bathroom grab bars:33-36 inches, length side wall-42 to 54 inches, length
back wall-24 and 36 inches
Roho cushion uses air cells for support and comfort

Orthoses
What is the most stable cervical (neck) brace: HALO
o This prevents the head and neck from moving
o No neck flexion, extension, sidebending, or rotation
 Halo brace (CTO, CTLSO)

Minerva brace (CTLSO)
Limits flexion, extension, sidebending, and rotation

Philadelphia collar (CO)
What's an advantage of a Philadelphia collar: Can take a bath or shower in it. It can
get wet.
Limits flexion, extension, sidebending, and rotation

Soft cervical collar (CO)
This brace limits flexion, extension, and sidebending

Knight taylor brace (TLSO)
This brace limits flexion, extension, and sidebending
 Somi brace (CO)
The somi brace consists of an occipital and mandibular plate to keep the head
and neck stable

Body jacket brace (LSO or TLSO)
Limits flexion, extension, sidebending, and rotation
 Miami J collar (CO)

Braces abbreviations
CO-cervical orthoses
CTO-cervical thoracic orthoses
CTLSO- cervical-thoracolumbosacral orthoses
LSO-lumbosacral orthoses
TLSO-thoracolumbarsacral orthoses
foot orthosis = FO
ankle-foot orthosis = AFO
knee-ankle-foot orthosis = KAFO
hip-knee-ankle-foot orthosis (HKAFO)
trunk-hip-knee-ankle-foot orthosis (THKAFO)

The difference b/t springs and trimlines:
o Trimlines-restrict or allow the motion at the joints
o Springs-Used to help assist motion at the joints

SCI
 In SCI patients, if you're working on dynamic balance the patient
should always be positioned at the edge of the mat with the feet planted
on the ground.
Parastance- an extension moment is created at the hips that prevents the
individual from folding forward, starts at T12, feet set in 5-15 degrees of
DF to get the patient stable, pt leans on Y ligaments
If pt loses para-stance position what will happen: pt will jack-knife (lean
forward aggressively)
The patient cannot make decisions on when they think they don’t have to
wear the orthosis anymore. Get it cleared with the orthotist. Educate patient
and family in donning, doffing, positioning, functional training, skin
protection, wearing schedules, and maintenance (care) of the orthosis
Myotomes
C5 = elbow flexors
C6 = wrist extensors (pt gains tenodesis)
C7 = elbow extensors
C8 = finger flexors
T1 = little finger abductors
T6-12 = trunk flexors
L2 = hip flexors
L3 = knee extensors
L4 = ankle dorsiflexors
L5 = long toe extensors
S1 = ankle plantar flexors
S2,3,4 = bowel and bladder

In SCI patients what are some reasons for getting increased spasticity: neurogenic
bladder is not a
fever, infection, stress, constipation, position, fatigue, environmental reason.
conditions, catheter and or bowel blockage, and cutaneous stimulation
SCI patients need good hamstrings length to help function properly and sit
upright
o L2 ASIA A SCI (pt has hip flexors) patient can benefit from good
hamstring length because they can do activities like reaching from
something at an angle or reaching to tie their shoes in sitting position
 SCI patients are at risk for getting pulmonary complications like pneumonia,
DVT, osteoporosis, heterotopic bone formation, pressure sores, and
contractures
o Make sure their getting up and doing some type of movement to
prevent that
For sliding board transfers from w/c to mat. If you're transferring pt to the
right, what can you do to make it a successful transfer: make sure pt uses
their momentum and whip their head and shoulders to the left to get on the
mat. Remember to ask the pt to use their momentum the opposite way
they are moving to get a successful transfer, pt transferring to the right
whip their to the left and vice versa.
ASIA A spinal injuries what highest level you can begin ambulating
with AFOs- L13
C6 ASIA A pt scooting back and forward on the mat are you what motions
at the shoulder: Shoulder extension, external rotation, and adduction
Key muscles at motor level for SCI
C1, C2, C3, C4
▪ Face and neck muscles, diaphragm at C3 and C4
C5
o Biceps, brachialis, brachioradialis, deltoid, infraspinatus,
rhomboids, ands supinator
C6
o Extensor carpi radialis, Infraspinatus, Latissimus dorsi, pec
major (clavicular portion), pronator teres, serratus anterior, teres
minor
C7
o Extensor pollicis longus and brevis, extrinsic finger extensors,
flexor carpi radialis, triceps
C8
o Extrinsic finger flexors, flexor carpi ulnaris, flexor pollicis
longus and brevis, intrinsic finger flexors
T1 to T12
o Intercostals, long muscles of back (sacrospinalis and
semispinalis), abdominal musculature (T7 and below)
L1, L2, L3
 o Gracilis, iliopsoas, quadratus lumborum, rectus femoris,
sartorius
L4, L5, S1
o Quadriceps (L4), anterior tibialis (L5), hamstrings (L5-S1),
Gastrocnemius (S1), Gluteus medius and maximus (L5-S1),
Extensor digitorum, posterior tibialis, peroneals, flexor
digitorum (L5,S1)

Autonomic dysreflexia (hyperreflexia)
o Occurs with lesions above T6, but seen at levels close to T6
o S/S: hypertension, headache, sweating, increased spasticity,
goosebumps, may turn pale
▪ As a PTA what do you do: lay the patient down
SCI patients are also at risk for getting orthostatic (postural) hypotension
o As a PTA what do you do: Don ace wraps or abdominal binder, get
lab work (may be anemic (HGB and HCT))
SCI patients at C6, C7, C8 and down can do their pressure reliefs
independently
Pressure relief in w/c for the butt= unweighting the ischial tuberosities
When having the pt learn the prone on elbows exercise on the mat if the pt
has a hard time doing it what muscle can apply pressure on to get them to
come up: Pec major
Designation of levels
▪ Skeletal level
– Level at which the greatest vertebral damage has occurred
▪ Sensory level
– The most caudal segment of the spinal cord
with normal sensory functions as determined
by testing the 28 dermatomes on each side of
body.
▪ Motor level
– The most caudal segment of the spinal cord
with normal motor function as determined by
testing 10 myotomes on each side of the
body.
 ▪ Neurological level
– The most caudal segment of the spinal cord
with normal sensory and motor function.

C1-C5=dependent transfers
C6=dependent at first, but can become independent
C7-S1= independent transfers

Pressure sores in SCI patients can always be prevented. If a pt with SCI is
always sitting in a w/c always think they can get a pressure sore.
How do C1-C4 SCI patient move their w/c: they use the sip-and-puff
mechanism to move the w/c around

Wheelies in w/c- When you lean backwards in the w/c with the leg rests off
the ground and try to balance on the wheels
SCI patients can have bladder problems.
o Urinary catheter is used for urinary output
SCI patients can still have children, but may have sexual dysfunction
(Men) UMN – greater erectile capacity
erections are reflexogenic
more difficulty with ejaculation
(Men) LMN - difficulty getting an erection
dependent on psychogenic stim
can ejaculate with more ease

FEMALE – sexual dysfunction basically not impaired- menstruation
initially delayed a few months, conception not impaired

To increase functional movement in a SCI patient what relationship do you
use: Head/Hip relationship
What also do you need for a successful transfer in SCI pts:
Velocity/momentum, leverage, and timing
 o You do not need strength
o Pt is not a piece of meat
Spinal shock happens right after the cord insult (car accident, GSW,
etc)
o S/S: areflexia, flaccidity, loss of sensation below level of lesion
o Bulbospongiosus reflex is absent
When the bulbospongiosus is present, spinal shock is over and the pt
will eventually become spastic
UMN=central nervous system
LMN=peripheral nervous system
Weighted vests are good for SCI pts to wear because it increases their
proprioception

ASIA scale
A- complete: no sensory or motor below the level of the
lesion
No Sacral sparing (S4-S5)
B- incomplete: sensory preserved through S4-S5, no
motor
C – incomplete: some motor below the neurological level
Majority of key muscles < muscle grade 3
D – incomplete: some motor below the neurological level
Majority of key muscles > muscle grade 3
E - Normal

Cord syndromes
Brown- Sequard
▪ damage on one side of the spine due to
stabbings and GSW
▪ presentations vary some – lesion is irregular,
usually not complete hemisection
▪ Ipsilateral weakness - lateral column damage
 ▪ Ipsilateral spasticity in muscles innervated
below the lesion
▪ Ipsilateral loss of proprioception,
kinesthesia, vibration
▪ Contralateral pain and temp loss Contralateral motor
starting a few levels below the lesion

Anterior Cord Syndrome
▪ Associated with flexion injury
▪ Often result of loss of supply of
anterior spinal artery
▪ Bilateral loss of motor function,
pain and temp

Posterior Cord Syndrome
o Rare
o Injury to posterior (dorsal) columns
o Loss of proprioception
o Pain, temp, sensation, and motor function below level remains intact

Central Cord Syndrome
o hyperextension injury- cervical area
o UE deficits > LE deficits
o B&B intact
o Most common of the incomplete
syndromes

CONUS MEDULLARIS SYNDROME
o UMN vs LMN ?combo
o Likely to be bilateral
o Hyperreflexia vs areflexia bladder
-

CAUDA EQUINA SYNDROME
o Below Conus Medullaris
o LMN
o frequently incomplete
o potential to regenerate
 WC matching
C5- assisted with sliding board transfer
C6-power WC in community
C7- WC with plastic rim
C8-Independentvtransfer from floor to WC

Pressure sores are NOT unpredictable
Fasting blood count is not a top priority during testing

Selective strengthening what muscle for a SCI L2 pt- Hip flexors
What type of door should a WC avoid? Offset hinge

12 X12=144
Central cord- UE>LE
Anterior cord syndrome- Loss of motor and sensory

A word to describe PNF- modulate
For tendonesis you want to strengthen wrist extensors
Which is not a motor learning concept- combined
Supine to prone for T6- chopping D1 extension
Pnf for ataxia is- D1 D2 pattern
C4 transfer- dependent and p driven
C6 when they are prone on elbows what are they strengthening- serratus
Dysdiadochokinesis- stocking boxes in a warehouse
C6 if they cannot get on prone what muscle do you facilitate? Seratus
55% burned- organ failure
Tone inhibition- All
**Xenograft will be replaced**
**Leather= eschar**
Position for distal burns on distal UE- elevate limb to avoid edema
If pt is pale, lay them down.
3 different pt with weak LE what should you do- Initiate weight bearing activities
What part of the brain will be least affected by ataxia- Frontal lobe
Which does not help with limb pain-independent position
C2 Asia D can breath room air
Help a SCI cough- hand placement between xiphoid and umbilicus..
Vertigo CN:8
Short sitting- edge of mat
** Co-innervated skilled- skill well integrated
How do you lessen proprioception- Put pt in water
Which is not a type of motor learning- Combined
Bun position:
Neck-Extension
Shoulder- Abduction, horizontal abduction
Knee- Extension
Posterior elbow- Flexion
Ankle- Dorsiflexion
SCI Journal- One ? pertaining to school another ? pertaining to near drowning
Deep partial burns painful- nerve ending exposed
Burn predictions are based on- the depth of the burn
Midpoint WC- turning radius
-Halo Fest
Springs on AFO help with dorsiflexion that helps assist with swing
Prone to prone- Next activity prone to supine
Oldest part of the brain- Vestibul
Most stable orthosis with the least weight- KAFO
Cuauda equina- Peripheral