Stretching for Impaired Mobility PDF

Summary

This presentation provides an overview of stretching techniques for individuals with impaired mobility. It covers the different types of stretching, indications, and precautions while emphasizing the importance of proper techniques to prevent further injury.

Full Transcript

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STRETCHING FOR
IMPAIRED MOBILITY
 Goals
 Define terms related to mobility and stretching
 Identify the appropriate response to
immobilization and stretching
 Determine the appropriate type, intensity,
duration, speed, frequency and mode of
stretching for a given patient
 Appropriately apply stretching as an intervention
 Recognize the indications, precautions and
contraindications for stretching
 Select appropriate adjuncts to stretching
interventions
What is Stretching?
 “…any therapeutic maneuver designed
to increase the extensibility of soft
tissues, thereby improving flexibility
and ROM by elongating
(lengthening) structures that have
adaptively shortened and have
become hypomobile over time.”
- Kisner & Colby
What Are We Stretching?
 Flexibility reflects the extensibility of all
tissues that cross and surround the joint
 Muscles, tendons, ligaments
 Connective Tissue surrounding musculature
 Periarticular structures (e.g. joint capsule)
 Nerves, blood vessels, skin, fascia
 Allows for painfree functional movement
Indications for Stretching
 ROM is limited due to loss of soft tissue
extensibility (e.g., adhesions, scar tissue
formation, contractures)
 Restricted motion that can lead to
structural deformities
 Muscle weakness and shortening of the
opposing tissue
 Component of a total health, wellness,
and fitness program designed to prevent
musculoskeletal injury

Impacts of Hypomobility
Benefits of Stretching
 Increase flexibility and ROM
 General Fitness
 Injury prevention and reduced soreness
 Enhanced performance
Properties of Soft Tissue
Response to Immobilization and
Stretch
 Decreased extensibility of connective tissue (not
contractile elements of muscle tissue) is the
primary cause of restricted ROM.
 Direction, velocity, intensity (magnitude),
duration and frequency as well as tissue
temperature affect the response of soft tissue
 Most of our information about physiological
responses to immobilization has been done on
animals - therefore, the exact mechanism by
which stretching produces an increase in human
tissue extensibility is still unclear.
Properties of Soft Tissue
Response to Immobilization and
Stretch
 Elasticity
 ability of soft tissue to return to its pre-stretch resting
length immediately after a short duration stretch

 Viscoelasticity
 time dependent property that initially resists
deformation (e.g. increased length) but with
sustained stretch allows a change in length
followed by a gradual return to pre-stretch length

 Plasticity
 tendency of soft tissue to assume a greater length
after a sustained stretch
ContracturesNoandpathology present but shortening
decreased ROM. Improvement
quickly with stretching

Myostatic CNS lesion or injury may result in
 Adaptive shortening of
spasticity or muscle spasms limit

Pseudomyost theROM musculo-tendinous
through constant contracted
atic state. Neuromuscular inhibition
unit and other
techniques may allowsoft
for full ROM
Contracture
tissues that cross or
temporarily
 Intra-articular pathology is the root
Arthrogenic surround the joint
and cause with the connective tissue that
periarticular crosses or attaches to a joint lacking
 Result in and
mobility significant
limiting joint mobility

Fibrotic resistance to stretch and
Contracture Fibrotic changes cause the limitation
limitation of ROM
in the mobility and likely cannot be
and
Irreversible reversed and it is difficult to achieve
 Are named
optimal tissue by the
length evenaction of
if ROM can
Contracture
thebeshortened
improved because muscle
normal tissue is
replaced with fibrotic adhesions and
(e.g., elbowscar flexion
tissue.
Stress Strain Curve
Creep & Stress-Relaxation
Changes That Impact
Stress-Strain
 Immobilization
 Inactivity
 Age
 Corticosteriods
 Injury
 Additional conditions such as nutritional
or hormonal imbalances
Contraindications to
Stretching
 Bony block limiting motion
 Recent fracture or insufficient bone union
 Acute inflammation or infection
 If it will disrupt the early healing process
 Sharp, acute pain on joint movement or muscle
elongation
 Hematoma or other indication of tissue trauma
 Hypermobility
 Shortened soft tissues provide the necessary joint
stability in the presence of abnormal structures or
lack of neuromuscular control
 Shortened soft tissues enable a patient with
paralysis or severe muscle weakness to perform
Precautions for Stretching
 Use caution in the presence of osteoporosis,
prolonged bed rest, prolonged use of steroids,
the very old and the very young
 Do not force a joint beyond its normal ROM
 Progress the dosage (intensity, duration and
frequency) gradually
 Do not stretch edematous joint/tissue that is
prone to injury
 Do not overstretch weak muscles especially if
they support joints (shoulder)
 Do not overstretch…period
Precaution – Overstretching
 Overstretching can be detrimental and cause
joint instability when the supporting structures of
the joint, and strength of the muscles
surrounding the joint are insufficient to provide
joint stability during functional activities.

 Overstretching can predispose a person to
injury!
Stretching As An
Intervention
http://www.geograph.org.uk/photo/2051573
Techniques to Increase Soft
Tissue and Joint Mobility
 Passive or Assisted Stretching (manual or
mechanical)

 Self-Stretching
 Neuromuscular Facilitation & Inhibition (PNF)
 Muscle Energy
 Joint Mobilization/Manipulation
 Neural Tissue Mobilization
Determinants of Stretching
 Alignment
 Stabilization
 Intensity of the stretch
 Duration of the stretch
 Speed of stretch
 Frequency of stretch
 Mode of stretch
Alignment
 Positioning so the stretch force is
directed to the appropriate muscle group
 Be sure to monitor the trunk and adjacent
joints

http://uacc.arizona.edu/sites/
default/files/injury_prevention.pdf
Stabilization
 Fixation of a site of attachment of the
muscle as the stretch is applied to the
other attachment
 Commonly the proximal attachment is
stabilized and the distal segment would be
moved when manually stretched
Self
stretching often stabilizes the distal
attachment (ie. On a chair or doorframe) and
the proximal segment moves

 Watch for substitutions!
Intensity of Stretch
 Magnitude of the stretch force applied
should be LOW INTENSITY by a LOW
LOAD
 Low intensity stretching over long duration
has improved ROM
Decreased risk of tissue injury
Improved comfort
Elongation of dense connective tissue
Duration of Stretch
 In general, shorter duration needs
increased reps
 Static: a single cycle can range from 5
seconds to 5 minutes
30
second repetitions is the median duration in
most literature
Can be performed as a static progressive
stretch
 Cyclic (intermittent) stretching: short
duration that is repeated, cycle lasting
between 5 to 10 seconds
Speed of Stretch
 Speed of initial application of the stretch
 Slowly applied stretch
Encourages muscle relaxation and prevents
injury
Low velocity stretch is easier and safer for the
therapist or patient to control
 Ballistic stretching: rapid forceful
intermittent stretching
Not recommended for elderly, sedentary, or pt’s
with pathology
 High-velocity stretching: rapid low load
stretch
Static slow, short end-range slow, full-range
Frequency of Stretch
 Refers to the number of sessions per day
and per week
 Recommendation:
2 to 5 sessions per week
 Daily frequency may range from 1 to 3
sessions
 Allow for rest between sessions for healing
and to minimize post exercise soreness
 Must use clinical judgment and the response
of the patient
Mode of Stretch
 Form the stretch is applied
 Static
 Ballistic
 Cyclic
 Degree of patient participation
 Passive
 Assisted
 Active
 Source of the stretch
 Manual
 Mechanical
 Self
Manual Stretch
 Characteristics: external force provides
pressure beyond the available ROM
 Controlled, end-range, static, progressive
 Hold 15-60 seconds through multiple reps
 Effectiveness: research is inconclusive
 Use: often in the early stages of
stretching
Self-Stretching
 Characteristics: pt actively performs the
activity to increase ROM
 Effectiveness: must be carried out
effectively and safely so pt education is
key
 30-60 second hold
 Use: for HEP and long term self
management
 https://
jointactivesystem
s.com/JAS-EZ-
Systems/2/9/JAS-
EZ-Elbow.aspx

Mechanical Stretch
 Characteristics: a device applies a low-
intensity force over a prolonged period
to create relatively permanent
lengthening of soft tissue
 Cuff weight/pulley system, adjustable
orthotic devices
 Effectiveness: must use the new range in
order to maintain it
 15- 30 minutes up to 8-10 hours
 Serial casts are worn for days or weeks
https://
theprintedstitchdotcom.wordpress.com/
2010/08/04/serial-casting-complete/
PNF (Proprioceptive
Neuromuscular
Facilitation)Stretching
Techniques
 Active stretching utilizes active muscle

contractions in the stretching
 Requires voluntary control
 Reciprocal inhibition
 Types:
 Hold-Relax or Contract-Relax
 Agonist Contraction
 Hold-Relax with Agonist Contraction
Hold-Relax

1. The muscle to be stretched is
lengthened to the end of range
2. The patient performs an isometric
contraction (~5-10 sec) of the muscle
against resistance.
3. With relaxation of the contraction, the
therapist moves the limb into the new
range, hold stretch for 10-15 seconds.
 Examples: stretch of shortened pectoralis major muscles
bilaterally in sitting; hamstring stretch in supine. Isometric
contraction of the muscle to be lengthened (hamstring also
Contract-Relax
1. The muscle to be stretched is lengthened
to end of range
2. Patient performs a concentric contraction
of the muscle to be lengthened, against
resistance.
3. With relaxation of the contraction, the
therapist stretches the limb into the new
range. Hold for 10-15 sec and repeat.
Repeat until no new range is gained.
After a brief rest. Repeat.

Agonist Contraction (active
stretching)
 The “antagonist” refers to the tight
muscle and the “agonist” refers to the
muscle opposite the tight muscle. The
patient performs a concentric
contraction of the agonist holding for 6-
10 seconds. The patient then actively
lengthens the antagonist.
 Example: tight hip flexors-patient in prone
performs a leg lift by concentrically
contracting the hip extensors, hold for 6-10
sec, after a brief rest repeat
Effectiveness of Agonist
Contraction (AC)
 In one study AC found to be as effective
as static stretching
 In another, one daily 30 second static
stretch was 3 times as effective in
increasing hamstring flexibility as six
daily repetitions of AC or active
stretching
Effective
with muscle guarding not with
chronic contractures
Useful when strong muscle contraction is
painful
Hold-Relax with Agonist Contraction or
Slow Reversal Hold Relax
1. The muscle to be stretched is lengthened
to end of range
2. the patient performs an isometric
contraction of the tight muscle against
resistance 5-10 seconds.
3. Then the patient is asked to relax the
muscle and actively contract the opposite
muscle. With relaxation, if able, the
patient actively or with assistance
stretches the muscle into the new range
and holds the stretch 10-15 sec. Repeat
until no new range is gained. Repeat after
Preparation for Stretching
 Select the best stretch given the pt and
goals
 Warm-up first
 Positioning is key - Safety, Comfort,
Access
 Explain it and help with relaxation

 When should you stretch? Before or
active activity/sport?
Application of Stretching
 Move the extremity through the
available range using proximal
stabilization while mobilizing the distal
segment
 If a multi-joint muscle, stretch over 1 joint
at a time
 Can apply a gentle distraction
 Apply low-load in the opposite direction
to the line of pull of the range limiting
muscle
 Hold for 30-60 seconds or longer
After the stretch

 Perform AROM and/or strengthening
 Make sure that the agonist and the
antagonist strength is balanced
Adjuncts to Stretching
 Interventions that prepare tissues for
stretching can enhance a stretching
program
 Heat (including warm-up)
 Cold application Massage
 Biofeedback
 Joint Traction/Oscillation
 Relaxation Techniques…
Summary
 What are we stretching?
 Contraindications? Precautions?
 Determinants of stretching?
 Types of PNF stretching?
 How long should you hold the stretch?
 Reference and Reading
Overview

 Kisner, Carolyn, et al. Therapeutic
Exercise: Foundations and Techniques, 8e.
Available from: FADavis, (8th Edition). F. A.
Davis Company, 2022.
 Chapter 4: Stretching for Improved Mobility
(pgs. 86-116)
In class Demo 10SEP24
 Short term positioning; draping, pillow placement
 Pillow under back
 Pillow under knee not being stretched
Allows for posterior tilt of hip to reduce stress on hamstring
Some people we don’t want that
Hooklying is an option but if they’re guarding, you don’t want tense muscles, so you
can get an even bigger bolster
 Static progressive hamstring stretch
Ask where pt is feeling it and what type of feeling
Low load long duration is the best
Build up to 30 seconds cyclic but the more the better
 Ballistic stretching
Didn’t demo, but it is for athletes
This is not necessarily bouncing, it is probably more like what you call dynamic
stretching