cryotherapy
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Nov 19, 2019
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About This Presentation
Cryotherapy or ice therapy is the application of cold to the body tissues after injury. This practice is as old as medicine itself.
Slide Content
CRYOTHERAPY
DEFINITION:
Treatment under low temp called cryotherapy.
Tissue can be cooled for therapeutic reasons variations can be attributed to :-
Different methods of application.
The length of time over which cooling has been applied.
The initial temperature of techniques used eg: water temperature.
EFFECTS ON TISSUE:
Skin temperature: Different methods of application changes different in
temperature.
Immersion in Water: Drop of 29.5 at a temp of 4c°after 193 mins.
Ice massage: Drop of 26.6 at an ice temperature of 2 C°after 10 minutes .
Evaporating sprays: A drop to b/w 15-20 with sprays for 3 seconds at 15 cm
( using dimethylether).
Ice packs: A drop of 20.3 ara contact temperature of 0.3 C°after 10 minutes.
Ice towels: A drop of 13c°after a 7 min period with repeated application of
towel.
Treatment under low temp called cryotherapy.
Tissue can be cooled for therapeutic reasons variations can be attributed to :-
Different methods of application.
The length of time over which cooling has been applied.
The initial temperature of techniques used eg: water temperature.
EFFECTS ON TISSUE:
Skin temperature: Different methods of application changes different in
temperature.
Immersion in Water: Drop of 29.5 at a temp of 4c°after 193 mins.
Ice massage: Drop of 26.6 at an ice temperature of 2 C°after 10 minutes .
Evaporating sprays: A drop to b/w 15-20 with sprays for 3 seconds at 15 cm
( using dimethylether).
Ice packs: A drop of 20.3 ara contact temperature of 0.3 C°after 10 minutes.
Ice towels: A drop of 13c°after a 7 min period with repeated application of
towel.
JOINT TEMPERATURE:
Limited cooling of muscle when isolated by adipose tissue it is important to note that
joint cooling will be very limited is most especially deeper joint.
PHYSIOLOGICAL EFFECTS:
Effects on cell function.
Circulation .
Reduce blood flow.
Hemorrhage.
Pain
Spasm , Muscle and tissue repair.
During application of cold therapy the subject will experience a number of sensation
these may include:
1) Intense cold.
2) Burn sensation.
3) Aching
4) Analgesia
Limited cooling of muscle when isolated by adipose tissue it is important to note that
joint cooling will be very limited is most especially deeper joint.
PHYSIOLOGICAL EFFECTS:
Effects on cell function.
Circulation .
Reduce blood flow.
Hemorrhage.
Pain
Spasm , Muscle and tissue repair.
During application of cold therapy the subject will experience a number of sensation
these may include:
1) Intense cold.
2) Burn sensation.
3) Aching
4) Analgesia
COLD PACKS:
Cold pack can be made by wrapping flaked ice in drmoterry towel .
Applied for 20 mins.
Rate of initial cooling rapid.
Mc Master etal( 1978) demonstrate that chemical packs are more effective in lowering
subcutaneous temperature.
COLD BATH:
Place body parts in cold water or a mixture of ice and water.
Temperature can be controlled by varying the ratio of ice and water.
Lee et al ( 1978) suggest that temp of 16-18c°may be tolerated for 15 -20 mins.
VAPORIZING SPRAYS :
Role of evaporation is producing cooling of skin.
Result effective but short lived tissue cooling.
15-20c°after temperature decrease in temperature to around 15 to 20 c°can be produced
will be repeated applications. ( cocker 2004 , Collier 2004, graffin1997)
volatile liquid: dimethylether spray use on treated area.
Short burst: Approximate 3 to 5 each burst.
Cold pack can be made by wrapping flaked ice in drmoterry towel .
Applied for 20 mins.
Rate of initial cooling rapid.
Mc Master etal( 1978) demonstrate that chemical packs are more effective in lowering
subcutaneous temperature.
COLD BATH:
Place body parts in cold water or a mixture of ice and water.
Temperature can be controlled by varying the ratio of ice and water.
Lee et al ( 1978) suggest that temp of 16-18c°may be tolerated for 15 -20 mins.
VAPORIZING SPRAYS :
Role of evaporation is producing cooling of skin.
Result effective but short lived tissue cooling.
15-20c°after temperature decrease in temperature to around 15 to 20 c°can be produced
will be repeated applications. ( cocker 2004 , Collier 2004, graffin1997)
volatile liquid: dimethylether spray use on treated area.
Short burst: Approximate 3 to 5 each burst.
ICE MASSAGE:
Produce analgesia .
Use lollipops or blocks over a small area muscle belly or trigger points
slow circular motion.
Temperature donotdrop to level below 15c°.
Facilitate muscle activity.
PRECAUTIONS:
Open wounds, infected, tissue damage.
Cardiac disease.
Defective skin sensation.
High and low bp.
CONTRAINDICATIONS :
Acute febrile illness.
Vasospasm.
Cold urticaria.
Cryoglobememia
Produce analgesia .
Use lollipops or blocks over a small area muscle belly or trigger points
slow circular motion.
Temperature donotdrop to level below 15c°.
Facilitate muscle activity.
PRECAUTIONS:
Open wounds, infected, tissue damage.
Cardiac disease.
Defective skin sensation.
High and low bp.
CONTRAINDICATIONS :
Acute febrile illness.
Vasospasm.
Cold urticaria.
Cryoglobememia
Cryotherapy or ice therapy is the application of
cold to the body tissues after injury. This practice is
as old as medicine itself.
Nowadays, local cold application may be applied
by the use of various forms of ice or frozen gel
packs, or by evaporation of volatile fluids from the
skin.Often skin temperature is reduced to 10 C°.
cold to the body tissues after injury. This practice is
as old as medicine itself.
Nowadays, local cold application may be applied
by the use of various forms of ice or frozen gel
packs, or by evaporation of volatile fluids from the
skin.Often skin temperature is reduced to 10 C°.
A. Physiological Effects of Cold
Application
Circulatory Response
The initial skin reaction to cooling is an attempt to
preserve heat. It is accomplished by an initial
vasoconstriction. This haemostatic response has the
effect of cooling of the body part.
After a short period of time, the duration depends
on the area involved, a vasodilatation follows with
alternating periods of constriction and dilatation.
This reaction of “hunting” for a mean point of
circulation is called “Lewis’s Hunting Reaction”.
During the vasodilatation, the arteriovenous
anastomosis is closed, thus causing an increase
Application
Circulatory Response
The initial skin reaction to cooling is an attempt to
preserve heat. It is accomplished by an initial
vasoconstriction. This haemostatic response has the
effect of cooling of the body part.
After a short period of time, the duration depends
on the area involved, a vasodilatation follows with
alternating periods of constriction and dilatation.
This reaction of “hunting” for a mean point of
circulation is called “Lewis’s Hunting Reaction”.
During the vasodilatation, the arteriovenous
anastomosis is closed, thus causing an increase
Physiotherapeutic Uses of the
Circulatory Effect:
The initial vasoconstriction is often used to limit
the extravasations of blood into the tissues
following injuries (e.g. sports injuries). Ice therapy
is then usually followed by some forms of
compression bandage.
The alternate periods of vasoconstriction and
vasodilatation affect the capillary blood flow and it
is across the capillary membrane that tissue fluid
can be removed from the area and returned in the
systemic circulation. Increased circulation allows
more nutrients and repair substances into the
damaged areas.
Circulatory Effect:
The initial vasoconstriction is often used to limit
the extravasations of blood into the tissues
following injuries (e.g. sports injuries). Ice therapy
is then usually followed by some forms of
compression bandage.
The alternate periods of vasoconstriction and
vasodilatation affect the capillary blood flow and it
is across the capillary membrane that tissue fluid
can be removed from the area and returned in the
systemic circulation. Increased circulation allows
more nutrients and repair substances into the
damaged areas.
Thus ice therapy is very useful in removing
swelling and accelerating tissue repair. i.e. ice
cubes massage may be used to accelerate the rate of
repair of pressure sores.
The reduced metabolic rate of cooled tissues allows
cooled muscle to contract many more times before
fatigue sets in.
swelling and accelerating tissue repair. i.e. ice
cubes massage may be used to accelerate the rate of
repair of pressure sores.
The reduced metabolic rate of cooled tissues allows
cooled muscle to contract many more times before
fatigue sets in.
Neural response
The skin contains primary thermal receptors. Cold
receptors are several times more numerous than
warm receptors. The cold receptors respond to
cooling by a sustained discharge of impulses, the
rate of which increases with further cooling.
The rate of conduction of nerve fibers in a mixed
(motor and sensory) peripheral nerve is reduced by
cooling. The first fibers affected by gradual cooling
are the A fibers (myelinated) and eventually at very
low temperatures the B and C fibers (non-
myelinated) are affected.
In practice, motor nerve paralysis is never produced
The skin contains primary thermal receptors. Cold
receptors are several times more numerous than
warm receptors. The cold receptors respond to
cooling by a sustained discharge of impulses, the
rate of which increases with further cooling.
The rate of conduction of nerve fibers in a mixed
(motor and sensory) peripheral nerve is reduced by
cooling. The first fibers affected by gradual cooling
are the A fibers (myelinated) and eventually at very
low temperatures the B and C fibers (non-
myelinated) are affected.
In practice, motor nerve paralysis is never produced
Excitatory Cold Mechanism
When cold is applied in an appropriate way on the
skin, ice can be used to increase the excitatory bias
around the anterior horn cell.
Combined with other forms of excitation
(brushing, tapping,…) and with the patients’
volitation, this can often produce contraction of an
inhibited muscle (only with intact peripheral nerve
supply).
This effect can be used when muscle are inhibited
postoperatively or in the later stages of regeneration
of a mixed peripheral nerve
When cold is applied in an appropriate way on the
skin, ice can be used to increase the excitatory bias
around the anterior horn cell.
Combined with other forms of excitation
(brushing, tapping,…) and with the patients’
volitation, this can often produce contraction of an
inhibited muscle (only with intact peripheral nerve
supply).
This effect can be used when muscle are inhibited
postoperatively or in the later stages of regeneration
of a mixed peripheral nerve
B. Uses of Ice Therapy
Reduces pain.
Reduces spasticity.
Reduces muscle spasm.
Reduces swelling.
Promote repair of the damaged tissues.
Provide excitatory stimulus to inhibited muscles.
Reduces pain.
Reduces spasticity.
Reduces muscle spasm.
Reduces swelling.
Promote repair of the damaged tissues.
Provide excitatory stimulus to inhibited muscles.
Reduction of Pain
Pain reduction is one of the major effects of ice
application which has been used for many years.
The probable mechanism is that by the stimulation
of cold receptors, impulses will be send back which
will pass into the posterior root of the spinal cord.
These impulses, arriving through large diameter
nerves, effectively block out any other (pain)
impulses attempting to access the spinal cord (pain
gate theory).
This reduces the pain temporarily. For permanent
pain relief, positive physiotherapy (strengthening,
mobilization) has to be given during this period of
Pain reduction is one of the major effects of ice
application which has been used for many years.
The probable mechanism is that by the stimulation
of cold receptors, impulses will be send back which
will pass into the posterior root of the spinal cord.
These impulses, arriving through large diameter
nerves, effectively block out any other (pain)
impulses attempting to access the spinal cord (pain
gate theory).
This reduces the pain temporarily. For permanent
pain relief, positive physiotherapy (strengthening,
mobilization) has to be given during this period of
Reduction of Spasticity
Spasticity is the pathological state of increased
muscle tone resulting from damage to the upper
motor neurons. The small anterior horn cell from
the higher control of extrapyramidal system and
fires spontaneously at an increased rate. The net
result of this is ultimately to increase tone in the
extrafusal muscle fibers, when the hypertonic
spastic state appears.
Spasticity is the pathological state of increased
muscle tone resulting from damage to the upper
motor neurons. The small anterior horn cell from
the higher control of extrapyramidal system and
fires spontaneously at an increased rate. The net
result of this is ultimately to increase tone in the
extrafusal muscle fibers, when the hypertonic
spastic state appears.
Spasm is a normal response to injury or pain and is
manifested as an increase in muscle tone in a
specific area with the apparent aim of limiting
movement and further damage. However the
amount of spasm is often exceeding and the
sustained contraction of muscles will in turn start to
produce pain, often resulting then in more spasm.
manifested as an increase in muscle tone in a
specific area with the apparent aim of limiting
movement and further damage. However the
amount of spasm is often exceeding and the
sustained contraction of muscles will in turn start to
produce pain, often resulting then in more spasm.
The mechanisms by which cold reduces spasticity
and spasm are probably:
the reduced velocity of nerve conduction.
the depressed sensitivity of receptors such as the
muscle spindle.
and spasm are probably:
the reduced velocity of nerve conduction.
the depressed sensitivity of receptors such as the
muscle spindle.
These structures are fairly deep and it would take
several minutes to produce a sufficiently low
temperature to affect them.
As it was clinically demonstrated that the reduction
of spasm and spasticity occurs within 30 seconds of
ice application, the reaction to cooling can only be
at the superficial tissues at the skin.
The skin stimulus produced by cold must have an
effect on the general level of excitation and
inhibition in the region of the anterior horn cells.
Once spasm and spasticity have been reduced,
more long-time treatment is given in order to
several minutes to produce a sufficiently low
temperature to affect them.
As it was clinically demonstrated that the reduction
of spasm and spasticity occurs within 30 seconds of
ice application, the reaction to cooling can only be
at the superficial tissues at the skin.
The skin stimulus produced by cold must have an
effect on the general level of excitation and
inhibition in the region of the anterior horn cells.
Once spasm and spasticity have been reduced,
more long-time treatment is given in order to
Techniques of Application of
Cryotherapy
The way which ice is applied will vary according to
the required effects.
It may be applied in the following ways:
Ice towels
Ice packs
Immersion
Ice cube massage
Excitatory cold ( quick ice)
Ice spray
Cold gel
Cryotherapy
The way which ice is applied will vary according to
the required effects.
It may be applied in the following ways:
Ice towels
Ice packs
Immersion
Ice cube massage
Excitatory cold ( quick ice)
Ice spray
Cold gel
D. Contraindications to Ice
Treatment:
Cardiac Conditions
Psychological:
Peripheral Nerve Injuries
Vasospastic Disease
Peripheral Vascular Disease
Cold Sensitivity
Treatment:
Cardiac Conditions
Psychological:
Peripheral Nerve Injuries
Vasospastic Disease
Peripheral Vascular Disease
Cold Sensitivity
Cryotherapy:
Physiologic Effects of Tissue
Cooling
General agreement that cold should be initial
treatment for musculoskeletal injuries
Primary reason is to lower temperature in injured area
reduces metabolic rate with a corresponding
decrease in production of metabolites and metabolic
heat (secondary hypoxic response)
More effective when combined with compression
Promotes vasoconstriction and helps to control
hemorrhaging and edema
Physiologic Effects of Tissue
Cooling
General agreement that cold should be initial
treatment for musculoskeletal injuries
Primary reason is to lower temperature in injured area
reduces metabolic rate with a corresponding
decrease in production of metabolites and metabolic
heat (secondary hypoxic response)
More effective when combined with compression
Promotes vasoconstriction and helps to control
hemorrhaging and edema
Cryotherapy:
Physiologic Effects of Tissue
Cooling
Used immediately after injury to decrease pain and
muscle spasm
Result of decreased nerve conduction velocity
Cold stimulus bombards sensory receptors resulting in
pain modulation through gate control
Effective in treating myofascial pain
Effective in treating acute muscle pain as opposed
to delayed onset muscle soreness
Physiologic Effects of Tissue
Cooling
Used immediately after injury to decrease pain and
muscle spasm
Result of decreased nerve conduction velocity
Cold stimulus bombards sensory receptors resulting in
pain modulation through gate control
Effective in treating myofascial pain
Effective in treating acute muscle pain as opposed
to delayed onset muscle soreness
Cryotherapy:
Physiologic Effects of Tissue
Cooling
Reduction in muscle guarding has been observed
clinically
Initial reaction of body to cold is local
vasoconstriction
Results in decreased nutrient and phagocyte delivery to
area
Hunting Response
Periods of vasodilation and constriction following
prolonged cold application to limit possible tissue
injury due to cold use
Physiologic Effects of Tissue
Cooling
Reduction in muscle guarding has been observed
clinically
Initial reaction of body to cold is local
vasoconstriction
Results in decreased nutrient and phagocyte delivery to
area
Hunting Response
Periods of vasodilation and constriction following
prolonged cold application to limit possible tissue
injury due to cold use
Cryotherapy:
Physiologic Effects of Tissue
Cooling
Cooling for too long may be detrimental to healing
Ice application for 20 min. = decreased muscle
blood flow
However, effects of ice application diminishes with
increased tissue depth
Length of cooling required is dependent on
subcutaneous tissue thickness
Recommended treatment times = 5-45 minutes
Physiologic Effects of Tissue
Cooling
Cooling for too long may be detrimental to healing
Ice application for 20 min. = decreased muscle
blood flow
However, effects of ice application diminishes with
increased tissue depth
Length of cooling required is dependent on
subcutaneous tissue thickness
Recommended treatment times = 5-45 minutes
Cryotherapy:
Physiologic Effects of Tissue
Cooling
Ability to lower tissue temperature is dependent
upon:
Type of cold applied to the skin
Thickness of subcutaneous fat
Region of the body
Physiologic Effects of Tissue
Cooling
Ability to lower tissue temperature is dependent
upon:
Type of cold applied to the skin
Thickness of subcutaneous fat
Region of the body
Cryotherapy:
Physiologic Effects of Tissue
Cooling
Cold application results in:
Decreased cell permeability and metabolism
Decreased edema accumulation
Should be continued in 5-45 minute applications
for up to 72 hours initially
Physiologic Effects of Tissue
Cooling
Cold application results in:
Decreased cell permeability and metabolism
Decreased edema accumulation
Should be continued in 5-45 minute applications
for up to 72 hours initially
Cryotherapy Techniques
Cryotherapy
techniques include
Ice massage
Cold packs
Ice packs
Cold whirlpool
Cold spray
Contrast baths
Ice immersion
Cryo-cuff
Cryokinetics
Cryotherapy
techniques include
Ice massage
Cold packs
Ice packs
Cold whirlpool
Cold spray
Contrast baths
Ice immersion
Cryo-cuff
Cryokinetics
Cryotherapy Techniques
Application of cryotherapy produces a three-to
four-stage sensation
Uncomfortable sensation of cold
Stinging
Burning or aching feeling
Numbness
Caution should be exercised when applying intense
cold directly to the skin
Application of cryotherapy produces a three-to
four-stage sensation
Uncomfortable sensation of cold
Stinging
Burning or aching feeling
Numbness
Caution should be exercised when applying intense
cold directly to the skin
Ice Massage
Often indicated with
conditions requiring
stretching
Appears to cool area
faster than ice bag
application
Procedures:
Remove top 2/3 of
paper or styrofoam
cupleaving 1”on
bottom of cup as
Often indicated with
conditions requiring
stretching
Appears to cool area
faster than ice bag
application
Procedures:
Remove top 2/3 of
paper or styrofoam
cupleaving 1”on
bottom of cup as
Commercial Cold Packs
Indicated for acute
musculoskeletal
injuries
Procedures
Cold pack should be
placed against
wet toweling and
covered with a towel
to limit environmental
warming
Mold cold pack
around joint
Indicated for acute
musculoskeletal
injuries
Procedures
Cold pack should be
placed against
wet toweling and
covered with a towel
to limit environmental
warming
Mold cold pack
around joint
Ice Packs
Indicated for acute injuries and
prevention of swelling following
exercise of injured area
Procedures:
Flaked or cubed ice in a plastic bag large
enough for the area to be treated
Applied directly to skin and held in place
by a moist or dry elastic wrap
Can be molded to body part
Indicated for acute injuries and
prevention of swelling following
exercise of injured area
Procedures:
Flaked or cubed ice in a plastic bag large
enough for the area to be treated
Applied directly to skin and held in place
by a moist or dry elastic wrap
Can be molded to body part
Cold Whirlpool
Indicated in acute and sub-acute situations where
exercise in cold environment is desired
Must be mindful of gravity dependent position
Procedures
Fill appropriate size whirlpool with cold water and
flaked ice with temp. at 50°to 60°F
Use for massaging action
Indicated in acute and sub-acute situations where
exercise in cold environment is desired
Must be mindful of gravity dependent position
Procedures
Fill appropriate size whirlpool with cold water and
flaked ice with temp. at 50°to 60°F
Use for massaging action
Most intense application of cryotherapy
Inability to develop thermopane (insulating layer of water)
due to water turbulence
Convection provides for continuous circulation of cold
water
Results in significantly longer periods of temp. reduction
following treatment
Additional care must be used with total body immersion
With increased treatment area systemic effects are possible
Equipment maintenance and cleaning are critical
Inability to develop thermopane (insulating layer of water)
due to water turbulence
Convection provides for continuous circulation of cold
water
Results in significantly longer periods of temp. reduction
following treatment
Additional care must be used with total body immersion
With increased treatment area systemic effects are possible
Equipment maintenance and cleaning are critical
Cold Spray and Stretch
Flourimethane is used
Acts as a counterirritant to block pain
Cooling is superficial without significant penetration
Useful in treating trigger points
Not effective in treating edema or hemorrhaging
Indicated in situations where cooling and stretching
are desired
Flourimethane is used
Acts as a counterirritant to block pain
Cooling is superficial without significant penetration
Useful in treating trigger points
Not effective in treating edema or hemorrhaging
Indicated in situations where cooling and stretching
are desired
Procedure
Spraying technique
Same direction, even sweeps
Work proximal to distal
For trigger points, work from point to referred pain area
Affected muscles should be sprayed from the affected area
to the insertion
Static stretching can be incorporated as you spray
Spraying technique
Same direction, even sweeps
Work proximal to distal
For trigger points, work from point to referred pain area
Affected muscles should be sprayed from the affected area
to the insertion
Static stretching can be incorporated as you spray
Contrast Baths
Used to treat subacute swelling
Does not reduce edema through “pumping”
action as suggested
Uses alternating hot (104-106o) and cold (50-
60o) immersions
3:1 or 4:1 heat:cold ratios have been
recommended
Best used as a transition from cold to heat
Used to treat subacute swelling
Does not reduce edema through “pumping”
action as suggested
Uses alternating hot (104-106o) and cold (50-
60o) immersions
3:1 or 4:1 heat:cold ratios have been
recommended
Best used as a transition from cold to heat
Cold Compression Units:
Cryo-cuff
Used both acutely
following injury and
post-surgically
Applies both cold and
compression
simultaneously
Ice chills water which
flows into sleeve from
cooler
As cooler is raised
pressure in cuff is
Cryo-cuff
Used both acutely
following injury and
post-surgically
Applies both cold and
compression
simultaneously
Ice chills water which
flows into sleeve from
cooler
As cooler is raised
pressure in cuff is
Cryokinetics
Combines cryotherapy with exercise
Goal is to numb injured part (12-20 min) then work
toward achieving normal ROM through progressive
active exercise
Numbness usually last for 3-5 min. at which point
ice is reapplied for 3-5 minutes until numbness
returns
Can be repeated five times
Exercises should be pain free and progressive in
intensity concentrating on both flexibility and
strength
Combines cryotherapy with exercise
Goal is to numb injured part (12-20 min) then work
toward achieving normal ROM through progressive
active exercise
Numbness usually last for 3-5 min. at which point
ice is reapplied for 3-5 minutes until numbness
returns
Can be repeated five times
Exercises should be pain free and progressive in
intensity concentrating on both flexibility and
strength
Ice Immersion
Ice buckets allow ease
of application (50-
60o)
Container should be
large enough to allow
for movement of body
segment if being used
for cryokinetics
Body segment is
subject to gravity-
dependent positions
Ice buckets allow ease
of application (50-
60o)
Container should be
large enough to allow
for movement of body
segment if being used
for cryokinetics
Body segment is
subject to gravity-
dependent positions
Warm Whirlpool
Temperature Range
Upper Extremity 98°-
110°F
Lower Extremity 98-
104°F
Full body 98°-102°
F
Time of application
should be 15 to 20
minutes
Caution is indicated
Temperature Range
Upper Extremity 98°-
110°F
Lower Extremity 98-
104°F
Full body 98°-102°
F
Time of application
should be 15 to 20
minutes
Caution is indicated
Warm Whirlpool
Provides massaging effect and will stimulate
circulation
Monitor for changes in edema
Excellent post-surgical modality
Increases systemic blood flow and mobilization of
body part
Also noted to be one of the most abused clinical
modalities
Provides massaging effect and will stimulate
circulation
Monitor for changes in edema
Excellent post-surgical modality
Increases systemic blood flow and mobilization of
body part
Also noted to be one of the most abused clinical
modalities
Summary
Indications for Cryotherapy
Acute or subacute
inflammation
Acute pain
Chronic pain
Acute swelling
Myofascial trigger
points
Muscle guarding
Muscle spasm
Acute muscle strain
Acute ligament sprain
Acute contusion
Bursitis
Tenosynovitis
Tendinitis
Delayed onset muscle
soreness
Indications for Cryotherapy
Acute or subacute
inflammation
Acute pain
Chronic pain
Acute swelling
Myofascial trigger
points
Muscle guarding
Muscle spasm
Acute muscle strain
Acute ligament sprain
Acute contusion
Bursitis
Tenosynovitis
Tendinitis
Delayed onset muscle
soreness
Summary
Contraindications for
Cryotherapy
Impaired circulation
Peripheral vascular
disease
Hypersensitivity to
cold
Skin anesthesia
Open wounds or skin
conditions (cold
whirlpools and
contrast baths)
Infection
Contraindications for
Cryotherapy
Impaired circulation
Peripheral vascular
disease
Hypersensitivity to
cold
Skin anesthesia
Open wounds or skin
conditions (cold
whirlpools and
contrast baths)
Infection
Physiology Basics
Vasodilation
Increased size of vascular structures
Means more oxygen to the tissue
Vasoconstriction
Decreased size of vascular structures
Useful for preserving compromised/injured cells/tissue
Vasodilation
Increased size of vascular structures
Means more oxygen to the tissue
Vasoconstriction
Decreased size of vascular structures
Useful for preserving compromised/injured cells/tissue
Physiology Basics
Analgesia
Diminished/reduced sensation
Metabolic rate
Activity level of cells
Reducing MR can preserve cells damaged by injury
Inflammation
Series of events that hinder optimal function
Analgesia
Diminished/reduced sensation
Metabolic rate
Activity level of cells
Reducing MR can preserve cells damaged by injury
Inflammation
Series of events that hinder optimal function
Modalities
Alter cell metabolism
Each 1.8°F (1°C) change in tissue temp. results in a
13% or in the tissue’s metabolic rate.
Energy absorbed by one tissue later can’t be
transmitted to deeper layers.
Law of Grotthus-Draper
The more energy absorbed by superficial tissues the
amount absorbed by deeper tissue.
Alter cell metabolism
Each 1.8°F (1°C) change in tissue temp. results in a
13% or in the tissue’s metabolic rate.
Energy absorbed by one tissue later can’t be
transmitted to deeper layers.
Law of Grotthus-Draper
The more energy absorbed by superficial tissues the
amount absorbed by deeper tissue.
Cryotherapy –Cold Therapy
Cold modalities range in temp. between 32°F-65°F
Heat is removed from the body & absorbed by the
cold modality
Tissue temperature is LOWERED
To obtain therapeutic benefits, the skin temp. must
be lowered to approx. 57°F.
Cold therapy applied is thought to activate a
mechanism used to conserve heat in the body’s core
This mechanism triggers a series of metabolic &
vascular events that produce the beneficial effects of
cryotherapy.
Can be used during all stages of healing
Cold modalities range in temp. between 32°F-65°F
Heat is removed from the body & absorbed by the
cold modality
Tissue temperature is LOWERED
To obtain therapeutic benefits, the skin temp. must
be lowered to approx. 57°F.
Cold therapy applied is thought to activate a
mechanism used to conserve heat in the body’s core
This mechanism triggers a series of metabolic &
vascular events that produce the beneficial effects of
cryotherapy.
Can be used during all stages of healing
Cryotherapy
Normal skin temp. is approx. 91°F
The deeper the tissue in the body, the higher the temp.
Skin is cooler than adipose which is cooler than
muscular tissue.
Thermoreceptors in skin are responsive to heat or
cold (more to cold than heat).
Normal skin temp. is approx. 91°F
The deeper the tissue in the body, the higher the temp.
Skin is cooler than adipose which is cooler than
muscular tissue.
Thermoreceptors in skin are responsive to heat or
cold (more to cold than heat).
Sensations with Cold
Application
Cold
Burning
Aching
Analgesia (absence of pain)
of n. conduction velocity & threshold are required
to fire the nerve(s).
Application
Cold
Burning
Aching
Analgesia (absence of pain)
of n. conduction velocity & threshold are required
to fire the nerve(s).
Cryotherapy Indications
Acute injury or inflammation
Pain
Muscle spasm, acute or chronic
Restoration of ROM
Small, superficial, 1st degree burns
Post-surgical pain & edema
Neuralgia
Post-exercise
Acute injury or inflammation
Pain
Muscle spasm, acute or chronic
Restoration of ROM
Small, superficial, 1st degree burns
Post-surgical pain & edema
Neuralgia
Post-exercise
Cryotherapy Contraindications
Situations where the
body is unable to cope
with temp. change
because of allergy,
hypersensitivity, or
circulatory
insufficiency
Cardiac or respiratory
involvement
Uncovered open
wounds
Circulatory
insufficiency
Cold allergy
Anesthetic skin
Advanced diabetes
Raynaud’s
phenomenon or other
Peripheral Vascular
Disease
Situations where the
body is unable to cope
with temp. change
because of allergy,
hypersensitivity, or
circulatory
insufficiency
Cardiac or respiratory
involvement
Uncovered open
wounds
Circulatory
insufficiency
Cold allergy
Anesthetic skin
Advanced diabetes
Raynaud’s
phenomenon or other
Peripheral Vascular
Disease
Local Effects of Cryotherapy
cell metabolism rate –PRIMARY BENEFIT
need for oxygen
Lowers tissue temperature
Vasoconstriction
production of cellular wastes
Prevents or limits swelling
in pain by pain threshold
in acute & chronic muscle spasm
Limits area of original injury
cell metabolism rate –PRIMARY BENEFIT
need for oxygen
Lowers tissue temperature
Vasoconstriction
production of cellular wastes
Prevents or limits swelling
in pain by pain threshold
in acute & chronic muscle spasm
Limits area of original injury
Deeper tissues cool more slowly & to a lesser
extent than skin
Muscle tissue requires longer to cool than bony areas
Deeper tissue temps. have been proven to drop for
several minutes following the removal of an ice pack
Research has shown that deeper tissues remaining at
rest will be cooled for 2 hr or more after a 20-to 30-
min. ice pack application
The cold modality will continue to remove body
heat until temps. are (=).
extent than skin
Muscle tissue requires longer to cool than bony areas
Deeper tissue temps. have been proven to drop for
several minutes following the removal of an ice pack
Research has shown that deeper tissues remaining at
rest will be cooled for 2 hr or more after a 20-to 30-
min. ice pack application
The cold modality will continue to remove body
heat until temps. are (=).
Precautions
Take into consideration the amount of pain that
occurs during exercise after cold has been applied
Be careful when applying an elastic wrap over a
cold pack over superficial nerves (Nerve Palsy)
Uticaria –hives
Take into consideration the amount of pain that
occurs during exercise after cold has been applied
Be careful when applying an elastic wrap over a
cold pack over superficial nerves (Nerve Palsy)
Uticaria –hives
Cellular Response
cellular metabolic rate
During a 20-min. treatment, cell metabolism 19%
With b. flow, there is less metabolic activity &
O2 demand on the cells
need for O2
Reduces number of cells killed by lack of O2
Reduces secondary hypoxic injury damage
Reduces amount of chemical mediators released in
area
Slows nerve conduction
cellular metabolic rate
During a 20-min. treatment, cell metabolism 19%
With b. flow, there is less metabolic activity &
O2 demand on the cells
need for O2
Reduces number of cells killed by lack of O2
Reduces secondary hypoxic injury damage
Reduces amount of chemical mediators released in
area
Slows nerve conduction
Vascular Responses
Vasoconstriction occurs due to stimulation of n.
receptors
Viscosity of blood & tissue fluids
Resistance to b. flow
Soft tissue of 26% & skeletal b. flow of 19% with
20-min. ice pack in injured ankles
Amount of b. flow is still under debate
Most studies indicate that b. flow
Because of effects associated with rubbing the skin,
IM may b. flow, at least to the skin
Vasoconstriction occurs due to stimulation of n.
receptors
Viscosity of blood & tissue fluids
Resistance to b. flow
Soft tissue of 26% & skeletal b. flow of 19% with
20-min. ice pack in injured ankles
Amount of b. flow is still under debate
Most studies indicate that b. flow
Because of effects associated with rubbing the skin,
IM may b. flow, at least to the skin
Tissue Temperature Changes
57°F skin temp. –optimal decrease in local blood
flow
58°F skin temp. –analgesia occurs
Temp. within the joint decreases proportionally to
temp. of skin overlying a joint decreases
Temp. changes most rapidly in skin & synovium
57°F skin temp. –optimal decrease in local blood
flow
58°F skin temp. –analgesia occurs
Temp. within the joint decreases proportionally to
temp. of skin overlying a joint decreases
Temp. changes most rapidly in skin & synovium
Muscle Spasm
Cold therapy affects pain threshold
nerve conduction velocity by slowing
communication at the synapse
pain by reducing the threshold of afferent n. endings.
sensitivity of m. spindles
May inhibit the stretch reflex mechanism reducing m.
spasm & breaking pain-spasm cycle
Cold therapy affects pain threshold
nerve conduction velocity by slowing
communication at the synapse
pain by reducing the threshold of afferent n. endings.
sensitivity of m. spindles
May inhibit the stretch reflex mechanism reducing m.
spasm & breaking pain-spasm cycle
Inflammation
Changes in cellular function & blood dynamics
serve to control effects of acute inflammation.
Cold suppresses the inflammatory response by:
the release of inflammatory mediators (histamine,
prostaglandin)
prostaglandin synthesis
capillary permeability
leukocyte/endothelial interaction
creatine-kinase activity
Changes in cellular function & blood dynamics
serve to control effects of acute inflammation.
Cold suppresses the inflammatory response by:
the release of inflammatory mediators (histamine,
prostaglandin)
prostaglandin synthesis
capillary permeability
leukocyte/endothelial interaction
creatine-kinase activity
Pain Control
Cold therapy acts as a counterirritant
Cold application affects pain perception &
transmission by:
Interrupting pain transmission (stimulates large-
diameter A-beta n. fibers)
Decreasing n. conduction velocity
Reducing m. spasm
Reducing or limiting edema
Cold therapy acts as a counterirritant
Cold application affects pain perception &
transmission by:
Interrupting pain transmission (stimulates large-
diameter A-beta n. fibers)
Decreasing n. conduction velocity
Reducing m. spasm
Reducing or limiting edema
Systemic Effects of Cold
Exposure
If circulating blood temp. 0.2°F, then the
hypothalamus (body’s thermoregulatory center)
kicks in
General vasoconstriction in response to cooling of
the posterior hypothalamus
Decreased respiratory & heart rates
Heart rate (wants to localize the cold area)
Shivering & increased muscle tone
If heart rate too much where the core temp. reaches
hypothermia
Exposure
If circulating blood temp. 0.2°F, then the
hypothalamus (body’s thermoregulatory center)
kicks in
General vasoconstriction in response to cooling of
the posterior hypothalamus
Decreased respiratory & heart rates
Heart rate (wants to localize the cold area)
Shivering & increased muscle tone
If heart rate too much where the core temp. reaches
hypothermia
Application of Cryotherapy
Ice Massage: Should not be applied during acute inflammatory stage as it’s not compatible
with compression
5-15 mins. –reduces pain, desensitizes trigger points
Vigorous Ice Massage
Ice Pack: type of ice –cubed, flaked
Commercial Cold Packs: chemical, reusable (Gel)
Be aware of frostbite; use insulating layer in between
Cryo-cuff/Polar Care: provide approx. 40 mm Hg
Cold Water Immersion:
Ice bucket: 40 °-50°F
Whirlpool: 50 °-60°F
Vapocoolant Spray: superficial, rapid cooling through evaporation; virtually no temperature
change below epidermis; will numb area briefly (trigger points)
Intermittent Compression: Segmental compression with cold
Ice Massage: Should not be applied during acute inflammatory stage as it’s not compatible
with compression
5-15 mins. –reduces pain, desensitizes trigger points
Vigorous Ice Massage
Ice Pack: type of ice –cubed, flaked
Commercial Cold Packs: chemical, reusable (Gel)
Be aware of frostbite; use insulating layer in between
Cryo-cuff/Polar Care: provide approx. 40 mm Hg
Cold Water Immersion:
Ice bucket: 40 °-50°F
Whirlpool: 50 °-60°F
Vapocoolant Spray: superficial, rapid cooling through evaporation; virtually no temperature
change below epidermis; will numb area briefly (trigger points)
Intermittent Compression: Segmental compression with cold
Cryotherapy
Duration usually15-30 mins. Don’t apply for more
than 60 minutes!
Depends on skinfold thickness
Ice with compression –affects deeper tissues
Compression encourages lymphatic drainage
Circumferential: compression around entire area (ace wrap)
Collateral: compression on both sides (aircast, gelcast)
Focal: direct pressure to soft tissue surrounded by bony
structure (horseshoe)
Cooling of tissue: rapid at first, then slows, then
levels off
Skin reactions:
Duration usually15-30 mins. Don’t apply for more
than 60 minutes!
Depends on skinfold thickness
Ice with compression –affects deeper tissues
Compression encourages lymphatic drainage
Circumferential: compression around entire area (ace wrap)
Collateral: compression on both sides (aircast, gelcast)
Focal: direct pressure to soft tissue surrounded by bony
structure (horseshoe)
Cooling of tissue: rapid at first, then slows, then
levels off
Skin reactions:
Cryokinetics for Sub-Acute
Injury Stage
Alternating cold therapy with exercise
Use good judgment! Do not cause further harm!
Place cryotherapy to body part for approx. 20 min.
(analgesia feeling)
Remove cryotherapy & begin active exercise
Place cryotherapy back on body part once
feeling/pain returns
Repeat
Injury Stage
Alternating cold therapy with exercise
Use good judgment! Do not cause further harm!
Place cryotherapy to body part for approx. 20 min.
(analgesia feeling)
Remove cryotherapy & begin active exercise
Place cryotherapy back on body part once
feeling/pain returns
Repeat
Hunting Response
1930’s ; Lewis performed skin studies with
temperature change during cold treatments.
When the fingers were immersed in cold water,
alternating periods of cooling & warming were seen in
the skin.
Thoughts were that intermittent cold-induced
vasodilation (CIVD) lasting 4-6 min. after
approximately 30 min. of cryotherapy application (p.
109)
Stated that it prevented local tissue injury
Today’s researchers state that CIVD does not occur
during standard cryotherapy sessions.
1930’s ; Lewis performed skin studies with
temperature change during cold treatments.
When the fingers were immersed in cold water,
alternating periods of cooling & warming were seen in
the skin.
Thoughts were that intermittent cold-induced
vasodilation (CIVD) lasting 4-6 min. after
approximately 30 min. of cryotherapy application (p.
109)
Stated that it prevented local tissue injury
Today’s researchers state that CIVD does not occur
during standard cryotherapy sessions.
Cryotherapy (Ice)
Application
Ice massage
7-10 minutes
Excellent for muscle spasm and deep soreness
Application
Ice massage
7-10 minutes
Excellent for muscle spasm and deep soreness
Cryotherapy (Ice)
Application
Ice bags, ice towels, or
cold packs
15-20 minutes (no
longer than 30)
If using packs, be sure
to avoid direct contact
to protect skin!
Cold whirlpool / ice
immersion
5-15 minutes, 55-65
degrees
Duration and
temperature depends
Application
Ice bags, ice towels, or
cold packs
15-20 minutes (no
longer than 30)
If using packs, be sure
to avoid direct contact
to protect skin!
Cold whirlpool / ice
immersion
5-15 minutes, 55-65
degrees
Duration and
temperature depends
Ice Pack
Chemical Cold Pack
Reusable Gel Pack
Cryo-cuff
Ice Bucket
Fluori-methane Cold Whirlpool
Ice Massage
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