Physical Agents In Rehab- Cryotherapy PDF

Summary

This document provides an overview of cryotherapy techniques, encompassing various applications, effects, and considerations. The text explains different cooling methods, physiological impacts including effects on vascular system, neural responses, and metabolic processes. Importantly, it also discusses the indications for cryotherapy.

Full Transcript

PHYSICAL AGENTS IN
REHAB
CRYOTHERAPY
CRYOTHERAPY
Learning outcomes
The student should be able to:
Describe the different methods of cooling
Explain the factors that influence the magnitude of
temperature reduction with ice application
Explain the physiological effects of cryotherapy
 Explain the indications for cryotherapy
Outline the procedures for application of ice therapy
Demonstrate the safe and effective application of
cryotherapy given a patient case
CRYOTHERAPY
Cryotherapy is the local or systemic application of cold
for diagnostic or therapeutic purposes.

Methods of Cooling
Convective eg use of an electric fan
Evaporative- The use of volatile fluids such as ethyl chloride
and chlorofluoromethane
Conductive cooling- eg ice packs, frozen gel packs, iced towels
and ice cubes
continued
Conductive cooling is the most common
method.
Heat is conducted away from the tissues.

The magnitude of the temperature change
produced in the tissues depend on:
The temperature difference between the object and
the tissue
The time of exposure
The thermal conductivity of the area being cooled
The type of cooling agent
Vascular supply
continued
The temperature gradient
The greater the gradient, the greater the tissue
temperature reduction
The duration of exposure
Related to the depth of tissue
The deeper the tissue, the longer the time
required to reduce its temperature.
Temperature of muscle at 4 cm can be lowered
by 3.5 degrees with 30 minutes of ice pack.
continued
Thermal conductivity
Tissues with high water content such as
muscle have a better thermal conductivity
than fat.
The amount of fat may influence how much
and how fast muscle can be cooled and
returned to its original temperature.
Muscle at 2 cm can show temp reduction of 2
deg C after 10 minutes if covered by 1 cm of
fat. If fat layer is thicker, 30 minutes may be
required

Vascular supply
Cooling enhanced in areas with poor blood
supply as vasoconstriction reduces loss of
 Type of cooling agent
Ice packs produce greater temperature
reduction compared to cold water baths and
gel packs.

Vapocoolant spray reduces skin temperature
quickly to 15 degrees without change in deep
tissue temp
Physiological Effects
Vascular
Immediate vasoconstriction of cutaneous
blood vessels with reduction of blood flow
Due to reflex action and the effect of cold on
smooth muscles.
Vasoconstriction lasts for 10-30 mins
Increased viscosity of blood

Liberation of histamine-like substance occurs
resulting in vasodilation when cold application
is intense- 10 deg C (Hunting response).
This follows initial vasoconstriction
 Thus vasodilation follows vasoconstriction and lasts
for 4-6 mins. This removes the H substance.
Cycles of vasoconstriction and vasodilation occur at
15-30 min intervals

Overall net effect is still reduction in temperature and
circulation
Physiological effects continued
Metabolic effects
Metabolic rate decreases with cooling.
Less demand for oxygen and nutrients and
less production of metabolic waste.
Slow metabolic rate can contribute to
retardation of the healing process.

Inflammatory process may be modified
Influenced by intensity and duration of cold
application
 continued
Neural effects
Reduction of conduction velocity of peripheral
nerves (sensory and motor).
Can occur to the point where nerves fail to
conduct.
Magnitude of change depends on the duration and
degree of temperature change
“A” fibers are blocked (at 12 degree C) before “C”
fibers
Gamma fibers are blocked before alpha fibers
To block C fibers temp should be close to 0 degree
Blocking of synaptic transmission also occurs at 15
degree celsius
Contd.
At temperatures near freezing-all sensory
neuron activity ceases

Sensations felt on application of cold are:
cold
painfully cold
less cold
burning
numbness
then anaesthesia
 Longer application of cold (e.g. 20 mins) can decrease
motor nerve conduction velocity
Muscle performance can be affected.
continued
Effect on swelling
Cold lessens the filtration rate of fluid into the
interstitium due to the vasoconstriction
Neuromuscular effects
Direct cooling of muscle results in a decrease
in discharge of muscle spindle afferents and
decrease in gamma motor neuron activity
through cutaneous stimulation.
Spasticity reduction
continued
Long duration cold application (15-30 minutes)
decreases muscle temperature, associated with
decrease in muscle strength.
Reduction in muscle blood flow and increase in
viscous properties at 10 degrees

Short duration application (1-2 mins) has
facilitatory effect on alpha motor neuron
continued
Tissue damage
Tissue damage may occur depending on
the duration and intensity of cold
application.

First degree- Red, inflamed, mild oedema
Second degree- Marked oedema, blisters
Third degree- Necrosis, blue skin color,
Fourth degree- gangrene and
neurological complications
Summary of Physiological
Effects
Decrease in circulation/vasoconsriction
Decrease in formation of exudate
Decrease in haemorrhage following trauma
Decrease in spasm and spasticity
Decrease in pain
Decreased metabolism
Decreased extensibility of tissue
Increased blood viscosity
Indications
Reduction of acute pain
slow nerve conduction velocity, counter-
irritant
Control of bleeding and swelling associated
with acute trauma, sprains, strains
vasoconstriction & increased blood viscosity
Treatment of acute burns-
reduce pain and blistering
Reduction of spasm
decrease nerve conduction velocity in muscle
spindle afferents
Indications continued
Reduction of spasticity- Decreased nerve
conduction velocity. Decrease firing of muscle
spindle afferents.
Cold may reduce spasticity for up to 90 mins.
Egs. Stroke, SCI, UMNL

Facilitation of motor responses
In patients with neurological involvement or
orthopaedic problems

Decrease inflammation and pain associated with
joint mobs, friction massage
Contraindications/Precautions
History of frostbite
Impaired circulation
Impaired sensation
Very old or very young
Sensitivity or allergy to cold
Before exercises
Before stretching
Raynaud’s disease
Allergic reaction to cold (cold urticaria)
contd
Open wounds
Over regenerating peripheral nerves
Dangers
Cold intolerance- severe pain, redness, cyanosis,
mottling
Burns
Hypertensive response
Frostbite- erythema, blistering, gangrene
Cold urticaria- allergic skin reaction
 Applications/techniques
Ice Towels
Comfortably position patient
Explain procedure
Check contraindications
Examine signs and symptoms
Examine skin for cuts, bruises, use of liniments
Check thermal and pain sensation
Protect clothing and bed linen
Test patient’s reaction to ice
Apply oil to skin
continued
Warn patient about the different sensations
Warn patient not to tolerate excessive burning
Place ice flakes and cold water in a container
Fold towel lengthwise and place in container
Remove, wring and place on patient
continued
Change towels every minute
Try to keep towels at same temperature (10-14 degrees)
Total treatment time 10-15 mins
Assess area and patient’s response
continued
Ice packs
Same preparation as for ice towels

Place ice chips in a moistened terry towel
Chips can also be placed in sealed plastic
bag
Mold pack to area ensuring even contact
Treat for 5-15 mins or 20-40 for deeper
muscle
For swelling- bandage ice pack to achieve
compression and elevation (RICE) (ICER)
continued
Cryogel packs
These are stored at temperature of -5 degrees
Should be refrigerated at least 2 hours before
use.
Should be wrapped in towel and placed on
patient’s skin
Secure with a strap
Treat for 10-15 mins

Chemical cold packs
A seal is broken which mixes and activates
chemicals. Single use.
Gel packs
continued
Ice immersion
Same preparation as for ice packs
Place part in container of water then place chips in
container
For pain and swelling- immerse part and
withdraw when there is discomfort and wipe.
Repeat up to 10 times

For spasticity- Immerse and leave for as long as
possible.
Shivering and hypothermia could increase
spasticity. Apply heat elsewhere to counteract
Total body immersion for 5-7 mins also possible
continued
Ice massage
Done for small localized area of pain and swelling
Use ice cube or ice lolly
Massage slowly with constant motion using firm
pressure
Do not allow any water to drip
Patient will experience sensation of burning,
aching, then numbness. Skin temp will not fall
below 15 deg
Treat for 5-10 mins
Ice massage modalities
continued
Ice for stimulation/ facilitation
Run ice quickly over muscle belly. 3-5 swipes
Follow immediately by asking patient to
contract muscle
There should be no dripping
Effect may be immediate or delayed (27-42
minutes)
Used for neurological disorders eg. Stroke and
peripheral nerve injuries
continued
Egs.
To facilitate swallowing and speech –use quick
icing over supra sternal notch
To facilitate knee extensors- ice over belly of
vastus medialis and lateralis
To facilitate dorsiflexion- Ice over tibialis anterior
To facilitate deep breathing- ice over trunk, T7-
T12
Techniques continued
Vapocoolant sprays
Position so that part is exposed and eyes
protected
Hold bottle in an inverted position, 18 inches
away from the skin and at a 30 degree angle
Spray entire length of muscle at a rate of 4
inches per second, with muscle in stretched
position. Repeat
Spraying should not exceed 6 seconds, to
avoid frostbite
Caution: Ethyl chloride spray bottle could
Vapocoolant sprays
contd
Cryocuff
Applies cold and compression together
Cuff, cooler and tube
Applied to shld, knee, foot, ankle, thigh and
calf
1 inch of elevation= 1.8mmHg pressure
Choice of agent
This depends on
1.Effects desired
Facilitation- quick icing
Oedema control- ice pack, cryocuff
2.Accessibility of body part
3. Size of area to be cooled
Foot - immersion
Knee - packs, cryocuff
Ankle - pack, immersion, cryocuff