Traction
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May 12, 2020
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About This Presentation
Traction: a basic physiotherapy modality used for inducing space between the joints. this slideshow deals with various types of traction and its application to cervical, thoracic and lumbar spine.
Slide Content
Traction
Radhika Chintamani
Radhika Chintamani
Contents
1.Definition
2.History
3.Types of Traction
4.Treatment application technique: Cervical,
Thoracic and Lumbar traction application
methods
1.Definition
2.History
3.Types of Traction
4.Treatment application technique: Cervical,
Thoracic and Lumbar traction application
methods
Definition•It is a mechanical force applied to the body so as to separate
the structures forming joint thus stretching the soft tissues
around it.
•Traction can be applied :
i.Manually by physiotherapist
ii.Mechanical device:
iii.Gravity assisted pull of human body
•It is a mechanical force applied to the body so as to separate
the structures forming joint thus stretching the soft tissues
around it.
•Traction can be applied :
i.Manually by physiotherapist
ii.Mechanical device:
iii.Gravity assisted pull of human body
the structures forming joint thus stretching the soft tissues
around it.
•Traction can be applied :
i.Manually by physiotherapist
ii.Mechanical device:
iii.Gravity assisted pull of human body
•It is a mechanical force applied to the body so as to separate
the structures forming joint thus stretching the soft tissues
around it.
•Traction can be applied :
i.Manually by physiotherapist
ii.Mechanical device:
iii.Gravity assisted pull of human body
History•Traction was given a ray of light in the principles of treatment
techniques by Dr. James Cyriax in the field of orthopedics.
•Traction was given a ray of light in the principles of treatment
techniques by Dr. James Cyriax in the field of orthopedics.
techniques by Dr. James Cyriax in the field of orthopedics.
•Traction was given a ray of light in the principles of treatment
techniques by Dr. James Cyriax in the field of orthopedics.
Types of Traction•Mechanical
•Self
•Positional
•Manual
•Mechanical
•Self
•Positional
•Manual
•Self
•Positional
•Manual
•Mechanical
•Self
•Positional
•Manual
Mechanical traction•Definition:
•These are further classified into:
•Definition:
•These are further classified into:Mechanical traction
Mechanical tractionMechanical traction
Mechanical tractionOver door cervical traction
Over door cervical tractionElectrical mechanical traction
Electrical mechanical traction Static traction
Static tractionIntermittent
traction
Intermittent
traction
•These are further classified into:
•Definition:
•These are further classified into:Mechanical traction
Mechanical tractionMechanical traction
Mechanical tractionOver door cervical traction
Over door cervical tractionElectrical mechanical traction
Electrical mechanical traction Static traction
Static tractionIntermittent
traction
Intermittent
traction
•Usually used in physiotherapy clinics
•Provides traction induced via motor to the body parts: Lumbar
and cervical via a belt/collar respectively.
•Allows fine and accurate control of force being applied to the
human body.
•Disadvantages:
-unable to achieve specific segment traction
-Subject needs to lie down for the traction •Usually used in physiotherapy clinics
•Provides traction induced via motor to the body parts: Lumbar
and cervical via a belt/collar respectively.
•Allows fine and accurate control of force being applied to the
human body.
•Disadvantages:
-unable to achieve specific segment traction
-Subject needs to lie down for the tractionElectrical mechanical traction
Electrical mechanical traction
•Provides traction induced via motor to the body parts: Lumbar
and cervical via a belt/collar respectively.
•Allows fine and accurate control of force being applied to the
human body.
•Disadvantages:
-unable to achieve specific segment traction
-Subject needs to lie down for the traction •Usually used in physiotherapy clinics
•Provides traction induced via motor to the body parts: Lumbar
and cervical via a belt/collar respectively.
•Allows fine and accurate control of force being applied to the
human body.
•Disadvantages:
-unable to achieve specific segment traction
-Subject needs to lie down for the tractionElectrical mechanical traction
Electrical mechanical traction
Electrical mechanical traction Electrical mechanical traction
Static Static•Amount of force doesn’t
change with the time and
remains same throughout
the session time
•Amount of force doesn’t
change with the time and
remains same throughout
the session timeIntermittent
Intermittent•Amount of force changes
with the time along with
hold time: traction on time
and relax time: traction off
time
•Amount of force changes
with the time along with
hold time: traction on time
and relax time: traction off
timeElectrical mechanical traction
Electrical mechanical traction
change with the time and
remains same throughout
the session time
•Amount of force doesn’t
change with the time and
remains same throughout
the session timeIntermittent
Intermittent•Amount of force changes
with the time along with
hold time: traction on time
and relax time: traction off
time
•Amount of force changes
with the time along with
hold time: traction on time
and relax time: traction off
timeElectrical mechanical traction
Electrical mechanical traction
•Only static cervical traction can be provided
•Subject is specifically in sitting position •Only static cervical traction can be provided
•Subject is specifically in sitting positionOver the door Cervical traction
Over the door Cervical traction
•Subject is specifically in sitting position •Only static cervical traction can be provided
•Subject is specifically in sitting positionOver the door Cervical traction
Over the door Cervical traction
•A form of traction using either gravity, towel or any belt delivered by the
subject on the subject itself.
•Advantages:
-Used for cervical as well as lumbar
-Inexpensive
-Less time consumed
-Intersegmental traction can be delivered
•Disadvantages:
-The effect of the mechanical traction is much more beneficial compared to
self traction •A form of traction using either gravity, towel or any belt delivered by the
subject on the subject itself.
•Advantages:
-Used for cervical as well as lumbar
-Inexpensive
-Less time consumed
-Intersegmental traction can be delivered
•Disadvantages:
-The effect of the mechanical traction is much more beneficial compared to
self traction Self traction
Self traction
subject on the subject itself.
•Advantages:
-Used for cervical as well as lumbar
-Inexpensive
-Less time consumed
-Intersegmental traction can be delivered
•Disadvantages:
-The effect of the mechanical traction is much more beneficial compared to
self traction •A form of traction using either gravity, towel or any belt delivered by the
subject on the subject itself.
•Advantages:
-Used for cervical as well as lumbar
-Inexpensive
-Less time consumed
-Intersegmental traction can be delivered
•Disadvantages:
-The effect of the mechanical traction is much more beneficial compared to
self traction Self traction
Self traction
Self traction Self traction
•Involves prolonged placement of the subject in certain position
such that position induced tension is generated giving the effect of
traction.
•Advantages:
-Effectively decrease muscle spasm by stretching soft tissues
-Inexpensive
•Disadvantages:
-The force induced during mechanical traction is much more
beneficial compared to positional traction •Involves prolonged placement of the subject in certain position
such that position induced tension is generated giving the effect of
traction.
•Advantages:
-Effectively decrease muscle spasm by stretching soft tissues
-Inexpensive
•Disadvantages:
-The force induced during mechanical traction is much more
beneficial compared to positional traction Positional traction
Positional traction
such that position induced tension is generated giving the effect of
traction.
•Advantages:
-Effectively decrease muscle spasm by stretching soft tissues
-Inexpensive
•Disadvantages:
-The force induced during mechanical traction is much more
beneficial compared to positional traction •Involves prolonged placement of the subject in certain position
such that position induced tension is generated giving the effect of
traction.
•Advantages:
-Effectively decrease muscle spasm by stretching soft tissues
-Inexpensive
•Disadvantages:
-The force induced during mechanical traction is much more
beneficial compared to positional traction Positional traction
Positional traction
Positional traction Positional traction
•Involves application of force manually using bear hands or belts so that traction is
induced either at particular region of spine or at intersegmental region respectively.
•Advantages:
-Effectively decrease muscle spasm by stretching soft tissues
-Inexpensive
-Traction can be delivered in pain free range
-Can be modified to all the level or specific level
•Disadvantages:
-The time of traction and force induced during mechanical traction is much more
beneficial compared to manual traction •Involves application of force manually using bear hands or belts so that traction is
induced either at particular region of spine or at intersegmental region respectively.
•Advantages:
-Effectively decrease muscle spasm by stretching soft tissues
-Inexpensive
-Traction can be delivered in pain free range
-Can be modified to all the level or specific level
•Disadvantages:
-The time of traction and force induced during mechanical traction is much more
beneficial compared to manual traction Manual traction
Manual traction
induced either at particular region of spine or at intersegmental region respectively.
•Advantages:
-Effectively decrease muscle spasm by stretching soft tissues
-Inexpensive
-Traction can be delivered in pain free range
-Can be modified to all the level or specific level
•Disadvantages:
-The time of traction and force induced during mechanical traction is much more
beneficial compared to manual traction •Involves application of force manually using bear hands or belts so that traction is
induced either at particular region of spine or at intersegmental region respectively.
•Advantages:
-Effectively decrease muscle spasm by stretching soft tissues
-Inexpensive
-Traction can be delivered in pain free range
-Can be modified to all the level or specific level
•Disadvantages:
-The time of traction and force induced during mechanical traction is much more
beneficial compared to manual traction Manual traction
Manual traction
Manual traction Manual traction
Cervical, Thoracic and Lumbar
Traction: Treatment application
Traction: Treatment application
•Application of longitudinal force to the cervical spine either
manually, mechanically or self methods- Demonstrated in pictures
•Points to remember during cervical traction application
mechanically:
•Force: starts with 15lbs, increases to 25lbs and never crosses 50lbs
•Level of traction varies with angle placement of cervical region
•Preferred position of subject: supineCervical traction
Cervical traction
manually, mechanically or self methods- Demonstrated in pictures
•Points to remember during cervical traction application
mechanically:
•Force: starts with 15lbs, increases to 25lbs and never crosses 50lbs
•Level of traction varies with angle placement of cervical region
•Preferred position of subject: supineCervical traction
Cervical traction
Cervical traction Cervical traction
•Has been linked to 5 mechanical factors:
1.Position of the neck
2.Force applied during traction
3.Duration of traction
4.Angle of pull
5.Position of subjectCervical traction
Cervical traction
1.Position of the neck
2.Force applied during traction
3.Duration of traction
4.Angle of pull
5.Position of subjectCervical traction
Cervical traction
1.Position of the neck:
•Different angles of neck induces traction at different levels.
The table is as follows:Cervical traction
Cervical traction
Position of neck Level of effect
Neutral Complete traction for entire
cervical region
25-30 degree flexion Straightens the cervical
lordosis
15 degree flexion Facet joint seperation
•Different angles of neck induces traction at different levels.
The table is as follows:Cervical traction
Cervical traction
Position of neck Level of effect
Neutral Complete traction for entire
cervical region
25-30 degree flexion Straightens the cervical
lordosis
15 degree flexion Facet joint seperation
2. Force applied during traction:
•Usually the force applied during traction starts from weight
divide by 5, but if the force is painful, then the force of
traction can be reduced.Cervical traction
Cervical traction
•Usually the force applied during traction starts from weight
divide by 5, but if the force is painful, then the force of
traction can be reduced.Cervical traction
Cervical traction
3. Duration of traction:
•Initially, acute condition first day: 2-3 minute preferred: non-
painful: continue for 10 minutes
•Maximum duration given: 10-15 minutes
•Intermittent traction:
•On: Off sequence= 3:1 or 4:1 ratioCervical traction
Cervical traction
•Initially, acute condition first day: 2-3 minute preferred: non-
painful: continue for 10 minutes
•Maximum duration given: 10-15 minutes
•Intermittent traction:
•On: Off sequence= 3:1 or 4:1 ratioCervical traction
Cervical traction
4.Angle of pull: Cervical traction
Cervical traction
Cervical traction
5. Position of subject:
•Preferred position supine: complete cervical traction in
relaxed position
•Sitting: antigravity tractionCervical traction
Cervical traction
•Preferred position supine: complete cervical traction in
relaxed position
•Sitting: antigravity tractionCervical traction
Cervical traction
Recommended parameters:Cervical traction
Cervical traction
Goals of treatmentForce applied Hold/Relax timeDuration
Initial/acute phase3-4 kg Static 5-10min
Joint distraction9-13 15seconds/
15seconds
20-30min
To Decrease
Muscle spasm
5-7 5seconds/
5seconds
20-30min
Disc prolapse 5-7 60seconds/
20seconds
20-30min
Cervical traction
Goals of treatmentForce applied Hold/Relax timeDuration
Initial/acute phase3-4 kg Static 5-10min
Joint distraction9-13 15seconds/
15seconds
20-30min
To Decrease
Muscle spasm
5-7 5seconds/
5seconds
20-30min
Disc prolapse 5-7 60seconds/
20seconds
20-30min
•There are basically four types of thoracic traction:
a.Compression extension traction
b.Thoracic flexion traction body weight
c.Thoracic traction fireman technique
d.Self thoracic tractionThoracic traction
Thoracic traction
a.Compression extension traction
b.Thoracic flexion traction body weight
c.Thoracic traction fireman technique
d.Self thoracic tractionThoracic traction
Thoracic traction
a.Compression extension traction
•Traction application that deals with supporting the spine in its ideal
(normal) position against the deformity/dysfunction of the spine.
•This helps in re-attainment of ideal posture.
•Compression extension traction is generally used for thoracic
kyphosis.
•While the subjects are undergoing compression extension traction,
the subject pushes her/his chest out while pulling their head and
neck backwards. This can be achieved by Denneroll.
•This results in compression of overextended areas of the spine
causing kyphosis and the extension of the neck and head results in
facilitation of proper “S” Curve.Thoracic traction
Thoracic traction
•Traction application that deals with supporting the spine in its ideal
(normal) position against the deformity/dysfunction of the spine.
•This helps in re-attainment of ideal posture.
•Compression extension traction is generally used for thoracic
kyphosis.
•While the subjects are undergoing compression extension traction,
the subject pushes her/his chest out while pulling their head and
neck backwards. This can be achieved by Denneroll.
•This results in compression of overextended areas of the spine
causing kyphosis and the extension of the neck and head results in
facilitation of proper “S” Curve.Thoracic traction
Thoracic traction
a.Compression extension tractionThoracic traction
Thoracic traction
Thoracic traction
b.Thoracic flexion traction body weight
•Traction application deals with pre stressing the upper
thoracic spine into kyphosis while the patient is in seated
cervical extension traction. Thoracic traction
Thoracic traction
•Traction application deals with pre stressing the upper
thoracic spine into kyphosis while the patient is in seated
cervical extension traction. Thoracic traction
Thoracic traction
b.Thoracic flexion traction body weightThoracic traction
Thoracic traction
Thoracic traction
c.Thoracic traction fireman technique
•Patient is asked to sit comfortable with hands crossed against
the chest and kept on the opposite shoulder. The therapist is
standing behind the subject in a minimal squat position and
grasping the subjects forearm by passing his/her (therapist’s
hand) under the axilla of subject, thus locking the spine. The
therapist gives downward pressure on the forearm directing
towards spine and elevating the subject by straightening his
knee. Thus the traction at thoracic spine is delivered.Thoracic traction
Thoracic traction
•Patient is asked to sit comfortable with hands crossed against
the chest and kept on the opposite shoulder. The therapist is
standing behind the subject in a minimal squat position and
grasping the subjects forearm by passing his/her (therapist’s
hand) under the axilla of subject, thus locking the spine. The
therapist gives downward pressure on the forearm directing
towards spine and elevating the subject by straightening his
knee. Thus the traction at thoracic spine is delivered.Thoracic traction
Thoracic traction
c.Thoracic traction fireman techniqueThoracic traction
Thoracic traction
Thoracic traction
d.Self Thoracic traction
•Therapist is in standing position in between two chairs.
Hands are placed on the upper rim of the back rest of the
chair and the subject is asked to bend his knees. This
technique is mentioned to deliver thoracic spine traction.
•This technique can also be used for lower and mid-back pain.Thoracic traction
Thoracic traction
•Therapist is in standing position in between two chairs.
Hands are placed on the upper rim of the back rest of the
chair and the subject is asked to bend his knees. This
technique is mentioned to deliver thoracic spine traction.
•This technique can also be used for lower and mid-back pain.Thoracic traction
Thoracic traction
d.Self Thoracic tractionThoracic traction
Thoracic traction
Thoracic traction
•Application of longitudinal force to the lumbar spine either
manually, mechanically or self methods- Demonstrated in pictures
•Points to remember during cervical traction application
mechanically:
•Force: weight/3
•Level of traction varies with angle placement of lumbar region
•Preferred position of subject: supineLumbar traction
Lumbar traction
manually, mechanically or self methods- Demonstrated in pictures
•Points to remember during cervical traction application
mechanically:
•Force: weight/3
•Level of traction varies with angle placement of lumbar region
•Preferred position of subject: supineLumbar traction
Lumbar traction
•Application of longitudinal force to the lumbar spine either
manually, mechanically or self methods- Demonstrated in pictures
•Points to remember during cervical traction application
mechanically:
•Force: starts with 25% of body weight up to 50% of body weight.
Never crosses 50% of body weight
•Level of traction varies with angle placement of lumbar region
•Preferred position of subject: supineLumbar traction
Lumbar traction
manually, mechanically or self methods- Demonstrated in pictures
•Points to remember during cervical traction application
mechanically:
•Force: starts with 25% of body weight up to 50% of body weight.
Never crosses 50% of body weight
•Level of traction varies with angle placement of lumbar region
•Preferred position of subject: supineLumbar traction
Lumbar traction
Lumbar traction Lumbar traction
•Has been linked to 4 mechanical factors:
1.Force applied during traction
2.Duration of traction
3.Angle of pull
4.Position of subjectLumbar traction
Lumbar traction
1.Force applied during traction
2.Duration of traction
3.Angle of pull
4.Position of subjectLumbar traction
Lumbar traction
1. Force applied during traction:
•Usually the force applied during traction starts from weight
divide by 3, but if the force is painful, then the force of
traction can be reduced.Lumbar traction
Lumbar traction
•Usually the force applied during traction starts from weight
divide by 3, but if the force is painful, then the force of
traction can be reduced.Lumbar traction
Lumbar traction
2. Duration of traction:
•Initially, acute condition first day: 2-3 minute preferred: non-
painful: continue for 10 minutes
•Maximum duration given: 10-15 minutes
•Intermittent traction:
•On: Off sequence= 3:1 or 4:1 ratioLumbar traction
Lumbar traction
•Initially, acute condition first day: 2-3 minute preferred: non-
painful: continue for 10 minutes
•Maximum duration given: 10-15 minutes
•Intermittent traction:
•On: Off sequence= 3:1 or 4:1 ratioLumbar traction
Lumbar traction
3. Angle of pull: Lumbar traction
Lumbar traction
Lumbar traction
4. Position of subject:
•Preferred position supine: complete lumbar traction in
relaxed positionLumbar traction
Lumbar traction
•Preferred position supine: complete lumbar traction in
relaxed positionLumbar traction
Lumbar traction
Recommended parameters:Lumbar traction
Lumbar traction
Goals of treatmentForce applied Hold/Relax timeDuration
Initial/acute phase13-20 Static 5-10min
Joint distraction22.55, 50% of body
weight
15seconds/
15seconds
20-30min
To Decrease
Muscle spasm
25% of body
weight
5seconds/
5seconds
20-30min
Disc prolapse 25% of body
weight
60seconds/
20seconds
20-30min
Lumbar traction
Goals of treatmentForce applied Hold/Relax timeDuration
Initial/acute phase13-20 Static 5-10min
Joint distraction22.55, 50% of body
weight
15seconds/
15seconds
20-30min
To Decrease
Muscle spasm
25% of body
weight
5seconds/
5seconds
20-30min
Disc prolapse 25% of body
weight
60seconds/
20seconds
20-30min
Thank You Thank You
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