2. TRACTIONS
⢠TRACTION IS A FORCE APPLIED MANUALLY OR MECHANICALLY GENERATED BY WEIGHTS OR FORCE,
USED TO REDUCE FRACTURES / DISLOCATIONS OR TO ACHIEVE RELATIVE IMMOBILIZATION.
⢠USES â
⢠TO REDUCE FRACTURE / DISLOCATION BY COUNTERACTING MUSCLE SPASM.
⢠TO RELIEVE PAIN BY RELATIVE IMMOBILISATION AND RELIEVING SPASM
⢠TO KEEP JOINT SURFACES APART IN INFLAMMATORY CONDITIONS LIKE SEPTIC / TUBERCULAR
ARTHRITIS.
3. HISTORY:
⢠Skin traction used extensively in Civil War for fractured femurs
⢠Known as the âAmerican Methodâ
⢠Hippocrates- treated fracture shaft of femur and of leg with the leg straight in
extension.
⢠Guy de chauliac- introduced continuous isotonic traction in the fracture of
femur
4. HISTORY:
⢠Percival pott- fractured limb should be placed in the position in which muscles
are most relaxed
⢠Josiah crosby â isotonic skin traction for treatment of shaft of femur
⢠Thomas Bryant- Brayntâs traction for treatment of fracture shaft of femur in
children
5. HISTORY:
⢠Malgaigne introduced the 1st effective traction which grasped the bone
itself. He used malgaigneâs hooks
⢠Fritz-Steinmann introduced a method of applying skeletal traction to the
femur by means of two pins driven into the femoral condyles.
⢠Lorenz-Bohler â âThe Father of Traumatologyâ popularised skeletal traction
by means of steinmann pins after he devised Bohler stirrup.
6. INDICATION:
⢠Lessen or eliminate muscle spasms
⢠Relieve pressure on nerves, especially spinal
⢠ToIncrease space between opposing surfaces
⢠Prevent or reduce skeletal deformities or muscle contractures
⢠To provide a fusiform tamponade around a bleeding vessel
10. ⢠SKIN TRACTION â TRACTION IS APPLIED THROUGH
SKIN BY ADHESIVE BANDAGE/BANDAGE FOAM
CONSTRUCT
⢠SKELETAL TRACTION â TRACTION IS APPLIED TO
BONE USING STEINMANN PIN / K â WIRES
⢠BALANCED TRACTION â USES GRAVITY FOR
COUNTER-TRACTION
⢠FIXED TRACTION â TRACTION IS GIVEN BETWEEN
TWO FIXED POINTS
11. SLIDING TRACTION:
⢠Introduced by Pugh, treatment of perthes.
⢠One limb is tightened via skin traction and fastened to the end of bed, the bed
is then raised head down, enabling the pelvis on the opposite side to slide
down in traction and abduction.
⢠The amount of traction can thus be changed by friction of mattress.
⢠Hendry modified the traction by using a sliding fracme on the mattress.
12.
13. FACTORS:
⢠Type of traction
⢠Amount of weight to be applied
⢠Frequency of neurovascular checks if more frequent than every four hours
⢠Site care of inserted pins, wires, or tongs
⢠The site and care of straps, harnesses and halters
⢠The inclusion of any other physical restraints / straps or appliances (e.g.,
mouth guard)
⢠The discontinuation of traction
15. CORD:
⢠Sash cord generally used, nylon cord can also be used
⢠Easier recognition of each cord is possible if cords of two different colours
used
16. PULLEYS:
⢠To control the direction of weight
⢠By altering site and by using more than 1 pulley the force
exerted by a given weight can be increased
⢠Pulleys of 5-6.25cm diameter with 6cm diameter axles are
preferred.
19. SKIN TRACTION:
⢠Applied over a large area of skin
⢠This spreads the load and is more comfortable and efficient
⢠Traction force must be applied distal to fracture site
⢠Maximum traction weight can be applied with skin traction is 15lb
( 6.7kg )
⢠Two types
Adhesive skin traction
Nonadhesive skin traction
20. DOâS AND DONâT FOR SKIN TRACTION:
⢠Prepare the skin by shaving as well as washing & applying tincture
benzoin which protects the skin and acts as an additional adhesive.
⢠Avoid placing adhesive strapping over bony prominences, if not, cover
them with cotton padding and do the strapping.
⢠Leave a loop of 5 cm projecting beyond the distal end of limb to allow
movement of fingers and foot.
21. CONTRAINDICATIONS:
⢠Abrasions of the skin
⢠Lacerations of the skin in the area to which traction is applied
⢠Impairment of circulation â varicose ulcers, impending gangrene
⢠Dermatitis, skin infection.
⢠Marked shortening of bony fragments, when traction weight is
required will be greater than can be applied through the skin
22. COMPLICATIONS OF SKIN TRACTION â
⢠PRESSURE SORE AROUND THE MALLEOLI AND OVER THE TENDOCALCANEUS
⢠COMMON PERONEAL NERVE PALSY
⢠BLISTERING OF UNDERLYING SKIN
⢠DISTAL ISCHAEMIA
⢠ALLERGIC REACTION TO ADHESIVES
⢠PEELING / SLOUGHING OF SKIN
23. BUCKâS TRACTION:
⢠Used in temporary management of fractures of
⢠Femoral neck
⢠Intertrochanteric fractures
⢠Femoral shaft in older children
⢠Undisplaced fractures of the acetabulum
⢠After reduction of a hip dislocation
⢠To correct minor flexed deformities of the hip or knee
⢠In place of pelvic traction in management of low back pain
⢠Can use tape or pre-made boot
⢠Not more than 4.5 kgs
⢠Not used to obtain or hold reduction
24. HAMILTON RUSSELâS TRACTION:
⢠Used in management of fractures of the femoral shaft
⢠After arthroplasty operations of hip
⢠Buckâs traction with sling under the knee
Weight: Adults upto 3.6 kgs
Children upto 1.8 kgs
25. GALLOWâS TRACTION:
Useful for children younger than 2 years
who weigh 10-12 kg for Fracture shaft of femur.
Careful examination of the neurovascular status of the
extremity is mandatory in the early period after application
of traction.
Older children have a risk of
compartment syndrome , vascular insufficiency,
peroneal nerve palsy, and skin breakdown when treated
with this method.
26. BRYANTâS TRACTION:
⢠Treatment of fractures of the shaft of femur in children upto age of
two years who weight less than 35-40lb ( 15.9- 18.2kg )
⢠Combines gallows traction and
Buckâs traction
⢠Raise mattress for counter
traction
⢠Rarely used currently
27. MODIFIED BRYANTâS TRACTION:
⢠Sometimes used in initial management of congenital dislocation of
hip
⢠After 5days of application of bryants traction abduction of both
hips begin, being increased by 10 degrees on alternate days
⢠By three weeks hips should be fully abducted
28.
29. FOREARM SKIN TRACTION:
⢠Adhesive strip with wrap
⢠Useful for elevation in any injury
⢠Can treat difficult clavicle fractures
⢠Good cosmetic result
⢠Risk is skin loss
30. DOUBLE SKIN TRACTION:
⢠Used for greater tuberosity or prox humeral shaft fx
⢠Arm abducted 30 degrees
⢠Elbow flexed 90 degrees
⢠7-10 lbs on forearm (3-4 kgs)
⢠5-7 lbs on arm (2-3 kgs)
⢠Risk of ischemia at cubital fossa
31. DUNLOPâS TRACTION:
⢠Used for supracondylar and transcondylar fractures in children
⢠Used when closed reduction difficult or traumatic
⢠Forearm skin traction with weight on upper arm
⢠Elbow flexed 45 degrees
⢠Max weight 2kgs each side
32. FINGER TRAPS:
⢠Used for distal forearm reductions
⢠Changing fingers imparts radial/ulnar angulation
⢠Can get skin loss/necrosis
⢠Recommend no more than 20 minutes
33. HEAD HALTER TRACTION:
⢠Simple type cervical traction
⢠Management of neck pain
⢠Weight should not exceed 2.3 kg
⢠Can only be used a few hours at a time
⢠Also used in physiotherapy for cervical
spondylolysis
35. PELVIC TRACTION:
⢠Used in conservative management of prolapse of intervertebral disc, sciatica.
⢠Max amount of weight varies according to body weight, but 30-45kgs remains
average.
37. SKELETAL TRACTION:
⢠It should be reserved for those cases in which skin traction is
contraindicated
⢠In patients with lacerated wounds
⢠In patients with external fixator in situ
⢠When the weight required for traction is more then 6.5 kgs-
Obese patients
⢠Max weight permitted is 11-18 kgs. (normally)
38. STEINMANN PIN:
⢠Rigid stainless steel pins of varying lengths 4 â 6 mm in diameter. Bohler
stirrup is attached to steinmann pin which allows the direction of the traction
to be varied without turning the pin in the bone
39. DENHAM PIN:
⢠Identical to stienmann pin except for a short threaded length in
the center . This threaded portion engages the bony cortex and
reduce the risk of the pin sliding
⢠Used in cancellous bone like calcaneum and osteoporitic bones
40. K WIRE TRACTION:
⢠They are easy to insert and minimize the chance of soft tissue damage and infections
⢠It easily cuts out of the bone if a heavy traction weight is applied
⢠Most commonly used in upper limb eg. Olecranon traction
41. COMPLICATIONS OF SKELETAL TRACTION â
⢠Pin tract infections, osteomyelitis
⢠Neurovascular injuries
⢠Incorrect placement of the pin or wire may-
⢠Allow the pin or wire to cut out of the bone causing pain and the failure of the
traction system
⢠Make control of rotation of the limb difficult
⢠Make the application of splints difficult
⢠Result in uneven pull being applied to the ends of the pin or wire and thus
cause the pin or wire to move in the bone
⢠Distraction at the fracture site
⢠Ligamentous damage if a large traction force is applied through a joint for a
prolonged period of time
⢠Damage to epiphyseal growth plates when used in children
⢠Depressed Scars
42. PROXIMAL TIBIAL TRACTION:
⢠Used for distal 2/3rd femoral shaft fractures and
⢠Intertrochanteric fractures.
⢠Tibial pin allows rotational moments
⢠Easy to avoid joint and growth plate
⢠2cm distal and posterior to tibial tubercle
⢠Pin should be driven from the lateral to the
medial side to avoid damage to the common peroneal nerve
43. UPPER FEMORAL TRACTION
⢠Lateral traction for fractures with medial
or anterior force.
⢠For acetabular fractures.
⢠Stretched capsule and ligamentum teres
may reduce acetabular fragments
44. ⢠Lateral surface of femur (2.5cm) below the most prominent part of GT
midway between the anterior and posterior surface of femur
⢠A coarse threaded cancellous screw is used. Must avoid NV structures and
growth plate in children. 6.5mm or 12mm pins with a rounded external end
available.
45. DISTAL FEMORAL TRACTION
⢠Alignment of traction along axis of femur
⢠Used for superior force acetabular fracture and femoral shaft
fracture
⢠Used when strong force needed or knee pathology present
46. ⢠Draw 1st line from before backwards at the level of the upper pole of
patella,2nd line from below upwards anterior to the head of the fibula, where
these two lines intersect is the point of insertion of a Steinmann pin
⢠Just proximal to lateral femoral condyle. In an average adult this point lies
nearly 3 cm from the lateral knee joint line
47. NINETY NINETY TRACTION
⢠Useful for subtrochantric and proximal 3rd femur fracture
⢠Especially in young children
⢠Matches flexion of proximal fragment
⢠Can cause flexion contracture in adult
48. DISTAL TIBIAL TRACTION
⢠Useful in certain tibial plateau fracture
⢠Pin inserted 5 cm above the level of the ankle
joint, midway between the anterior and
posterior borders of the tibia
⢠Avoid saphenous vein
⢠Place through fibula to avoid peroneal nerve
⢠Maintain partial hip and knee flexion
49. CALCANEUM TRACTION
ď Temporary traction for tibial shaft fracture
or calcaneal fracture
ď Insert about 1.5 inches (4cms) inferior and
posterior to medial malleolus
ď Do not skewer subtalar joint or NV bundle
ď Maintain slight elevation leg
50. OLECRANON TRACTION:
⢠Supracondylar/distal
humerus fractures
⢠Greater traction forces allowed
⢠Can make angular and
rotational corrections
⢠Place pin 1.25 inches distal to tip
of olecranon
⢠Avoid ulnar nerve
51. LATERAL OLECRANON TRACTION:
⢠Used for humerus fractures
⢠Arm held in moderate abduction
⢠Forearm in skin traction
⢠Excessive weight will distract fracture
52.
53. OLECRANON TRACTION
⢠Point of insertion:
just deep to the SC border of the upper end of ulna (3cms)
This avoids ulnar joint and also an open epiphysis
⢠Technique:
Pass K-wire from medial to lateral side - pass the wire at right
angles to the long axis of the ulna to avoid ulnar nerve.
54. METACARPAL PIN TRACTION
⢠Used for obtaining difficult reduction
forearm/distal radius fracture
⢠Once reduction obtained, pins
can be incorporated in cast
⢠Pin placed radial to ulnar through base 2nd/3rd MC
⢠Stiffness of intrinsics is common
55. METACARPAL PIN TRACTION
⢠Point of Insertion: 2-2.5 cms proximal to the distal end of
2nd metacarpal
⢠Technique: push the 1st dorsal interosseius and palpate
the subcutaneous portion of the bone. Pass the K-wire at
right angles to the longitudinal axis of the radius, the wire
traversing 2nd and 3rd metacarpal diaphysis transversely.
56. GARDNER TONGS
⢠U shaped tongs, used for spinal traction
⢠In patients having cervical injury
⢠Easy to apply
⢠Place directly above external auditory meatus
⢠In line with mastoid process
⢠Just clear top of ears
57. GARDNER TONGS
⢠Pin site care important
⢠Weight ranges from2.3 kg to 15.8 kg for c-spine
⢠Excessive manipulation with placement must be avoided
⢠Poor placement can cause flexion/extension forces
⢠Patient can get occipital decubitus
58. CRUTCHFIELD TONGS
⢠Crutchfield tongs fit into the parietal bones
⢠A special drill point with a sleeve used to
enable an accurate depth of hole to be drilled
59. ⢠Sedate the patient
⢠Shave the scalp locally
⢠Draw a line on the scalp, bisecting
the skull from front to back
⢠Draw a second line joining the tips
of the mastoid processes which crosses
the first line at right angles
⢠Fully open out the tongs
60. PROCEDURE:
ď With the fully open tongs lying equally on each side of the antero-
posterior line, press the points into the scalp making dimples on the
second line.
ď Infiltrate the area of the dimples down to and including the periosteum,
with local anaesthetic solution.
ď Make small stab wounds in the scalp at the dimples.
ď Using the special drill point, drill through the outer table of the skull in a
direction parallel to the points of the tongs.
ď Fit the points of the tongs into the drill holes.
ď Tighten the adjustment screw until a firm grip is obtained, and repeat
daily for the first 3 to 4 days, and then tighten when necessary
ď Attach a traction cord to the two lugs.
ď Attach a weight to the traction cord.
ď Raise the head end of the bed to provide counter traction
61. RECOMMENDED WEIGHTS IN CERVICAL TRACTION
(CRUTCHFIELD)
Level Minimum Weight Maximum
Weight
C1 2.3 KG 4.5 KG
C2 2.7 KG 4.5 â 5.4 KG
C3 3.6 KG 4.5 â 6.7 KG
C4 4.5 KG 6.7 â 9.0 KG
C5 5.4 KG 9.0 â 11.3 KG
C6 6.7 KG 9.0 â 13.5 KG
C7 8.2 KG 11.3 â 15.8 KG
63. PERKINâS TRACTION
⢠Treatment of fractures of tibia and of the femur
from the subtrochantric region distally.
⢠Basis of management is the use of skeletal traction coupled
with active movements of the injured limb
⢠By encouraging early muscular activity, the development of
stiff joint is frequently prevented by both maintaining
extensibility of muscles by reciprocal innervation, and
preventing stagnation of tissue fluid
64. PERKINâS TRACTION:
⢠A Hadfield split bed is required
⢠Under General anaesthesia and full aseptic conditions, a Denham pin is
inserted through the upper end of tibia
⢠A Simonis swivel is attached to end of each Denham pin
⢠Two traction cords are connected to each of swivel
⢠4.6 kg weight is attached to each traction cord making a total traction weight
of 9.2 kg
⢠Foot end of the bed is elevated by one inch for each 0.46 kg of traction
weight
⢠One or more pillow is placed under the thigh to maintain the anterior bowing
of the femoral shaft
⢠Length of the limb is checked with a tape measure and total traction weight is
increased or decreased as necessary
⢠Active Quadriceps exercises are started immediately and continued
⢠Knee flexion is started after a week of admission, under supervision
65.
66. BALANCED SUSPENSION WITH PEARSON
ATTACHMENT
⢠Enables elevation of limb to
correct angular malalignment
⢠Counterweighted support system
⢠Four suspension points allow
angular and rotational control
67. ⢠Middle 3rd fracture has mild flexion
proximal fragment
⢠30 degrees elevation with traction
in line with femur
⢠Distal 3rd fracture has distal fragment flexed posterior
⢠Knee should be flexed more sharply
⢠Fulcrum at level of fracture
⢠Traction at downward angle
⢠Reduces pull of gastrocnemius
68. REMOVAL OF TRACTION
⢠Elbow fracture with olecranon pin - 3 weeks
⢠Tibial fracture with calcaneal pin - 3-6 weeks
⢠Trochanteric fracture of femur - 6 weeks
⢠Femoral shaft fracture
⢠with application of cast brace and
partial weight bearing - 6 weeks
⢠without external support and
partial weight bearing - 12 weeks
69. ⢠From- Traction and Orthopaedic appliances John D.m Stewart, Jeffrey P. hallet
Fixed traction- length of the limb remains constant. Eg Thomas splint in ffd
Sah cord: cotton cord
These knots tighten with traction
Overhead bryants is gallows
Alternative to percutaneous pin traction.
Practical Orthopedics By Kakkad Subhash, p46
Textbook of Orthopedics By John Ebnezar, 4th ed, p67
Changing the position of nucleus pulposus iin relation with posterior annular fibrosus, or change in disc nerve interface, it decreases nucleus pulposus pressure and increase foraminal area.
General rule femoral fractures use 10% of the body weight,
For counter every 5cm gives 1 kg weight
Not to be used in kids, may cause recurvatum injury dt damaga of physis, too much distal and u may damage the anterior shifting peroneal nerve, too proximal and the boen is more cancellous
Head of the femur disimpacts from the acetabulum.
Draw 1st line from before backwards at the level of the upper pole of patella,2nd line from below upwards anterior to the head of the fibula, where these two lines intersect is the point of insertion of a Steinmann pin
Just proximal to lateral femoral condyle. In an average adult this point lies nearly 3 cm from the lateral knee joint line
Insert pin from medial side to avoid injury to femoral artery on pin exit. Insert the pin with knee on 90 flexion, cz if extended later itll be difficult to flex knee cz of fixation to IT band.
Placed as posterior as possible and still engaging bone
No point is completely safe, be as far as possible and still in bone.