Hand Deformities & Elbow Orthosis PDF

Summary

This document provides information on different types of hand and elbow orthoses, their uses, and applications in various medical conditions, such as rheumatoid arthritis, hand burns, and Dupuytren contractures. It also discusses the importance of proper positioning and immobilization for different injuries and conditions.

Full Transcript

Hand deformities &wrist
orthosis

Dr. Ramy Salama
pt. MSc. PhD
 Resting Hand Orthosis Positions

The two most common positions used

for wrist and hand orthoses are the resting

(functional) hand position and the

antideformity position.
The resting hand position:

In the absence of disease or injury, the
hand and wrist assume a typical resting
position

Wrist: 10 to 20 degrees of extension
MCP joints: 50 to 55 degrees of flexion
PIP and DIP joints: 10 to 20 degrees of
flexion
Thumb: full palmar abduction
The antideformity position (also known
as (the intrinsic plus position, or the
position of safe immobilization (POSI))
It is often used to place the hand in such a
fashion as to maintain a tension of anatomic
structures to avoid contracture and promote
function.

Wrist: 20 to 30 degrees of extension
MCP joints: 70 to 90 degrees of flexion
PIP and DIP joints: full extension, or 0 degrees
Thumb: full palmar abduction
 Some special cases and Position of
immobilization
Rheumatoid Arthritis (Acute
exacerbation)

Wrist: Neutral or 20 to 30 degrees of
extension depending on person’s
tolerance,
15 to 20 degrees of MCP flexion,
5 to 10 degrees of ulnar deviation
Thumb: Position of comfort in between
radial and palmar abduction
Hand Burns

Dorsal or volar hand burns
Wrist: Volar or circumferential burn
(30 to 40 degrees of extension), dorsal
burn (0 degrees = neutral)

MCPs: Flexion of 70 to 90 degrees
PIP and DIP: Full extension
Thumb: Palmar abduction and
extension.
Dupuytren contractures

is a progressive condition that causes
the tissue in the palm of the hand to
thicken and contract, leading to the
inability to flatten the hand.

It is more common in men of European
descent and affects up to 20% of men
over the age of 65.
The most common treatment is surgery to
remove the thickened tissue and release
the contracted joints.

Non-surgical treatments, such as needle
fasciotomy and collagenase injection
with manipulation, are becoming more
popular due to their decreased
complications and faster recovery times

Wrist: Neutral or slight extension
MCP, PIP, and DIPs: Full extension
 Anti-spasticity orthosis or Tone-
Reducing Orthosis

places the fingers and hand in a
reflex-inhibiting position (wrist joint in
neutral, all 4 medial fingers in complete
extension and the thumb in abduction) and
serves to reduce tone
 Splints Acting on the Fingers
(Hand-Based Orthosis)
The goals of a hand-based orthosis will depend
on the condition or diagnosis for which the
orthosis is being prescribed

1- Metacarpal fractures: Metacarpal neck
fractures are the most common type,
and they often occur in the fourth and
fifth metacarpal bones (boxer’s
fractures). These fractures are usually
treated conservatively with a hand-based
ulnar gutter design immobilization
orthosis.
Wearing Schedule

Metacarpal neck and shaft fractures heal
rapidly. Immobilization for 3 to 4 weeks is
recommended. Active PIP and DIP joint motion,
both flexion and full IP joint extension, are
encouraged within the orthosis. The IP joints
can be placed in an extension orthosis at night if
an extension lag develops (loss of active PIP
and/or DIP joint extension).
The position of protection for a metacarpal fracture is
with the MCP joints positioned in 70 ⁰ of flexion.
Inclusion of the wrist, PIP, or DIP joints depends on
fracture stability, presence of edema or pain, and
surgeon preference. If included, the PIP and DIP joints
should be in full extension to prevent stiffness.
Fractures involving the second or third metacarpals
are immobilized in the same position, but with a hand-
based radial gutter design.
Ulnar nerve injuries:
Paralysis or weakness of these muscles can
cause claw hand (hyperextension of the 4th
and 5th MCP joints and flexion of the PIP
and DIP joints).
A hand-based orthosis that positions the 4th
and 5th MCP joints in flexion helps to
prevent development of fixed contractures.
Wearing Schedule
Ulnar nerve injuries: The length of orthosis use
will depend on the location of the nerve
injury/repair, age of the client, and involvement of
other structures.
Nerve injuries that occur more proximal in the
upper extremity will take longer to recover as
compared with more distal nerve injuries, hence
length of time needed for restoration of muscle
function varies considerably.
The orthosis should be worn until the interossei
and lumbrical muscles are strong enough to prevent
MCP hyperextension during active digit extension
(typically a minimum of grade 3 muscle strength).
 Finger orthosis
Swan neck deformity
Swan neck deformity is a condition in which
the PIP joint is hyperextended, and the DIP
joint is flexed. It is commonly caused by
rheumatoid arthritis (RA), but it can also be
caused by other conditions, such as trauma or
overuse.
Swan neck deformity can severely affect a
person's ability to use their hands.
In cases where the swan neck deformity is
flexible (meaning it can be passively
corrected), a finger orthosis can be used to
improve function.
The orthosis is typically made from two connected oval-shaped rings that
are joined at an angle to each other that corresponds to the joint axis of the
PIP joint.
This design prevents full PIP joint extension but allows the client to actively
flex their PIP joint within the orthosis.

The ovals should encompass as much of
the length of the proximal and middle
phalanges as possible for leverage and to
optimize mechanical advantage of the
orthosis. It is important to note that not all
people with swan neck deformity need an
orthosis. If the deformity is not permanent
or disabling, there is no need to intervene,
and orthotic intervention is not necessary.
Trigger finger (Digital stenosing
tenosynovitis) is a condition affecting the
movement and gliding of the long digit
flexor tendons

Trigger finger is thought to be caused by
inflammation of the flexor tendon sheath,
irritation of the tissues, and subsequent
narrowing of the space.

It typically occurs in the fifth to sixth decades
of life. Symptoms include pain, clicking, a
catching sensation, and an inability to flex or
extend the involved finger
Digit-based orthoses that block full MCP
motion (to limit the full excursion of the flexor
tendon) are commonly prescribed until the
inflammation has resolved. The orthosis
covers the proximal phalanx and the MCP
joint of the involved digit.
for clients with trigger finger is to wear it as
much as possible to reduce the incidence of
triggering
Sometimes the orthosis is offered after the client
has received a corticosteroid injection also
aimed at reducing inflammation. The client is
allowed to remove the orthosis for periods of
gentle ROM exercises and hygiene.
 Elbow orthoses (Eos)

The elbow has many articulations, the
ulno-humeral joint, a hinge joint, and the
radiohumeral and proximal radioulnar
joint, (axial rotation joint).

These articulations combine to permit
two degrees of freedom of motion,
flexion–extension and
supination–pronation.
Without sufficient elbow flexion, the ability to
get one’s hand to the face and mouth is
significantly compromised; lack of elbow
extension makes reaching objects in the
environment and performing some personal care
activities difficult or impossible.

Several authors report that good upper extremity
function is possible with elbow
motion of -30° extension to 130° flexion.
The orthosis used for elbow joint should
apply Prolonged gentle splinting

improves elbow ROM through remodeling of
contracted soft tissue structures.

When splinting elbow injuries, it is important to
avoid pressure over the ulnar nerve.

This nerve may have been injured at the time of
the original trauma
Non-articular proximal
forearm strap. Common Name: Tennis elbow
strap;

This orthotic device is a firm strap against
which the extensors or flexors press when
they are contracting; it is placed
approximately two fingerbreadths distal to
the lateral epicondyle.
Indications:
Inflammation of the common tendon origin
of Wrist extensors (lateral epicondylitis
(Tennis elbow)) and Wrist flexors (medial
epicondylitis (Golfer’s elbow)).
Functions:

The orthosis reduces pain and
inflammation of the wrist extensors or
flexors at their origins by changing the
lever arm against which they pull.

In essence, it puts the origin of the
extensor or flexor muscles at rest, which
decreases microtrauma from overuse
with lifting activities.
 Elbow extension and flexion restriction
splint,
This soft splint also has high patient compliance when
it is used to treat arthritic conditions of the elbow.
Patients report that it provides support and warmth to
the elbow and helps reduce pain and increases overall
function of the arm.

o It is used frequently following discontinuation of
more rigid splinting to provide a lighter form of
restriction.
o It is used for minor soft tissue injuries,
compression, sprains, and strains.
Posterior Elbow Splint or sugar-tong orthosis
Name: 90-degree flexion immobilization
If the wrist is included, it will be named
90-degree elbow flexion immobilization
Indications:
Rheumatoid arthritis.
Forearm fractures (proximal radius fracture).
Post-operative elbow arthroplasty.
Elbow surgeries:
o Ulnar nerve transposition.
o Tendon transfers.
o Nerve repairs.
Functions:

Support and rest the elbow to relieve
pain.
Immobilize the elbow to promote
tissue healing.
It prevents flexion and extension
at the wrist.
Limits flexion and extension at
the elbow.
Prevents supination and pronation