2. Introduction
Named after a Swiss surgeon, Fritz de
Quervain, who first described the problem in
1895.
De Quervain disease is a stenosing
tenosynovitis of the first dorsal compartment of
the wrist containing Abductor pollicis longus
and Extensor pollicis brevis.
It is characterised by degeneration and fibrosis
of the tendon sheath.
3. Occurs most often in individuals age between
30 and 50 years
It affects women up to six times more often
than men
Is commonly associated with dominant hand.
4. Anatomy
Six fibro-osseous tunnels representing the
dorsal compartments surround the extensor
tendons and function to prevent bowstringing
of the extensor tendons
5. The first dorsal
compartment is
approximately 2 cm
long and is located
over the radial styloid
proximal to the radio-
carpal joint
The abductor pollicis
longus and the
extensor pollicis brevis
tendons pass through
6. The APL originates on
the distal third of the
radius and has multiple
slips (2 to 4), with
variable insertions on
the base of the thumb
metacarpal and
trapezium.
The primary function of
the APL is to abduct the
thumb and assist with
radial deviation of the
7. The EPB originates on
the dorsal surface of the
radius and the
interosseous membrane
and inserts on the base
of the proximal phalanx
of the thumb.
The EPB functions to
extend the
metacarpophalangeal
joint and to weakly
abduct the thumb
8. Etiology
The etiology is thought to be secondary to
repetitive or sustained tension on the tendons of
the first dorsal compartment
Possible etiologies include
Trauma
Increased frictional forces
Anatomic Variations that include septation of the
first dorsal compartment and the presence of
multiple slips of the APL and, occasionally, of the
EPB tendon
10. Pathophysiology
Resisted gliding of the APL and the EPB within
the narrowed canal
Fibroblastic response, resulting in thickening and
swelling of the compartment
Degeneration
11. Microanatomic findings of the tendon sheaths
and synovium showed thickening of the tendon
sheaths to be up to five times because of
deposition of dense fibrous tissue, increased
vascularity of the tendon sheaths, and
accumulation of mucopolysaccharides, which are
indicators of myxoid degeneration
Notably, the synovial linings were preserved and
were histologically normal.
These changes indicate that de Quervain’s is a
result of an intrinsic degenerative mechanism
rather than an inflammatory one.
12. Clinical features
localized pain along the radial side of the wrist
-Gradual in onset
-Aggravating on grasping and raising objects
with the wrist in neutral rotation
Localised swelling may be seen.
13. Tenderness along the radial styloid
The Finkelstein test is positive:
(on grasping the patient’s thumb and quickly
abducting the hand ulnarward produces
excruciating pain over the styloid tip)
15. Investigations
Diagnosed is mainly through clinically
Wrist imaging is required only in the presence
of associated processes such as previous
distal radius or scaphoid fracture, arthritis of
the thumb, and instability of the wrist
16. Conservative Treatment
Nonsurgical treatment should be the first course
of action for de Quervain disease.
The patient presenting with mild to moderate pain
that does not limit activities of daily living may be
treated with -
Rest,
Splinting,
Nonsteroidal anti-inflammatory drugs or
corticosteroid injection.
17. Splinting is an effective
method for resting the
APL and EPB tendons
by immobilizing the
thumb and wrist in a
single position and
reducing or preventing
the friction
An ideal splint is a
radial thumb spica
extension splint that
holds the wrist in
neutral and the thumb
in 30° of flexion and
30° of abduction.
18. Corticosteroid injection
Corticosteroid injection into the first dorsal
compartment is perhaps the most common
and effective treatment of de Quervain
disease.
Failure of response to corticosteroid injection
has been attributed to poor technique and
anatomic variations within the first dorsal
compartment
19. With the wrist in neutral radioulnar deviation, a
rolled-up towel is placed under the wrist to
position it in slight ulnar deviation
The course of the APL and EPB tendons along
the radial styloid is palpated, and the borders of
the first dorsal compartment are straddled with
the opposite thumb and index finger.
20. A 25-gauge needle is introduced into the tendon
sheath at the level of the styloid, parallel to the
tendons..
The needle is carefully backed out while
maintaining pressure on the plunger of the
syringe.
The injectable medication should flow smoothly
and easily, with both visual and palpable inflation
of the compartment.
21. An additional injection may be offered after a
4- to 8-week interval for the patient who has
experienced some improvement with the initial
injection
When pain does not resolve after two
corticosteroid injections and 6 months of
nonsurgical management, then surgical
release of the first dorsal compartment is
recommended.
23. Surgical treatment
Surgical treatment is based on release of the
fibro-osseous roof of the first dorsal
compartment and decompressing the
stenosed APL and EPB tendons
24. Under local anesthesia, with or without
intravenous sedation, and tourniquet control,
a transverse or oblique incision is given over
radial styloid
25. The skin is retracted and careful blunt
dissection will reveal branches of the radial
sensory nerve in the subcutaneous tissue
Radial sensory nerve is identified and
protected with blunt retractors
26. Dissection is then carried down to the first
dorsal compartment. The retinaculum of the
first dorsal compartment is completely incised
with in line with the APL and EPB tendons
27. Any intra-compartmental septae should be
released and excised.
Anatomic variations of the compartment are
the rule rather than the exception.
Active and free thumb abduction and
extension then can be performed on the
awake patient
28. Postoperatively, thumb and hand motion is
immediately encouraged except for forceful
wrist flexion,
which may predispose the tendons toward
subluxation during the first 2 weeks after
surgery