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Introduction
Indications
RELEVANT ANATOMY
Contraindications
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Treatment
Complications
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AUTHOR AND EDITOR INFORMATION

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Author: David R Steinberg, MD, Director of Hand Fellowship, Associate Professor, Department of Orthopedic Surgery, University of Pennsylvania Health System

David R Steinberg is a member of the following medical societies: American Academy of Orthopaedic Surgeons and American Society for Surgery of the Hand

Editors: Peter M Murray, MD, Associate Professor of Orthopedic Surgery, Mayo Clinic College of Medicine; Director of Education, Mayo Foundation for Medical Education and Research, Jacksonville; Consultant, Department of Orthopedic Surgery, Mayo Clinic, Jacksonville; Consulting Staff, Nemours Children's Clinic and Wolfson's Children's Hospital; Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine; Thomas R Hunt III, MD, John D Sherrill Professor and Director of Orthopaedic Surgery, Surgeon in Chief of UAB Highlands Hospital, Director of Hand and Upper Extremity Fellowship, University of Alabama at Birmingham; Dinesh Patel, MD, FACS, Associate Clinical Professor of Orthopedic Surgery, Harvard Medical School; Chief of Arthroscopic Surgery, Department of Orthopedic Surgery, Massachusetts General Hospital; Harris Gellman, MD, Consulting Surgeon, Broward Hand Center; Voluntary Clinical Professor of Orthopedic Surgery and Plastic Surgery, Departments of Orthopedic Surgery and Surgery, University of Miami School of Medicine

Author and Editor Disclosure

Synonyms and related keywords: intersection syndrome, tenosynovitis of the radial wrist extensors, tendinitis, de Quervain tenosynovitis, thumb carpometacarpal arthritis, thumb CMC arthritis, wrist pain, forearm pain

INTRODUCTION

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Multiple conditions can cause radial-sided wrist and forearm pain; the most common are de Quervain tenosynovitis and thumb carpometacarpal (CMC) arthritis. Intersection syndrome (tenosynovitis of the radial wrist extensors) can also cause radial-sided wrist and forearm pain.

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Problem

Intersection syndrome is tenosynovitis of the radial wrist extensors, extensor carpi radialis longus (ECRL), and extensor carpi radialis brevis (ECRB). The condition also affects the extensor pollicis brevis (EPB) and the abductor pollicis longus (APL), causing pain and swelling of these muscle bellies. Intersection syndrome is characterized by pain and swelling in the distal dorsoradial forearm.1, 2

Frequency

Intersection syndrome is much less common than de Quervain tenosynovitis, the syndrome with which it is most easily confused.

Etiology

Intersection syndrome can be caused by direct trauma to the second extensor compartment. It is more commonly brought on by activities that require repetitive wrist flexion and extension.3 Weightlifters, rowers, and other athletes are particularly prone to this condition.4, 5

Pathophysiology

While this condition occurs at the intersection of the first and second extensor compartments, many contend that the condition is a tenosynovitis of the extensor carpi radialis longus (ECRL) and extensor carpi radialis brevis (ECRB) tendons. However, the condition has long been held to be caused by friction from the overlying extensor pollicis brevis (EPB) and abductor pollicis longus (APL) tendons.6 Tensile and shearing stresses in the tendons and peritendinous tissues may lead to thickening, adhesions, and cellular proliferation. Subsequent swelling and proliferation of tenosynovium may cause pain, as these tissues are compressed within the unyielding second extensor compartment.

Clinical

Patients with intersection syndrome complain of radial wrist or forearm pain. Symptoms may be exacerbated by repetitive wrist flexion and extension.

On examination, discrete swelling at this area of intersection often is present. Active or passive wrist motion produces a characteristic "wet leather" crepitus. The examiner must exclude other causes of radial forearm pain, such as de Quervain tenosynovitis, thumb CMC arthritis, radial sensory nerve irritation (Wartenberg syndrome), and extensor pollicis longus (EPL) tendinitis.


INDICATIONS

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Surgery is only rarely required, when symptoms persist despite an adequate course of conservative treatment (including activity modification).


RELEVANT ANATOMY

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The dorsal wrist and dorsal distal forearm are divided into 6 extensor compartments. Intersection syndrome involves the first 2 compartments. The tendons of the first compartment, the abductor pollicis longus (APL) and extensor pollicis brevis (EPB), pass obliquely over (dorsal to) the extensor carpi radialis longus (ECRL) and extensor carpi radialis brevis (ECRB) in the second compartment, approximately at their musculotendinous junction. This intersection occurs dorsoradially at the junction of the middle and distal thirds of the forearm, just proximal to the extensor retinaculum. The radial wrist extensors continue distally through the second compartment, the boundaries of which are the distal radius, 2 vertical septal walls, and the overlying extensor retinaculum. The ECRL and ECRB pass over the dorsal wrist capsule before inserting into the base of the index and long finger metacarpals, respectively.


CONTRAINDICATIONS

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Surgery is contraindicated in patients with vague nonspecific complaints or in those patients who have not received or been compliant with recommended nonoperative measures.


WORKUP

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Imaging Studies

  • Anteroposterior (AP), lateral, and oblique radiographs of the wrist (including distal forearm)
    • Ancillary studies do not help with the diagnosis of intersection syndrome but do allow the physician to exclude other causes of forearm pain.
    • Radiographs can depict thumb carpometacarpal (CMC) arthritis and osteophytes around the distal radius.
  • MRI is rarely indicated but could be ordered if the physician is suspicious of a soft tissue mass as the cause of swelling.7, 8, 9

Other Tests

  • Electrodiagnostic testing
    • If the physician suspects a radial sensory nerve neuropraxia rather than intersection syndrome as the cause of the patient's symptoms, nerve conduction studies may be helpful.
    • Slowing of radial nerve conduction cannot always be demonstrated in Wartenberg syndrome.

Histologic Findings

Nonspecific thickening, adhesions, and fibrocyte proliferation are seen in the tenosynovium. Histologic evidence of acute inflammation is rarely found.


TREATMENT

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Medical therapy

Conservative treatment of intersection syndrome includes immobilization, activity modification, and pharmacologic intervention. The radial wrist extensors can be immobilized with a cock-up wrist splint (20º of extension). Because of secondary irritation by the abductor pollicis longus (APL) and extensor pollicis brevis (EPB), a thumb spica splint (allowing thumb interphalangeal [IP] motion) is frequently required. Three weeks of relatively constant immobilization, followed by gradual splint weaning, usually is recommended. Activity modification at home or work is also critical.

Oral nonsteroidal anti-inflammatory drugs (NSAIDs) may decrease inflammation. A 2-mL injection of 1% lidocaine/betamethasone directly into the area of swelling may be effective in recalcitrant cases. A short course of oral steroids may be needed.

Once the most severe symptoms are under control, a program of supervised hand or occupational therapy leads to long-term recovery. This may include tendon stretching, ultrasound, and thermal modalities, followed by secondary strengthening and activities of daily living (ADL) modification or essential job task retraining.

Surgical therapy

Surgery can be effective in cases of intersection syndrome that do not respond to conservative measures.10

Intraoperative details

The second extensor compartment is approached through a dorsal longitudinal incision, beginning over the area of swelling and continuing distally 3-4 cm. Bluntly dissect down to the dorsal forearm fascia and divide longitudinally. Protect major veins and, particularly, branches of the radial sensory nerve that are located in this region. Completely mobilize the extensor carpi radialis longus (ECRL) and extensor carpi radialis brevis (ECRB) tendons by longitudinally incising the extensor retinaculum over the second compartment. A bursa also may form between the overlying APL and EPB tendons. When present, this bursa should be resected. Perform a thorough tenosynovectomy while elevating and protecting the tendons. This also may require mobilization of the EPB and APL, which then are retracted proximally and distally to provide complete access to the second compartment. The extensor retinaculum is not repaired. Skin is closed in routine fashion.

Postoperative details

Immobilize the area in a compressive dressing and well-padded volar thumb spica splint, maintaining the wrist at 20º of extension for 7-10 days.

Follow-up

At the first postoperative visit, place the patient in a removable splint and encourage early wrist range-of-motion (ROM) exercises. Some patients require postoperative therapy similar to that used prior to surgery.

Occupational therapy generally is initiated early for patients with labor-intensive occupations. The goals of therapy are strengthening, full ROM, and modification of equipment. The rehabilitation period may last 4-6 weeks.


COMPLICATIONS

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Cortisone injections near the skin may cause depigmentation in patients who are dark skinned. These injections also may lead to subcutaneous fat atrophy or necrosis, infection, and tendon rupture, although, fortunately, these complications are rare.

Theoretically, surgical release of the extensor retinaculum could lead to bowstringing of the tendons in extreme wrist extension. However, this potential problem has not been reported.


OUTCOME AND PROGNOSIS

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Most patients with intersection syndrome respond to a program of conservative management. They may need to maintain changes in work or avocational activities to prevent recurrence of symptoms. Individuals who require surgery rarely experience recurrence of symptoms.

No large series documenting treatment outcome exist in the literature. Eight patients in one study all responded to immobilization and corticosteroid injection. Grundberg and Reagan state that about 60% of patients in their practice with intersection syndrome respond to conservative management.11 They report that 100% of their patients who require surgery obtain long-term symptomatic relief. In the author's experience, nonoperative treatment of intersection syndrome is successful in approximately 75% of cases; surgical decompression of the second extensor compartment is effective in the remainder of patients.


FUTURE AND CONTROVERSIES

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The major controversies surrounding intersection syndrome pertain to diagnosis and pathophysiology. The examining physician must be convinced that the patient's wrist or forearm pain is not due to inflammation or compression of other radial-sided structures, such as the flexor carpi radialis (FCR), tendons of the first extensor compartment, thumb CMC joint, or radial sensory nerve. Obviously, location of corticosteroid injection or surgical management would differ greatly for these other conditions. In academic circles, some disagreement exists as to the exact location of tenosynovitis—whether it solely involves the second extensor compartment or represents an abnormal interaction between the tendons of the first and second compartments. While one's belief could affect choice of immobilization (cock-up wrist splint versus thumb spica splint), injection therapy and surgical release would not be altered.


FURTHER READING

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Forearm, wrist, & hand (acute & chronic), not including carpal tunnel syndrome.
Work Loss Data Institute.  2004 (revised 2007 May 16).  80 pages.  [NGC Update Pending] NGC:005799
 
Chronic wrist pain.
American College of Radiology.  1998 (revised 2005).  7 pages.  NGC:004619
 
Forearm, wrist and hand complaints.
American College of Occupational and Environmental Medicine.  1997 (revised 2004).  34 pages.  NGC:004754


REFERENCES

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  1. Thorson E, Szabo RM. Common tendinitis problems in the hand and forearm. Orthop Clin North Am. Jan 1992;23(1):65-74. [Medline].
  2. Browne J, Helms CA. Intersection syndrome of the forearm. Arthritis Rheum. Jun 2006;54(6):2038. [Medline].
  3. Descatha A, Leproust H, Roure P, Ronan C, Roquelaure Y. Is the intersection syndrome an occupational disease?. Joint Bone Spine. May 2008;75(3):329-31. [Medline].
  4. Wood MB, Dobyns JH. Sports-related extraarticular wrist syndromes. Clin Orthop. Jan 1986;(202):93-102. [Medline].
  5. McNally E, Wilson D, Seiler S. Rowing injuries. Semin Musculoskelet Radiol. Dec 2005;9(4):379-96. [Medline].
  6. Wood MB, Linscheid RL. Abductor pollicis longus bursitis. Clin Orthop. Jun 1973;93:293-6. [Medline].
  7. de Lima JE, Kim HJ, Albertotti F, Resnick D. Intersection syndrome: MR imaging with anatomic comparison of the distal forearm. Skeletal Radiol. Nov 2004;33(11):627-31. [Medline].
  8. Lee RP, Hatem SF, Recht MP. Extended MRI findings of intersection syndrome. Skeletal Radiol. Sep 23 2008;[Medline].
  9. Costa CR, Morrison WB, Carrino JA. MRI features of intersection syndrome of the forearm. AJR Am J Roentgenol. Nov 2003;181(5):1245-9. [Medline].
  10. Williams JG. Surgical management of traumatic non-infective tenosynovitis of the wrist extensors. J Bone Joint Surg Br. Nov 1977;59-B(4):408-10. [Medline].
  11. Grundberg AB, Reagan DS. Pathologic anatomy of the forearm: intersection syndrome. J Hand Surg [Am]. Mar 1985;10(2):299-302. [Medline].

Intersection Syndrome excerpt

Article Last Updated: Oct 22, 2008