Elbow arthrocentesis is a procedure performed to aspirate the contents of a joint cavity to evaluate and treat elbow effusion. This activity reviews the indications, contraindications, complications of elbow arthrocentesis and highlights the role of the interprofessional team in the management of patients with elbow problems.
Identify the anatomical structures of the elbow that one must know before performing arthrocentesis.
Describe the technique of performing elbow arthrocentesis.
Review the indications for elbow arthrocentesis.
Outline the role of the interprofessional team in improving care and improving and outcomes in patients undergoing elbow arthrocentesis.
Elbow arthrocentesis is a procedure performed to aspirate the contents of a joint cavity to evaluate and treat elbow effusion. Arthrocentesis is considered a minor surgical procedure. However, there is always the chance, as with introducing any needle through the skin, for infection, injury to nerves, vessels, tendons, or other connective tissue. Therefore, this procedure should only be performed by health care providers trained in arthrocentesis with a strong understanding of elbow anatomy. Arthrocentesis is commonly used to evaluate the underlying etiology of joint effusion, including infectious, inflammatory, and hemorrhagic causes. Aspiration of the joint space and removal of the contents reduces the fluid pressure in the joint capsule and reduces pain. Additionally, access to the joint space provides the opportunity to inject therapeutic agents in the setting of pain or degenerative joint disease. Of the etiologies above, the most important to diagnose properly is septic arthritis, as cultures are crucial to prompt and adequate treatment.
Anatomy and Physiology
The distal humerus, radial head, and olecranon comprise the elbow joint. The olecranon process articulates with the trochlea of the humeral condyle forming a hinge joint for flexion and extension. The radial head is held in place with the annular ligament arising from the proximal ulna and articulates with the ulna and the distal humerus. The joint is encapsulated and contains the articular surfaces of the structures mentioned above. This space contains synovial fluid and is the target of elbow aspiration.
The biceps crosses the elbow anteriorly, and the triceps crosses the elbow posteriorly, facilitating flexion and extension, respectively. The flexor carpi radialis, palmaris longus, humeroulnar head of flexor digitorum superficials, and the humeral head of the flexor carpi ulnaris contribute to the flexor compartment and supination of the wrist originating at the medial epicondyle. They primarily receive innervation via the median nerve. The wrist extensors and supinators, including extensor carpi radialis brevis, extensor digitorum, and extensor digiti minimi, all originate on the lateral epicondyle and are innervated by the radial nerve.
Blood supply to the elbow is via extensive anastomoses originating from the brachial and radial arteries
The patient should have their elbow bent to 90 degrees with their hand pronated (palm down); this exposes the approach trajectory by rolling the head of the radius out of the way.
The aiming point for needle insertion is the juncture of the lateral humeral condyle, radial head, and olecranon process. These three landmarks form the anconeus triangle, and the insertion point is located centrally. The needle is then inserted into the sulcus directed medial and perpendicular to the radius toward the distal end of the antecubital fossa.
Ultrasound guidance for evaluation of fluid collection and needle guidance is recommended.
Elbow arthrocentesis is performed to aspirate effusions for two reasons, both diagnosis and therapeutic relief of pain caused by fluid pressure. Diagnostically the primary etiologies of concern are septic arthritis, hemarthrosis, and inflammation. Of these, a suspected septic joint and crystalline arthropathy are the two most common indications. Additionally, arthrocentesis may help to evaluate the therapeutic response for septic arthritis or unexplained arthritis with synovial effusion. Although not the topic of this discussion, access to the joint space may also be used to inject therapeutic agents and to challenge the joint with fluid for evaluation of joint capsule integrity if any overlying laceration is present.
The only absolute contraindication to arthrocentesis is overlying cellulitis, which may lead to seeding of the joint with bacteria. Relative contraindications include coagulopathy, joint prosthesis, acute fracture, and adjacent osteomyelitis. Prosthetic joints warrant discussion with orthopedic surgery before tapping, as many surgeons believe a prosthetic joint should only undergo tapping in the operative theater.
Iodine solution or chlorhexidine
Sterile gloves and drape
Sterile fenestrated drapes
Lure-Lok syringes including one 5cc and another 5 to 20cc syringe
20G and 27G needle
1% Lidocaine or 0.5% bupivacaine
Collection tubes including a hematology tube, sterile tube, heparinized tube
Ultrasound with a sterile cover, if available
This procedure can take place without an assistant; however, an assistant may make certain situations, including an anxious patient or unforeseen technical difficulties, easier.
There are no stat indications for elbow arthrocentesis; thus, additional time can help improve a first-attempt success rate and reduce associated risks. Ensure all necessary equipment is available and works appropriately, correctly identify landmarks, and adhere to a sterile technique.
Position your patient with the elbow bent 90 degrees and pronated palm down. This position rolls the radial head to open the joint space. Use an ultrasound if available to localize fluid collection and direct the needle. Mark the approach by identifying the insertion site inferior to the lateral humeral epicondyle, anterior to the olecranon, and superior/posterior to the radial head (anconeus triangle). Use a skin pen to mark or pressure to indent the surface of the skin. Now clean the area with a wide margin using chlorhexidine or iodine solution. Gown, glove, and then drape in a sterile fashion. Raise a bleb of 1% lidocaine using a sterile technique at the site of insertion. Once anesthetized, an 18 to 22 gauge needle 1.5 inches long is attached to a 5 to 10mL syringe and advanced into the joint space while retracting to watch for blood return. Once the joint space is accessed, synovial fluid, blood, or infectious material may be aspirated. With the needle held in place, multiple syringes may be used to aspirate all the contents of the joint. If inflammatory etiology is suspected, a glucocorticoid may be injected before leaving the joint space to prevent relapse of effusion. The needle is then withdrawn, a bandage is applied, and the collected fluid is sent to the lab. Studies should include fluid gram stain and culture, cell count with differential, protein, glucose, and polarized light microscopy for crystalline arthropathies.
Joint aspiration is safe within the therapeutic range of anticoagulation with warfarin or properly dosed DOAC. Considerations for the anticoagulated patient includes using a smaller needle size.
Ultrasonography may be used in a sterile fashion to guide the needle if dry tap occurs, and septic arthritis is suspected.
Shaving is of no benefit.
Even though complications with arthrocentesis are rare, the clinician should take the time to inform the patient of potential complications arising from arthrocentesis. There are two major categories to take into consideration; infectious complications and noninfectious complications. Of the complications, the most feared is septic arthritis. The frequency of this complication lies somewhere between 1 in 2000 and 1 in 15000. It is best avoided by maintaining a sterile field, minimizing attempts, using single-dose vials, changing to a new needle after drawing up medication before injecting, and preventing the introduction of a needle through cellulitis. The other concerning infection is septic bursitis, which arises when the needle approach travels through a bursa, the olecranon bursa in the case of the elbow, on the way to the joint and is due to direct inoculation from skin flora. Noninfectious complications that arise include tendon rupture, vascular damage, and neurologic damage. All three complications directly result from trauma secondary to the penetrating needle and are more common when injecting glucocorticoids than aspirating. These complications are mediated by carefully planning the approach and identifying the proper anatomical location for insertion and needle travel. Bleeding management is with tamponade. The patient should also be informed there may be a recurrence of joint effusion until the resolution of the underlying etiology.
Arthrocentesis is a valuable procedure for determining the etiology of joint effusion. Evaluation of the aspirated fluid can serve to classify the effusion into non-inflammatory, inflammatory, septic, and hemorrhagic. Septic arthritis is typically mono-microbial and broken down into two categories, gonococcal and non-gonococcal, based on age and history. Adults < 35 years old have infections from N. gonorrhea. Adults > 35 years old are most likely to present with S. aureus infections. History, such as recent travel and immunocompromised states, can clue the provider into other causative organisms, including Strep. spp, aerobic gram-negative, anaerobic gram-negative, brucellosis, Mycobacteria spp, fungal, and Mycoplasma hominis. Crystalline arthritis and autoimmune disease can cause an inflammatory joint effusion. Trauma is the most common cause of hemorrhagic joint effusion, but there are case reports of supratherapeutic INRs associated with spontaneous hemarthrosis.
See the attached graph below.
Negatively birefringent crystals = gout
Positive bi-refringent crystals = pseudogout
Enhancing Healthcare Team Outcomes
Ensuring proper fluid analysis with gram stain and culture is vital to the purpose of arthrocentesis. It is essential to communicate fluid analysis orders with the lab technician and if able to walk the fluid specimens directly to the lab to ensure timely fluid analysis. Clear communication will prevent unnecessary use of long-term empiric antibiotics and improve patient therapy by tailoring the treatment to the proper diagnosis.
(Click Image to Enlarge)
Graph of fluid analysis diagnosis
Contributed by Jerome E Daniels, DO
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