Septic arthritis

Classification

The term "suppurative arthritis" is a near synonym for septic arthritis. ("Suppurative" refers to the production of pus, without necessarily implying sepsis.)

ICD-10 uses the term "pyogenic arthritis". Pyogenic also refers to the production of pus.

Reactive arthritis refers to arthritis caused by an immune consequence of an infection, but not directly attributable to the infection itself.

Septic arthritis is usually caused by bacteria, but may be caused by viral, mycobacterial, and fungal pathogens as well. A broader term is "infectious arthritis", which describes arthritis caused by any infectious organism. Viruses can cause arthritis, but it can be hard to determine if the arthritis is directly due to the virus or if the arthritis is reactive.

Septic/suppurative arthritis and "bacterial arthritis" are sometimes considered equivalent, but there are exceptions. For example, Borrelia burgdorferi can cause infectious arthritis, but is not associated with suppurative arthritis.

Signs and symptoms

Septic arthritis can cause pain with any movement of the affected joint. Therefore, those affected by septic arthritis will often refuse to use the extremity and prefer to hold joint rigidly. Other common signs and symptoms are joint swelling, redness, and warmth.

Cause

Bacteria are carried by the bloodstream from an infectious focus elsewhere, introduced by a skin lesion that penetrates the joint, or by extension from adjacent tissue (e.g. bone or bursae bovine tb).

Micro-organisms must reach the synovial membrane of a joint. This can happen in any of the following ways:

Bacteria that are commonly found to cause septic arthritis are:

In bacterial infection, Pseudomonas aeruginosa has been found to infect joints, especially in children who have sustained a puncture wound. This bacterium also causes endocarditis.

Diagnosis

Septic arthritis should be considered whenever one is assessing a person with rapid onset of joint pain. Usually only one joint is affected however in seeding arthritis, several joints can be affected at the same time; this is especially the case when the infection is caused by staphylococcus or gonococcus bacteria.

The diagnosis of septic arthritis is based on clinical assessment and should prompt arthrocentesis. The diagnosis of septic arthritis can be difficult as no test is able to completely rule out the possibility.

A number of factors should increase one's suspicion of the presence of an infection. In children these included in Kocher criteria.

Diagnosis is by aspiration (giving a turbid, non-viscous fluid), Gram stain and culture of fluid from the joint, as well as tell-tale signs in laboratory testing (such as a highly elevated neutrophils (approx. 90%), ESR or CRP). The ESR and CRP are almost always raised on admission, CRP being faster in diagnostics.

Joint aspiration

In the joint aspirate, the typical white blood cell count in septic arthritis is over 50,000-100,000 cells per 10⁻⁶/l (50,000-100,000 cell/mm³). However, septic synovial fluid can have white blood cell counts as low as a few thousand in the early stages and, therefore, differentiation of septic arthritis from aseptic inflammatory arthritis is not always possible based on cell counts alone.

The Gram stain can rule in the diagnosis of septic arthritis, however cannot exclude it.

A lactate level in the synovial fluid of greater than 10 mmol/l makes the diagnosis very likely.

Gonococcal arthritis

In the case of gonorrhea the knee or wrist may be chronically affected. The pain may be chronic and the physician may inject steroids to reduce symptoms. Weeks later increased pain, redness and swelling- signs of inflammation- appear leading to drainage by needle puncture. Then the gram stain and cultures are typical of a Neisserian infection.

Septic arthritis in a young, sexually active individual may be caused by Neisseria gonorrheae. Gonococcal septic arthritis may present in one of two possible ways:

Diagnosis is confirmed by gram stain of the synovial fluid, blood cultures and urethral cultures.

Imaging

X-rays may not be helpful early, but may show subtle increase in joint space tissue swelling. Ultrasound may reveal joint effusion. Imaging can sometimes be used to aid in the diagnosis of septic arthritis. Native X-ray of the joint is neither sensitive nor specific. Ultrasound can detect joint-swelling. MRI findings include: synovial enhancement, perisynovial edema and joint effusion. Signal abnormalities in the bone marrow can indicate a concomitant osteomyelitis. The sensitivity and specificity of MRI for the detection of septic arthritis has been reported to be 67% and 98% respectively.

Treatment

Therapy is usually with intravenous antibiotics, analgesia and washout/aspiration of the joint to dryness. Among pediatric patients with an acute hematogenous septic arthritis a short total course of 10 days of antimicrobials is sufficient in uncomplicated cases.

In infection of a prosthetic joint, a biofilm is often created on the surface of the prosthesis which is resistant to antibiotics. Surgical debridement or arthrotomy is usually indicated in these cases. A replacement prosthesis is usually not inserted at the time of removal to allow antibiotics to clear infection of the region.

Patients in whom surgery is contraindicated may trial long-term antibiotic therapy.

Close follow up with physical exam & labs must be done to make sure patient remain afebrile, pain resolved, improved range of motion and normalized lab values.