History/old records

A thorough pain history can assist with the diagnosis. This should include an assessment of the character, location, onset, radiation, intensity, and duration of the pain as well as provoking and palliating factors. A history of prior infection is a critical finding.⁹ Start‐up or initiation pain is consistent with aseptic loosening, whereas pain that is constant and does not abate should raise suspicion for periprosthetic joint infection (PJI).⁷

Details of the TKA surgery and postoperative course including odds ratio (OR) records and perioperative notes can provide information on surgical complications such as prolonged postoperative wound drainage, delayed wound healing, return trips to the operating room, and treatment with antibiotics following surgery.⁷ The patient’s medical history, medications, allergies including metal sensitivities, and expectations for the surgical outcome of the TKA should also be assessed.

Physical examination

Physical examination should include a general exam with vital signs, height, weight, body mass index (BMI), general appearance, and gait. Detailed inspection of the skin can reveal the previous surgical scars, skin lesions, erythema, swelling/effusion, vascular changes, and draining sinus tracts. Gait should be specifically assessed for antalgia, varus/valgus thrust, and a Trendelenburg’s sign.⁷

A focused examination of the knee should include measurement of active and passive range of motion, assessment for extensor lag, evaluation of stability to varus and valgus stressing in full extension, mid‐flexion (30–60°), and 90° of flexion, and palpation for areas of focal tenderness or swelling. Patellar tracking should be examined throughout the range of motion.

A neurovascular examination should be performed assessing peripheral pulses, motor function, and sensation in the lower extremity.

Examination of joints above (hip, lumbar spine) and below (foot and ankle) the affected knee should be performed to rule out extra‐articular sources of pain such as lumbar radiculopathy, vascular claudication, or referred pain from hip arthritis.⁷

Plain radiographs/three‐foot standing images

Obtaining serial radiographs can assist with the evaluation of implant stability over time.^4,7 Lucent lines at the bone–implant or bone–cement interface that are complete or greater than 2 mm may indicate loosening.¹⁰ Implant position changes are pathognomonic for implant loosening.

Three‐foot standing, anteroposterior, and lateral and patellofemoral radiographs of the affected TKA are useful for assessing the mechanical and anatomic axes of the lower extremity, as well as component positioning.

Computed tomography (CT) scans

CT assists with the evaluation of component rotation and areas of osteolysis, which are often underestimated on plain radiographs.¹¹

Malrotation of the femoral component, typically internal rotation, can lead to pain following TKA through early failure due to instability.¹² Malalignment of the TKA can lead to failure due to implant wear and aseptic loosening.¹³ CT can assist with diagnosis of both of these conditions.

Laboratory tests (CBC, ESR, C‐reactive protein)

Knee aspiration

If the ESR and/or CRP are elevated in a patient with a painful TKA, aspiration of the knee is necessary to rule out PJI.^19,20 Synovial fluid should be sent for cell count and differential, aerobic, and anaerobic culture and sensitivity, TB and fungal culture (depending on patient comorbidities, immunosuppression, and tuberculous infection prevalence).

A synovial fluid WBC count between 1100 and 3000 cells/mm³ is strongly suggestive of a deep PJI.^19,21 These values are substantially lower than the 50 000 cells/mm³ threshold for diagnosis of septic arthritis in a native knee. If the percentage of neutrophils is between 60 and 80%, infection is likely. As well, when the WBC count is below 1100 cells/mm³ and the neutrophil percentage is less than 64%, the negative predictive value of knee aspiration is 98.2%; when both values are above these thresholds, the positive predictive value is 98.6%.⁸

It is important to note that these values are only accurate more than six weeks following TKA surgery due to postoperative inflammation that can impact cell count and differential aspiration results prior to that time period.

Preoperative aspiration had a sensitivity of 67% and a specificity of 96% and, therefore, has been identified as the most useful single test in the workup of the painful TKA.¹⁶