Abstract
We aimed to measure cerebral microemboli load during total hip [THA] and knee arthroplasty (TKA) using transcranial Doppler ultrasound (TCD) and to investigate whether cerebral embolic load influences neuropsychiatric outcome. The timing of the microemboli was also related to certain surgical activities to determine if a specific relationship exists and the presence of a patent foramen ovale was investigated.
Patients undergoing primary THA and TKA underwent a battery of ten neuropsychiatric tests pre-operatively and at 6 weeks and 6 months post-operatively. Microembolic load was recorded using TCD onto VHS tape for subsequent analysis. Patent foramen ovale detection was performed using bolus intravenous injection of agitated saline followed by valsalva manoeuvre. The timing of specific surgical steps was recorded for each operation and embolic load calculated for that period. All patients were assessed for quality of life and orthopaedic outcome measures.
Results
45 THA patients and 50 TKA patients were studied. Cerebral microembolisation occurred in 35% of all patients (10 THA patients and 19 TKA patients). Mean microembolic load was 2.8 per patient for THA and 3.76 per patient for TKA patients. PFO was detected in 29 patients overall. Insertion of the femoral component and deflation of the tourniquet were associated with a larger microembolic loads. Neuropsychiatric outcome was not affected by the low embolic loads. Quality of life and Orthopaedic outcome at 6 months was good.
Conclusion
Cerebral microembolisation occurs in a significant proportion of patients during total hip and knee arthroplasty. The presence of a patent foramen ovale does not appear to influence the incidence of microembolisation or load. Specific surgical activities are associated with generating greater embolic loads and methods of avoiding these emboli such as venting the femur may minimise complications and optimise outcomes. Neuropsychiatric outcomes do not seem to be affected by microembolisation of the brain during total joint arthroplasty.