Obtaining informed consent for an operation is a fundamental daily interaction between orthopaedic surgeon and patient. It is based on a patient's capacity to understand and retain information about the proposed procedure, the potential consequences of having it and the alternative options available. We used validated tests of memory on 59 patients undergoing lower limb arthroplasty to assess how well they learned and recalled information about their planned procedure. All patients showed an ability to learn new material, however, younger age and higher educational achievement correlated with better performance. These results have serious implications for orthopaedic surgeons discussing planned procedures. They identify groups of patients who may require enhanced methods of communicating the objectives, risks and alternatives to surgery. Further research is necessary to assess interventions to improve communication prior to surgery.
Background. Traditionally, a Surgical Tourniquet (ST) is used during Total Knee Replacement Surgery (TKRS) to prevent blood flow to the leg and improve the surgical field of view. The use of a ST is known to increase the risk of venous thromboembolism. Echogenic material, suggestive of emboli has been observed in the brain following ST deflation in TKRS despite the absence of a patent foramen ovale, likely through pulmonary shunts. The aim of this study was to assess whether cerebral emboli result from tourniquet use in TKRS and the sequelae of any emboli. Methods. 11 subjects from a single centre undergoing routine TKRS with a ST gave informed consent. Each participant had diffusion weighted MR brain imaging prior to, and within 48 hours after TKRS and completed pre and post-operative mini-mental state examinations (MMSE). Results. Pre and post-operative MR imaging were assessed by a senior radiologist and the results were reported according to Age and Cognitive Performance Research Centre (ACPRC) rating scale. There were no changes from pre and post-operative MR scans. 4 participants (36%) had no change in MMSE scores. These participants had a score of 1 or 0 in both MR scans. 7 participants (63%) had a score of 2 or 3. These participants had mean 2.8 point (9.5%) drop on MMSE (IQR = 1) within 48 hours. Conclusions. In this small, exploratory study we found no evidence of discrete cerebral emboli occurring with the use of ST in TKRS. Interestingly, participants noted to have minimal or no pre-operative ischaemic change appeared to maintain more