Effectiveness of Adductor Canal Block Using Liposomal Bupivacaine

Overview

With aging of population, osteoarthritis of knees and hips become major orthopaedic problems in Hong Kong. Osteoarthritis of knees and hips are associated with significant pain problem and functional disability. Total joints replacement is the ultimate surgical procedures to deal with such problems. However total joints replacement is associated with significant tissue damage and post-operative pain problems, which would affect post-operative recovery and rehabilitation. The primary aims of total knee replacement are improvement in functional activities and reduce pain due to degenerated knee joints. However, there are around 20-30% of patients would develop significant pain problem despite uncomplicated total knee replacement. It accounts for major post-operative problems and burdens. Procedure specific analgesic method with multi-model analgesia technique is well-known to be useful in post-operative pain management, which reduces the post-operative pain score. However, despite using of multi-modal analgesic technique, pain after total joint replacement is still the most unsolved issue. It prolongs the recovery period and increases post-operative analgesic consumptions. Multimodal analgesia, including periarticular local infiltration of analgesia (LIA), regional nerve block, opioid and non-opioid have been shown to be effective in managing postoperative pain. Periarticular LIA has been shown to be an effective way of pain management. Regional nerve block using femoral nerve block or adductor canal block (ACB) is also a well-established anlagesic technique after total knee replacement. Comparing with femoral nerve block, it involves more sensory blockade so has the advantage of quadriceps sparing, less affecting the post-operative mobilization. From most recent systematic reviews and randomized controlled trials, it becomes clear that periarticular LIA has better pain control with less opioid consumption than ACB alone. However, duration of a single-dose LIA may not be long enough after total knee replacement. Recent meta-analysis has shown that combined ACB with LIA could significantly reduce pain scores and morphine consumption compared LIA alone after TKA. Standard bupivacaine, levobupivocaine, ropivocaine were used in ACB in these studies. They are local anaesthetic with half-life ranging from 3-6 hours. With the availability of liposomal bupivacaine (LB), ACB using LB may further prolong the analgesic effect of ACB as the therapeutic levels of bupivacaine, which are below the toxic range and sustained for 72 hours after injection. Therefore, the issue is whether ACB using LB has even longer analgesic effect than plain bupivacaine or ropivacaine. There was only one study directly compared ACB using LB and 0.1% ropivociane infusion. It was shown that LB had significant impact in pain control in the first 36 hours. However, this was a retrospective study and there was difference in delivery of local anaesthetics (single shot injection for liposomal bupivacaine but continuous infusion for ropivacaine). The primary aim of this study is to investigate whether ACB using liposomal bupivacaine has even longer analgesic effect than standard bupivacaine (SB) and its cost effectiveness. Secondary aims are to evaluate the pharmacokinetic data of standard bupivacaine and liposomal bupivacaine in adductor canal block and pharmacokinetic data of ropivocaine level in LIA.