Trials / Completed

CompletedNCT05023343

Transmucular Quadratus Lumborum Block: Potential Quadriceps Muscle Weakness

Does Administration of the Transmuscular Quadratus Lumborum Block Cause Quadriceps Muscle Weakness: A Randomised, Double-blinded Volunteer Study

Summary

The aim of this study is to examine whether the administration of the TQL block cause motor block of the lumbar plexus and thereby quadriceps muscle weakness. The investigators hypothesise that the administration of a unilateral TQL block does not cause quadriceps muscle weakness compared to a placebo block.

Detailed description

The ideal postoperative analgesic regimen following major abdominal and retroperitoneal laparoscopic surgery still lacks consensus and the discussion is ongoing. The epidural blockade has been the gold standard for postoperative pain management for major abdominal surgery for years, but with the conversion to minimal invasive surgery the procedure can rarely be justified. The use of a multimodal analgesic regimen with opioids can cause severe side effects. These side effects can delay mobilisation after surgery, increase the risk of complications and worst of all be fatal. The focus on an opioid sparing regimen, in the enhanced recovery setting, has been a significant motivator for the addition of ultrasound-guided nerve blocks to the perioperative progression. At the Department of Anaesthesiology, Zealand University Hospital, the ultrasound-guided Transmuscular Quadratus Lumborum (TQL) block is part of the perioperative pain regimen for major laparoscopic abdominal and retroperitoneal surgeries, as well as for elective caesarean sections. Using the visual guidance of ultrasound, the injectate of local anaesthetic is administered in the fascial interspace between the quadratus lumborum muscle and the psoas major muscle posterior to the transversalis fascia. This will anaesthetise the abdominal wall including both somatic and visceral nerves. No involvement of lumbar plexus i.e. the femoral nerve, obturator nerve or the lumbar part of the sympathetic trunk was observed. The lack of lumbar plexus involvement means no motor block of the lower extremities should be observed. Previous clinical studies reported no adverse events. However, the investigators did not specifically register lower limb weakness or hypotension, but on the other hand did not find any difference in ambulation or even faster ambulation compared to the placebo group. A few case reports have reported complications related to the various quadratus lumborum blocks. Ueshima et al. reported that 90% (65/81 cases) experienced quadriceps muscle weakness following a TQL block. The incidence was 19% for posterior QL block and 1% for lateral QL block. Lower limb weakness was also reported by Wikner et al. following a bilateral lateral QL block. A case of continuous hypotension after administration of a lateral QL block has been described. One case of unilateral upper limb weakness and Horners Syndrome after a bilateral posterior QL block has also been reported. Urinary retention was reported following a continuous TQL-block. All side effects were temporary, no one reported permanent injuries. Complications have not been reported systematically. At Zealand University Hospital, Roskilde, the investigators have administrated more than 1000 TQL blocks, and more than 300 patients have been included in various clinical trials. From clinical experience and cadaveric studies, the investigators find no evidence that the TQL block spread to the epidural space, and therefore does not cause sympathetic symptoms. Neither does the TQL block spread to the lumbar plexus, and therefore does not cause motor weakness of the lower extremities. However these notions have never been properly investigated in a controlled clinical setting, meaning that the investigators cannot entirely rule out the possibility of a spread to the lumbar plexus and thus ensuing quadriceps muscle weakness. This calls for a more in-depth investigation of this potential phenomenon. Therefore, the aim of this study is to examine whether the administration of the TQL block cause motor block of the lumbar plexus and thereby quadriceps muscle weakness. Prior to block administration all participants are tested using the same motor tests as after the block administration(baseline tests). All participants will receive two TQL blocks. To keep participants and outcome assessors blinded the study drug for each side will be randomised i.e. active treatment on one side and placebo on the contralateral side. The investigators hypothesise that the administration of a unilateral TQL block does not cause quadriceps muscle weakness compared to a placebo block. Sub-study: Fascial plane nerve blocks demand a great volume of local anaesthetic to achieve the right spread of local anaesthetic and thus a sufficient analgesia. The correct concentration and volume of local anaesthetic is still debated. Studies measuring serum concentrations of local anaesthetic are rare due to time consumption and high costs. When administering a unilateral TQL block a volume of 30 ml local anaesthetic is used often equal to the maximum single-shot dose of ropivacaine; i.e. 225 milligrams. In previous studies and in the usual clinical setting the investigators have never experienced any signs of systemic toxicity, however the maximum serum concentration of local anaesthetic following TQL block administration has never been investigated. The maximum serum ropivacaine concentration following administration of a TQL block will therefore be investigated for all participants.

Conditions

• Neuromuscular Blockade

Interventions

Timeline

Start date

2021-10-02

Primary completion

2021-11-28

Completion

2021-11-28

First posted

2021-08-26

Last updated

2021-12-21

Locations

1 site across 1 country: Denmark

Source: ClinicalTrials.gov record NCT05023343. Inclusion in this directory is not an endorsement.