Efficacy of Non-weight Based, Low Dose Dex-Dex Adjuncts in Prolonging Peripheral Nerve Blocks (Dex-Dex PNB)

The standard practice for anesthesia in non-weight-bearing orthopedic foot and ankle surgery is to offer the patient popliteal (sciatic nerve) and saphenous (distal branch of femoral nerve) peripheral nerve blocks for postoperative pain control to minimize opioid requirements. Similarly, supraclavicular nerve blocks that decrease painful stimuli transmission through the brachial plexus are offered to patients undergoing shoulder joint procedures. For these peripheral nerve blocks, it is routine to use dexamethasone (glucocorticoid) as an additive in the local anesthetic injection which can prolong the local anesthetic effect of the blocks by 4-8 hours with minimal side effects observed and no dose-response relationship with perineural injection doses of 4, 8, 10, and 12mg. Though the precise mechanism of action has not been fully understood, it is largely believed that perineural injection of dexamethasone increases the effects of local anesthetics at least in part due to vasoconstriction.

Current literature suggests that 1-2 mcg/kg of dexmedetomidine will also prolong the peripheral nerve blocks but consistent utilization thus far has been limited by side-effects of higher, more efficacious doses. The potential dose-dependent side effects associated with the use of perineural dexmedetomidine include bradycardia, hypotension, and excessive sedation. There are minimal to no side-effects observed when perineural dexmedetomidine doses are kept below 1 mcg/kg. However, its effects on prolonging nerve blocks are not significant until the dose is increased to 1.5 mcg/kg where the nerve block is extended roughly 4-8 hours, similar to using dexamethasone as an adjunct. At doses greater than 2 mcg/kg, however, the nerve block can last up to 2-3 days but at the tradeoff of increased perioperative bradycardia and hypotension from presumed systemic absorption and dexmedetomidine's highly selective α2 agonist effects. Another study showed that when a low, non-weight-based dose of 50 mcg of dexmedetomidine was used in adults weighing over 50 kg, the duration of analgesia was improved, but its effects were less than 8 mg of dexamethasone as an adjunct, and the improvement of the duration of blockade at this low dose of dexmedetomidine was not significant. When both dexamethasone and dexmedetomidine were utilized as intravenous adjuncts administered at the time of performing the nerve blocks instead of in the perineural injection, Maagaard et al. discovered that dexamethasone improved the duration of analgesia of popliteal and saphenous nerve blocks in patients undergoing foot and ankle surgeries with or without dexmedetomidine. These findings support the theory that dexmedetomidine's local effects at the site of the injection, as opposed to its systemic analgesic effects on α2 receptors in the central nervous system, may be predominantly responsible for its role as an adjunct in prolonging the effects of local anesthetics in peripheral nerve blocks. The theory is also supported by Brummett et al and their findings that the analgesic effects of dexmedetomidine as an adjunct could not be reversed by an α2 receptor antagonist given systemically.

This study aims to determine a safe and effective approach for using dexamethasone and dexmedetomidine in combination using low, non-weight based (NWB) doses of both adjuncts. The researchers plan to track the duration of the blocks for 7 days postoperatively as well as any unwanted side effects in the post-anesthesia care unit including: hypotension, bradycardia, oversedation, and respiratory depression. The research team will contact subjects by email and rely on daily participant surveys (REDCap Survey POD #0) submitted electronically to provide subjective feedback on block duration and postoperative pain for 7 days using the PROMIS pain scale within the survey. Participants will also report pain medication usage for the same time frame including both opioid and non-opioid medications. Side effects in the post anesthesia care unit (PACU) will be documented by PACU nurses using the POSS sedation scale and comparing vital signs such as heart rate and blood pressure at 15- and 30-minute intervals to pre-operation recordings. Subjects might receive a phone call reminder to complete the daily surveys after their surgery, or if the research team notices that they have not completed the surveys on time.

Preliminary data has been very promising. The investigator's facility has thus far declined the use of liposomal bupivacaine, which has limited the ability to offer the patients peripheral nerve blocks lasting greater than 24 hours. Therefore, to extend the length of our peripheral nerve blocks the research team added both 4 mg dexamethasone and 50 mcg dexmedetomidine to 30 ml of 0.5% ropivacaine for lower extremity blocks for patients that would benefit from a prolonged nerve block for postoperative pain. The roughly 31.5 ml solution is then split evenly between the popliteal and saphenous nerve blocks. The investigators observed that these blocks frequently extended the duration of the block to 2-5 days compared to the standard 20-24 hours normally observed with dexamethasone adjunct alone. Similarly, the exact same additives (4 mg dexamethasone and 50 mcg dexmedetomidine) have been added to 15 ml of 0.5% Ropivacaine for shoulder procedures with similar observations noted of increased duration. This posed a research question that the investigators wishe to investigate further that compares their usual practice of blocks with ropivacaine and dexamethasone alone to blocks utilizing both dexamethasone and dexmedetomidine as adjuncts. The investigators chose the dexmedetomidine dose in combination with their inclusion criteria of adults weighing more than 50 kg so that the patients in this study will not receive a dexmedetomidine adjunct dose that is greater than 1 mcg/kg.

For the initial research the investigators plan on recruiting patients who are undergoing foot and ankle surgery who are not expected to participate in weight-bearing physical rehabilitation immediately after surgery and that would benefit from a potential multi-day nerve block for primary pain management. The investigators also plan on recruiting patients undergoing extensive shoulder surgery such as total shoulder arthroplasty and rotator cuff repairs because these procedures tend to have higher observed post-operative pain associated and the patients are not expected to participate in active rehabilitation immediately after surgery.