Liposome bupivacaine in peripheral nerve blocks and epidural injections to manage postoperative pain

IntroductionThe duration of postsurgical pain greatly outlasts the duration of analgesia (typically < 12 h) following single administration of traditional formulations of local anesthetics. Bupivacaine , one of the most widely studied and extensively used local anesthetics, is now available in a liposomal formulation that has shown promise of providing postsurgical analgesia for a duration of up to 72 h when administered as part of a peripheral (e.g., femoral) or neuraxial (e.g., epidural) nerve block. However, it is currently approved for administration in the surgical site.Areas coveredThis publication provides an overview of liposome bupivacaine and its potential utility in peripheral nerve blocks and epidural administration.Expert opinionThe potential to provide postoperative analgesia lasting 3 days with a single administration at the time of surgery holds considerable promise. This modality could have distinct advantages over currently available techniques, such as continuous perineural local anesthetic infusion, as it would preclude the need for a catheter and pump. However, potential risks and benefits of liposome bupivacaine in peripheral and neuraxial nerve blocks must be further elucidated in surgical populations, and US Food and Drug Administration (FDA) approval must be granted for these indications. Until FDA approval is provided, the use of liposome bupivacaine in peripheral and neuraxial nerve blocks must be considered investigational

Controlled release drug delivery systems to improve post-operative pharmacotherapy

Over 230 million surgical procedures are conducted worldwide each year with numbers increasing. Pain, undesirable inflammation and infection are common complications experienced by patients following surgery. Opioids, non-steroidal anti-inflammatory drugs (NSAIDs), local anaesthetics (LAs) and antibiotics are the commonly administered drugs peri-operatively to manage these complications. Post-operative pharmacotherapy is typically achieved using immediate-release dosage forms of drugs, which lead to issues around fluctuating plasma concentrations, systemic adverse effects and poor patient adherence. Controlled release (CR) systems for certain medicines including opioids, NSAIDs and antibiotics have demonstrably enhanced treatment efficacy in the post-surgical setting. However, challenges remain to ensure patient safety while achieving individual therapeutic needs. Newer CR systems in the research and development pipeline have a high level of control over medicine release, which can be initiated, tuned or stopped on-demand. Future systems will self-regulate drug release in response to biological markers providing precise individualized therapy. In this review, we cover currently adopted CR systems in post-operative pharmacotherapy, including drug eluting medical devices, and highlight a series of examples of novel CR technologies that have the potential for translation into post-surgical settings to improve medication efficacy and enhance post-surgical recovery.<br/