Clinical Trials Logo
  1. Home
  2. Postoperative Pain
  3. NCT06139666

The Effect of Liposomal Bupivacaine Nerve Block (Exparel) in Rotator Cuff Surgery

Postoperative Pain Clinical Trial

Official title:
The Effect of Liposomal Bupivacaine Nerve Block on Postoperative Pain After a Rotator Cuff Repair or Shoulder Arthroscopy

Clinical Trial Summary

The goal of this clinical trial is to investigate if there is a difference in pain after an arthroscopic rotator cuff surgery when a nerve block is performed with liposomal bupivacaine versus the standard treatment of bupivacaine alone. The main question aims to answer if patients who receive liposomal bupivacaine have better pain control and lower postoperative opioid consumption compared to bupivacaine alone. Participants be randomized to either the control group to receive a standard interscalene block with bupivacaine (25 cc of bupivacaine) or the experimental group to receive similar dosing of liposomal bupivacaine mixed with bupivacaine (10cc liposomal bupivacaine + 15cc bupivacaine). Data will be prospectively collected and the data from the experimental group will be compared to the control group at the completion of the study period.

Clinical Trial Description

Nerve blocks are typically performed for shoulder surgery for perioperative pain control. This is performed in the shoulder using an interscalene block, which is localized between the anterior and middle scalene muscles in the neck and provides analgesia to the clavicle, shoulder and its capsule and some to the arm. Using this method allows for conscious sedation to be used over general anesthesia, mitigating the dangers associated with the latter, and also comes with the added benefit of providing improved postoperative analgesia. Bupivacaine is the medication that is typically used for these procedures to provide the analgesia in these sensory patterns. It works by binding to the intracellular portion of voltage-gated sodium channels, preventing depolarization of the nerve and subsequently inhibiting transmission of nerve signals. Typical interscalene blocks have been shown to have pain control for 6-8 hours and have an effect decreasing opioid usage for up to 24 hours. Liposomal bupivacaine, trade name Exparel, was recently introduced as an alternative to drugs such as bupivacaine, but boasting a longer duration of action. In Exparel, bupivacaine is stored in liposomes, which allows for a controlled and longer duration of release of the analgesia-producing molecules. This allows nerve blockades to last longer, allowing for longer prevention of neurotransmitter release. It was initially only approved for local infiltration, most notably in the joint capsule for a total knee arthroplasty. Recently however, it was FDA approved for interscalene blocks, opening up a new avenue for pain control modalities. No studies have yet been performed comparing the difference in analgesia provided by liposomal bupivacaine compared to bupivacaine alone in the context of interscalene blocks in rotator cuff surgery Nerve blocks with local anesthetics has been proven safe and effective for perioperative pain control. With recent talks of healthcare providers decreasing narcotic usage postoperatively in an effort to prevent opiate addiction, longer acting nerve blocks are becoming more and more appealing. By increasing the duration of a nerve blockade, postoperative narcotic use may be significantly decreased, with minimal risk of harm to the patient. This is a prospective, double-blinded (surgeon and patient) randomized therapeutic trial. Patients will either receive a standard interscalene block with bupivacaine (25 cc of bupivacaine) or will receive similar dosing of liposomal bupivacaine mixed with bupivacaine (10cc liposomal bupivacaine + 15cc bupivacaine), which has recently been approved and instituted. These blocks (both) are currently in practice at the study institution and the decision of which to use is currently up to the anesthesiologist. It is current practice that every patient undergoing a rotator cuff surgery is offered a nerve block. Data will be prospectively collected and the data from the experimental group will be compared to the control group at the completion of the study period. Patents will present for surgery and follow up postoperatively as they would routinely for rotator cuff surgery or shoulder arthroscopy. The anesthesiologist administering the injection will be not be blinded to the mixture of injection (the surgeon and the patient will), which will be designated and randomized prior to administration. They will order and draw up the medication as they have been previously with no change in the standard of care. When discharged home, patients will be asked to keep a log of their narcotic consumption, as well as bringing in their prescription vial to the postoperative follow up and also logging other medications that are consumed during this time period. They will also be asked to log their pain scores in the form of a standardized VAS pain scale form that they will fill out daily until their first follow up visit. ;

Study Design

Related Conditions & MeSH terms

Clinical Trial Details
NCT number NCT06139666
Study type Interventional
Source The Cooper Health System
Contact
Status Enrolling by invitation
Phase Phase 4
Start date July 11, 2019
Completion date June 1, 2025
View Details
See also
  Status Clinical Trial Phase
Completed NCT04633850 - Implementation of Adjuvants in Intercostal Nerve Blockades for Thoracoscopic Surgery in Pulmonary Cancer Patients
Recruiting NCT03181620 - Sedation Administration Timing: Intermittent Dosing Reduces Time to Extubation N/A
Completed NCT04579354 - Virtual Reality (VR) Tour to Reduce Preoperative Anxiety Before Anaesthesia N/A
Recruiting NCT06007378 - Optimizing Postoperative Pain Control After Laparoscopic Colorectal Surgery N/A
Recruiting NCT05943015 - Analgesic Efficacy of Quadratus Lumborum, Paravertebral Blocks N/A
Completed NCT04544228 - Ketamine or Neostigmine for Serratus Anterior Plane Block in Modified Radical Mastectomy N/A
Completed NCT03678168 - A Comparison Between Conventional Throat Packs and Pharyngeal Placement of Tampons in Rhinology Surgeries N/A
Completed NCT03286543 - Electrical Stimulation for the Treatment of Pain Following Total Knee Arthroplasty Using the SPRINT Beta System N/A
Completed NCT03663478 - Continuous TQL Block for Elective Cesarean Section Phase 4
Completed NCT04176822 - Designing Animated Movie for Preoperative Period N/A
Completed NCT05170477 - Influence of Apical Patency Concept Upon Postoperative Pain After Root Canal Treatment N/A
Completed NCT06425601 - A Comparison of Silicone Versus Polyvinylchloride (PVC) Drains Following VATS Lobectomy N/A
Not yet recruiting NCT04561856 - Fascia Iliaca Block Supplemented With Perineural Vs Intravenous Dexamethasone Phase 4
Completed NCT03612947 - TAP Block in Laparoscopic Cholecystectomy. Phase 2
Completed NCT05974501 - Pre vs Post Block in Total Knee Arthroplasty (TKA) Phase 4
Completed NCT05995912 - Efficacy and Safety of Etoricoxib-tramadol Tablet in Acute Postoperative Pain Phase 2
Completed NCT04571515 - Dose-Response Study of MR-107A-01 in The Treatment of Post-Surgical Dental Pain Phase 2
Active, not recruiting NCT04190355 - The Effect of Irrigant Types Used During Endodontic Treatment on Postoperative Pain N/A
Recruiting NCT05145153 - Incidence of Chronic Pain After Thoracic Surgery
Recruiting NCT03697278 - Monitoring Postoperative Patient-controlled Analgesia (PCA) N/A