62 Clinical Trials for Various Conditions
This study is evaluating music vs midazolam as a means of anxiolysis for preoperative single-shot nerve block placement.
Liposomal Bupivacaine (Exparel) has been recently studied as the active agent utilized in various nerve block. Due to its liposomal form allowing for extended delivery, Exparel has been used in various peri-operative nerve blocks among multiple orthopaedic specialties in hopes of achieving improved pain control and decreased opioid use. This study compares the efficacy and effect on opioid use of peripheral nerve blocks and local infiltration with and without Exparel in patients undergoing foot and ankle surgery.
This is a single-center, prospective study to be undertaken at University of Oregon, Portland, USA. The aim is to provide data on the clinical performance of ScanNav Anatomy PNB for identification of anatomical structures during UGRA scanning, in particular: 1. Assess the benefits of the device to intended users when supervising a trainee who is performing UGRA scanning. 2. Assess the benefits of the device when intended users perform UGRA scanning. 3. Assess risk mitigation by the intended users when performing UGRA scanning.
This is a single-center, prospective study to be undertaken at University of Oregon, Portland, USA. The aim is to evaluate the clinical performance of ScanNav Anatomy PNB when highlighting anatomical structures during UGRA scanning. Specifically, we aim to assess and quantify the correct/incorrect highlighting of anatomical structures associated with ScanNav Anatomy PNB during UGRA scanning.
This study will assess if preoperative quadratus lumborum block (QLB)/lateral femoral cutaneous nerve block (LFCNB) with ropivacaine and glucocorticoids provide more effective analgesia than periarticular injection (PAI) with the same mixture in total hip arthroplasty (THA).
Liposomal bupivacaine has gained interest in recent literature for its potential to be an effective adjunct to other pain control modalities in a multi-modal approach to post-operative pain control. The goal of this investigation is to compare the efficacy of local administration of liposomal bupivacaine versus the efficacy of a peripheral nerve block in terms of post-operative pain scores after elective ankle and hindfoot surgery. The investigators hypothesize that there will not be a significant difference in the pain scores of these two groups in opioid naïve patients.
This investigation will be a prospective, randomized trial. The study population will consist of adult patients scheduled to undergo major shoulder arthroscopy procedures with anesthesiology at the Ambulatory Services Center (Outpatient Surgery Center). Forty-six subjects will be enrolled in this study and will be randomized into one of two arms: 1) Single-injection bupivacaine HCl plus a subsequent bupivacaine CISB, 2) Single-injection bupivacaine HCl plus liposomal bupivacaine included in the same injection. These procedures will take place, using an ultrasound-guided method, approximately one hour prior to surgical procedure. Subjects will be followed for seven days to assess pain control by the Modified Brief Pain Inventory (MBPI) survey and outcome factors related to study and procedure using the American Shoulder and Elbow Surgeon Shoulder Score (ASES Shoulder Score).
Ankle arthritis is associated with debilitating pain and chronic disability. For the treatment of severe ankle arthritis, total ankle arthroplasty (TAA) is one treatment option. Postoperative pain management in joint arthroplasty is an ongoing and relevant issue. The purpose of this study is to examine if differences exist in postoperative pain control, overall patient satisfaction, and use of narcotics using an intra-articular injection in the operating room compared with a peripheral nerve block in patients undergoing TAA.
When a limb is amputated, pain perceived in the part of the body that no longer exists often develops, called "phantom limb" pain. The exact reason that phantom limb pain occurs is unclear, but when a nerve is cut-as happens with an amputation-changes occur in the brain and spinal cord that are associated with persistent pain. The negative feedback-loop between the injured limb and the brain can be stopped by putting local anesthetic-called a "nerve block"-on the injured nerve, effectively keeping any "bad signals" from reaching the brain. A "continuous peripheral nerve block" (CPNB) is a technique providing pain relief that involves inserting a tiny tube-smaller than a piece of spaghetti-through the skin and next to the target nerve. Local anesthetic is then introduced through the tiny tube, which bathes the nerve in the numbing medicine. This provides a multiple-day block that provides opioid-free pain control with no systemic side effects, and may prevent the destructive feedback loop that results in phantom limb pain following an amputation. We propose a multicenter, randomized, triple-masked (investigators, subjects, statisticians), placebo-controlled, parallel arm, human-subjects clinical trial to determine if a prolonged, high-concentration (dense), perioperative CPNB improves post-amputation physical and emotional functioning while decreasing opioid consumption, primarily by preventing chronic phantom limb pain.
Surgery performed with nerve blocks and sedation may be safer and provide better pain control compared to general anesthesia and opioid therapy in high-risk patient populations such as elderly and troubled with peripheral vascular disease, diabetes, hypertension, coronary artery disease, and chronic obstructive pulmonary disease (COPD).
This study will be a double-blinded randomized controlled trial analyzing all patients who will undergo major lower extremity amputations by the vascular surgery service at University of California, San Francisco (UCSF) Fresno between July 2017 and June 2018 to determine if regional nerve blocks (sciatic and femoral) have any effect on postoperative pain control, narcotic requirements, and length of stay compared with standard post-operative narcotic regimens.
The investigators' objective is to evaluate whether any of the various peripheral nerve block catheter dressing strategies currently employed by the Boston Children's Hospital Regional Anesthesia Service has any differential impact on specific outcome endpoints such as regional block catheter dislodgement, catheter occlusion, catheter leakage, skin irritation, and skin infection.
The objective of this research is to determine if the addition of the Clear Guide ONE, a Computer Assisted Instrument Guidance (CAIG) system, provides improvement over existing ultrasound guided, needle-based procedures for peripheral nerve blocks. The ultrasound can visualize the targeted vessel or nerve, but the addition of the CAIG may help the clinician better guide the needle to the target.
This study will investigate the ability of systemic dexamethasone to prolong the sensory block duration for lumbar plexus nerve blockade.
This study will look at the efficacy of dexamethasone for prolongation of peripheral nerve blocks.
Context: Single shot peripheral nerve blocks have limited duration of action depending on the local anesthetic agent used in the block. But it rarely lasts longer than 12 hrs. Patients need oral analgesics at home once the block wears off to control the pain. Objectives: Primary Objective To determine if peripheral nerve blocks have any advantage in terms of decreasing oral analgesic requirements in the post operative period even after the effects of the block have worn off Secondary Objective To determine if inclusion of single shot regional technique improves patient/family satisfaction with post operative pain management . Study Design: Prospective randomized single blinded study. Inclusion Criteria * Children aged between 6 yr and 17yr scheduled for ambulatory peripheral orthopedic surgery with moderate to severe postoperative pain. * Surgery of moderate duration (\<2hr) * Surgery associated with minimal blood loss or fluid shifts (\<10% total blood volume) * American Society of Anesthesiologists (ASA) classification 1 or 2 * Parents able to understand follow up instructions and are able to reach at home by phone Exclusion Criteria * Known allergy to local anesthetics * Preexisting neuropathy with sensory or motor deficits * Skin infection at site of needle placement * Parents refusal for peripheral nerve blocks
The purpose of this study is to find a better way to make patients comfortable after their knee surgery. The investigators compared three ways of providing pain relief, either by use of a nerve block at the femoral and sciatic nerve areas, or with actual injections in the surgical joint area with one of two different medicines, either ropivacaine or liposomal bupivacaine (Exparel®). The hypothesis was that the nerve block at the femoral and sciatic nerve areas would result in lower pain scores and opioid consumption than either of the two injections in the surgical joint area.
When a limb is traumatically severed, pain perceived in the part of the body that no longer exists often develops. This is called "phantom limb" pain, and is different from "stump" pain, which is pain within the part of the limb that remains intact. Unfortunately, phantom pain resolves in only 16% of people, with the rest experiencing this pain for the remainder of the lives. There is currently no reliable treatment for phantom limb pain. The exact reason that phantom limb pain occurs is unclear, but when a nerve is cut-as happens with a traumatic amputation-changes occur in the brain and spinal cord that actually worsen with increasing phantom pain. These abnormal changes may often be corrected by putting local anesthetic-termed a "peripheral nerve block"-on the injured nerve, keeping any "bad signals" from reaching the brain, with resolution of the phantom limb pain. However, when the nerve block ends after a few hours, the phantom pain returns. But, this demonstrates that the brain abnormalities-and phantom pain-that occur with an amputation may be dependent upon the "bad" signals being sent from the injured nerve(s), suggesting that a very long peripheral nerve block-lasting many days rather than hours-may permanently reverse the abnormal changes in the brain, and provide lasting relief from phantom pain. Until recently, extending a peripheral nerve block beyond 16 hours was unrealistic. However, a treatment option called a "continuous peripheral nerve block" is now available. This technique involves the placement of a tiny tube-smaller than a piece of spaghetti-through the skin and next to the nerves supplying the amputated limb. The tiny tube may be placed with minimal discomfort in about 15 minutes. Numbing medicine called local anesthetic is then infused through the tube, blocking any signals that the injured nerve sends to the spinal cord and brain. Using a small, portable infusion pump, this prolonged nerve block may be provided in individuals' own homes. The ultimate objective of the proposed research study is to determine if a 6-day continuous peripheral nerve block provided at home is an effective treatment for persistent phantom limb pain following a traumatic limb amputation. The primary hypothesis (what the researchers predict) is that phantom limb pain intensity will be significantly decreased 4 weeks following treatment with a 6-day continuous peripheral nerve block.
Patients typically experience moderate-to-severe pain following knee arthroplasty that is usually treated with a combination of oral and intravenous analgesics and enhanced by continuous peripheral nerve blocks. There are currently two locations to place a perineural catheter to provide analgesia following knee arthroplasty: a femoral nerve catheter and an adductor canal catheter. Both have been demonstrated to be effective following knee arthroplasty. However, it remains unknown if one location is superior to the other; or, more accurately, what the relative benefits are to each technique. While femoral CPNB has many benefits, one of the challenges of using this technique is that there is a decrease in quadriceps muscle strength which can be a limiting factor for rehabilitation. In contrast, the adductor canal catheter affects only the vastus medialis. This block may lessen block-induced quadriceps weakness following knee arthroplasty compared with a femoral infusion. The investigators hypothesize that compared with femoral perineural local anesthetic infusion, an adductor canal infusion is associated with a shorter time until four discharge criteria are met: (1) adequate analgesia; (2) independence from intravenous analgesics; (3) ability to ambulate 30 m; and (4) ability to stand, walk 3 m, and return to a sitting position without another's assistance.
After undergoing a laparoscopic appendectomy, a child may experience some degree of pain in the postoperative period. As a routine part of the procedure, surgeons inject local anesthetic where the laparoscopic ports are placed. This provides some pain relief, but most children will still require additional pain medications after surgery. The purpose of the study is to see if a combination of peripheral nerve blocks (rectus sheath and ilioinguinal nerve) will give better pain relief, decreasing pain medication requirements and increasing comfort during the postoperative period.
Continuous peripheral nerve blocks (CPNB; also known as "perineural" catheters) provide target-specific pain control for a variety of surgeries. There has been increasing interest in the use of ultrasound guidance for regional anesthesia, and many techniques using ultrasound alone for perineural catheter insertion have been described. Catheters may be placed at various points along the brachial plexus (for upper extremity procedures) or in proximity to the femoral and/or sciatic nerve (for lower extremity procedures). To date, the optimal ultrasound scanning technique, catheter insertion endpoint, catheter placement location per indication, for the majority of ultrasound-guided continuous peripheral nerve blocks remain unknown. This study will help provide important information related to optimal ultrasound scanning techniques and will help identify ways to improve the success rates, onset times, and analgesic effectiveness of these techniques for real patients undergoing surgical procedures.
Peripheral nerve blocks are used to provide post-operative pain relief. Nerve blocks in the neck, in the interscalene area, provide pain relief after shoulder surgery but can cause temporary weakness or paralysis of the diaphragm. The investigators hypothesized that a lower concentration of bupivacaine would cause less weakness of the diaphragm but still provide good pain relief. Lung function and pain control was studied after interscalene peripheral nerve block with 20 milliliters of 0.25% bupivacaine or 0.125% bupivacaine.
Transversus abdominis plane (TAP) blocks are increasingly being performed after abdominal surgery to provide post operative analgesia. Dexamethasone has demonstrated an ability to prolong the effective duration of analgesia in several different peripheral nerve blocks. The study will examine, in a blinded, prospective and randomized fashion, whether the addition of dexamethasone to TAP blocks similarly prolongs blockade and pain relief. The study will compare local anesthetic with and without the addition of dexamethasone in the TAP block.
This is a research study to determine if the effects of continuous peripheral nerve blocks are influenced by the distance of insertion past the needle tip of the perineural catheter.
The purpose of this research study is to determine if the insertion site of a perineural catheter, or tiny tube placed next to the nerves that go to the hip which you will have surgery, affects the amount of pain relief that is experienced after surgery.
The investigators hypothesize that patients who receive a femoral catheter with low dose epidural Depodur will experience comparable or superior pain relief than those who receive both femoral and sciatic catheters. In addition, the investigators hypothesize that the one catheter will be less time consuming to place and facilitate early ambulation of the patient.
This research study is to determine if the insertion site of a perineural catheter or tiny tube placed next to the nerves that go to the part of the body (hand or arm) having surgery, affects the amount of pain relief that is experienced after surgery. Catheters will be placed in either the supraclavicular or infraclavicular location.
The purpose of this study is to determine the effect of a local anesthetic nerve block on markers of inflammation and pain after a sunburn. This is important because it may provide information regarding the way that nerve blocks help with the treatment of pain and in particular provide preemptive analgesia.
The purpose of this research study is to determine if putting local anesthetic through one or two percutaneous catheters placed next to the nerves that go to an amputated limb will decrease long-term pain in the amputated limb.
The purpose of this research study is to determine if putting local anesthetic-or numbing medication-through one or two tiny tube(s) placed next to the nerves that go to an amputated limb will decrease phantom limb and/or stump pain.