388 Clinical Trials for Various Conditions
This pilot study aims to investigate the effects of nerve blocks in patients with diabetic peripheral neuropathy through a double-blinded, randomized trial involving 4 patients. Each participant will receive bilateral peripheral nerve blocks using either lidocaine or papaverine. Following randomization, each patient will receive one medication in one leg and the alternate medication in the contralateral leg. Researchers will measure parameters including motor strength, sensory function (two-point discrimination), arterial blood flow via Doppler ultrasound, and microvascular perfusion using near-infrared spectroscopy both prior to and following nerve block administration. This research seeks to explore potential diagnostic and therapeutic applications for peripheral nerve entrapment, a common yet challenging clinical condition.
This clinical trial compares efficacy in postoperative pain management in thoracic surgery between erector spinae block versus liposomal bupivacaine injections.
Patients undergoing hand, wrist, and elbow surgery may experience pain after surgery. The orthopedic surgeon may provide prescription pain medications after surgery to assist with pain control. However, with concern of the opioid epidemic, many patients would rather minimize the use of narcotic pain prescriptions after having surgery. As an alternative, ultrasound guided regional nerve blocks can assist with postoperative pain control. patients consented to this study will be randomized into three groups: 1) will receive an ultrasound guided nerve block with local anesthesia only, 2) will receive an ultrasound guided nerve block with local anesthesia and a steroid dexamethasone, 3) will receive an ultrasound guided nerve block with liposomal bupivacaine. our study team will make phone calls after surgery to the patient to determine how long the block lasted for, and how many opioid pain pills were taken up to 3 days after surgery.
The purpose of this study is to evaluate conservative pain relief measures for patients suffering from glenohumeral arthritis or rotator cuff arthropathy. Conservative management of osteoarthritis is often first line treatment, and while a corticosteroid injection is frequently used, suprascapular nerve blocks have not often been described as an analgesic option in this population.
Patients undergoing surgery on their vocal cord will either receive a numbing injection to their throat or a saline injection during surgery. Symptoms such as how much coughing or pain patients have after surgery, as well as whether patient's voice gets better will be interrogated.
Heart failure (HF) affects more than 6 million adults in the U.S. alone, with increasing prevalence. Cardiovascular congestion with resultant limitation in physical activity is the hallmark of chronic and decompensated HF. The current HF physiologic model suggests that congestion is the result of volume retention and, therefore, therapies (such as diuretics) have generally been targeted at volume overload. Yet therapeutic approaches to reduce congestion have failed to show significant benefit on clinical outcomes, potentially due to an untargeted approach of decongestive therapies. The investigators' preliminary work suggested a complimentary contribution of volume redistribution to the mechanism of cardiac decompensation. The investigators identified the splanchnic nerves as a potential therapeutic target and showed that short-term interruption of the splanchnic nerve signaling could have favorable effects on cardiovascular hemodynamics and symptoms. As part of the investigators' proposal, the investigators will test the safety and efficacy of prolonged splanchnic nerve block in a randomized, controlled, blinded study in patients with HF and reduced ejection fraction (HFrEF). The results will help test the hypothesis of volume redistribution as a driver of cardiovascular congestion and functional limitations and pave the way for splanchnic nerve blockade as a novel therapeutic approach to HF.
Chronic pain affecting the pelvic and urogenital area is a major clinical problem and can have a profound impact on quality of life and health care costs. Pelvic pain arising from entrapment or neuropathy of the pudendal nerve is known as pudendal neuralgia, which results in chronic perineal pain. This pain syndrome is difficult to diagnose and patients with pudendal neuralgia may present to providers with refractory chronic pelvic pain. Pudendal nerve infiltration or pudendal nerve block (PNB) serves as a diagnostic tool and treatment modality for patients with this condition. To date, there are no published randomized controlled trials comparing imaging-guided PNB to transvaginal finger-guided PNB. While one can assume that image-guided nerve blocks will provide better accuracy for injection and potentially better efficacy in pain relief as a result, no published data exists comparing the outcomes and efficacy between modalities. The purpose of this prospective, non-inferiority, randomized controlled trial is to compare the efficacy of pain relief from bilateral transvaginal finger-guided pudendal nerve block versus bilateral fluoroscopy-guided trans gluteal pudendal nerve block for patients with pudendal neuralgia.
The investigators are conducting this research study to find better ways of treating pain following knee surgery. There is a standard (accepted) approach, which involves injection of numbing medication into the area around the participant surgical incision. The investigators hope to discover if providing numbing medication to a nerve that controls pain in a larger area of the knee (a nerve block), might be better at post-operative pain control.
The goal of this pilot clinical trial is to compare anterior femoral cutaneous nerve block (AFCN) to adductor canal block ACB) for pediatric patients undergoing either anterior cruciate ligament (ACL) or medial patellofemoral ligament (MPFL). The aims of this trial are: * To measure postoperative functional outcomes in patients who received AFCNB vs. ACB. * To calculate postoperative opioid requirements in pediatric knee surgeries that received AFCNB vs. ACB. * To calculate pain intensity levels at rest and with ambulation in patients who received AFCNB vs. ACB. * To quantify sensory deficits in patients who received AFCNB vs. ACB. * To assess patient-reported outcome measures (e.g., pain expectation scale, pain management satisfaction, PROMIS Pediatric Short Form v1.0 - Physical Activity, PROMIS Scale v1.2 - Global Health) in patients 8-18 years of age who received AFCNB vs. ACB. Subjects undergoing ACL procedures will be compared between those who received the adductor canal block to those who received the anterior femoral cutaneous nerve block. The researchers will also compare individuals who underwent MPFL procedures and received an anterior femoral cutaneous nerve block with those who received the adductor canal block. Participants will: * Be randomized to receive either the AFCNB or ACB in addition to standard of care analgesia. * Maintain a patient diary to document daily pain meds/pain scores * Complete follow up surveys/questionnaires via telephone and during their office visits with surgeons.
Participants who have a surgical procedure called Posterior Cervical (neck) Spine Surgery will normally need pain medication to relieve post operative pain. This usually includes opioid medications. In this study, the consented participant may receive a nerve block procedure, in addition to the pain relieving medication. There is a fifty-fifty chance to receive the nerve block. The goal is to see if the nerve block group needs less opioid medication, has lower pain scores and is discharged from the hospital sooner.
Peripheral nerve blocks are routinely used and highly successful for intra-operative anesthesia and post-operative pain management. Nerve blocks are guided using either neurostimulation as a means to localize the right nerve or by ultrasound guidance or combining the 2 methods. The purpose of this study is to assess whether electrical stimulation improves nerve block quality, beyond its simple purpose of nerve localization.
The goal of this randomized clinical trial is to determine if single-shot ropivacaine peripheral nerve blocks (PNB - perineural injections) for anterior cruciate ligament (ACL) reconstruction procedures in pediatric orthopaedic sports medicine patients provides significant pain relief and decreased narcotic use. The main questions it aims to answer are: * Does ropivacaine significantly reduce Visual Analog Scale (VAS) pain scores and pain levels up to one week postoperatively? * Does ropivacaine significantly decrease narcotic use (number of pills taken) up to one week postoperatively? Researchers will compare the pain outcomes and narcotic use of participants who receive a single-shot ropivacaine peripheral nerve block to those of participants who do not receive a single-shot ropivacaine peripheral nerve block for their ACL reconstruction surgery. The goal is to understand if there is a significant difference in participant pain outcomes and narcotic use outside the first 24 hours postoperatively. Participants will: * receive either a single-shot ropivacaine peripheral nerve block intraoperatively or no peripheral nerve block during their ACL Quadriceps tendon graft or bone patellar tendon bone graft reconstruction surgery. * receive and complete questionnaires at postoperative days 1, 4, and 7 regarding their pain scores, levels, and outcomes, effective pain treatments, overall pain interference, narcotic use (number of pills taken), and overall pain treatment satisfaction * receive and complete secondary outcome measures of functional and psychological outcomes regarding their ACL reconstruction surgery at postoperative day 1
The aim of this study is to assess emergency medicine physician knowledge and technical skill in performance of ultrasound-guided serratus anterior nerve block in a low-fidelity simulation model workshop and to determine the feasibility, acceptability, and usability of the training program. By performing this study, the investigators hope to create a standardized training model which could potentially facilitate POCUS and critical procedural performance and thereby improve patient care.
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.
Interscalene blocks are frequently performed to decrease postoperative pain after shoulder surgeries and are considered the gold standard for pain control after this type of surgery. Some patients report pain in the axilla (armpit) following shoulder replacement surgeries. Sensation in the axilla is supplied by nerves not covered by the interscalene block. Sensation in the axilla can be decreased by performing an intercostobrachial nerve block. This study aims to study whether adding an intercostobrachial nerve block to the interscalene block decreases recovery room stay time, opioid pain medication requirement, and postoperative pain scores.
For some patients who come to the emergency department for treatment of a migraine headache, peripheral headache nerve blocks (PHNB) have proven to be an efficient and effective treatment for headache relief. Previous studies have demonstrated that adding steroids as an adjunct treatment to standard migraine treatment can reduce recurrence of headaches in the subsequent few days.
The goal of this randomized controlled trial is to examine if there is a relationship between the addition of the genicular nerve block and anterior femoral cutaneous nerve block in providing analgesia and the use of oral and intravenous medication in patients undergoing a total knee arthroplasty. The main questions it aims to answer are: 1. Does incorporating genicular nerve block and anterior femoral cutaneous nerve block to our current standard of care reduce patients' total opioid consumption in the first 24 hours after total knee arthroplasty (TKA) surgery? 2. Does incorporating genicular nerve block and anterior femoral cutaneous nerve block to our current standard of care reduce patients' worst numeric rating scale (NRS) pain score in the post-anesthesia care unit (PACU)? 3. Does incorporating genicular nerve block and anterior femoral cutaneous nerve block to our current standard of care result in earlier discharge from the post-anesthesia care unit (PACU)? 4. Does incorporating genicular nerve block and anterior femoral cutaneous nerve block to our current standard of care reduce patients' total opioid consumption in the first 7 days after total knee arthroplasty (TKA) surgery? 5. Does incorporating genicular nerve block and anterior femoral cutaneous nerve block to our current standard of care reduce patients' numerical rating scale (NRS) pain (both at rest and during movement) in the first 24 and 48 hours after surgery? Participants will be randomly assigned to receive the genicular nerve block and anterior femoral cutaneous nerve block in addition to standard of care (intervention group), or not receive the nerve blocks (control group). Comparing the intervention group to the control group, the researcher's primary outcomes are numerical pain in the post-anesthesia care unit and cumulative opioid consumption during the first 24 hours.
The purpose of this study is to see how well blocking two to ten of the scalp nerves (that give feeling to the scalp and are painful during migraine headaches) with bupivacaine anesthetic (numbing medication) and low dose methylprednisolone (cortisone-like medicine or steroid) work for treating and preventing migraines. Our hypothesis is that the pain of most episodic migraine headaches can be eliminated and prevented for months by blocking the nerves that give pain sensation during a migraine.
Currently there is limited evidence of benefit for the addition of steroids to occipital nerve blocks for treatment of headache, and not all steroids have been explored. The purpose of this research is to learn more about whether the addition of a specific kind of steroid (dexamethasone) provides any additional benefit to nerve blocks.
The purpose of this randomized controlled trial is to assess a new analgesia regimen that includes the addition of genicular never blocks to our current standard regimen of peripheral nerve blocks, which includes an adductor canal block (ACB) and interspace between the popliteal artery and capsule of the posterior knee block (IPACK). The main questions it aims to answer are: 1. Does addition of genicular nerve blocks to standard peripheral block regimen significantly reduce the mean opioid consumption by 33% in the first 24 hours? 2. Does genicular nerve blocks reduce NRS pain scores? 3. Does genicular nerve blocks facilitate earlier discharge? 4. Does genicular nerve blocks last longer than 24 hours? 5. Does genicular nerve blocks improve pain management? Eligible patients are those undergoing an anterior cruciate ligament repair at the Hospital for Special Surgery and participants will be randomized to receive the intervention (genicular nerve block) or the standard of care.
Maxillary nerve blocks have been shown to significantly reduce post-operative pain and analgesic intake during the 24-hour period following sinus surgery. This randomized, double-blinded, placebo-controlled study will investigate blocks of the pterygopalatine fossa using a suprazygomatic approach during septorhinoplasty surgery. It is the investigator's hypothesis that this technique will result in decreased post-operative pain and opioid use, and the morbidity associated with it.
This is a prospective, randomized, non-blinded study comparing CINB plus medical therapy versus standard medical care (non-steroidals and opioids intravenous/oral inpatient and oral outpatient) alone for patients with multiple rib fractures. The objective of this study is to analyze the effect of continuous intercostal nerve block (CINB) in the treatment of patients admitted to the adult trauma service with rib fractures. The effectiveness of CINB as adjunctive treatment will be compared to standard medical therapy involving nonsteroidal and intravenous/oral opioid medications.
This study is evaluating music vs midazolam as a means of anxiolysis for preoperative single-shot nerve block placement.
The proposed pilot study is aimed at preliminary characterization of the TMNB injection in 20 healthy volunteers. Assessment of bite-force distribution and surface electromyographic activity of the temporalis and the masseter muscles, at rest and clench, before and after unilateral TMNB injection, will be the primary outcome measures. Post-injection assessments will be performed at 30 minutes, 2 hours, and 2 weeks after the injection. Participants will be surveyed regarding their experience receiving the TMNB injection (secondary outcomes).
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.
The investigators aim to determine if a longer acting nerve block, which is a local anesthetic, can help reduce opioid use after surgery in patients that are getting rotator cuff repair surgery. The investigators will also determine if the longer acting block can reduce the number of days that opioids are taken after surgery. Patients that schedule this type of surgery will be given information regarding the study and asked if they want to participate. If they do, they will be randomized to either receive the standard nerve block or the longer acting nerve block. Participants and physicians will not know which nerve block the participants are receiving. Participants will receive a standard pain medication prescription after surgery and will be asked to record pain scores, medications taken and satisfaction level every day in a journal for two weeks. Participants will be asked to bring in their medication bottles and pain journal to the 2-week follow up appointment. Participants' pain scores will be assessed in the office at the follow up appointment and study staff will conduct a pill count. Participants will return for a 6-week follow up appointment and pain scores will be assessed again at that time, and another pill count will be conducted. At this point the study will be complete.
This initial study is a feasibility study for implementing thoracolumbar interfascial plane, or TLIP, blocks in older adults undergoing spinal fusion. TLIP blocks are done by using anesthesia. In this case, it will be done to either side of the back where surgery will be performed. This has been shown to decrease pain the patients have post-operatively in previous research. In this study, the investigators will examine recruitment rates, completion of assessments, dropout rate, gather patient feedback, and identify barriers to performing TLIP. Further, this feasibility study will provide data to determine adequate sample size and refine methods and outcomes for a future randomized clinical trial. The ultimate goal is to perform a large, appropriately powered randomized control trial to determine the effect of TLIP blocks on pain, physical function and disability, opioid consumption, and delirium in older adult undergoing spinal fusion.
Observational study recording sedation and safety of patients undergoing remimazolam sedation for peripheral nerve blocks. Objectives: To explore the safety and efficacy of remimazolam for neuraxial procedures and peripheral nerve pre-blocks and re-blocks. Patients undergoing epidurals, fascial plane blocks, and peripheral nerve blocks will receive remimazolam for sedation. Specific outcomes to assess include: depth of sedation, length of sedation, presence of apnea, presence of nausea/vomiting/other side effects, if the sedation was sufficient for the procedure. Assessment methods: MOAAS - Modified Observer's Assessment of Alertness and Sedation score Subjective patient report Vital signs Time for recovery Side effects Hypothesis: Remimazolam provides short-acting, adequate and safe sedation for peripheral nerve blocks in the ambulatory setting.
The study looks to compare the success rate of lower jaw anesthesia injection (inferior alveolar nerve) that is guided by pre-treatment 3D dental scan (CBCT) versus standard injection technique.
Surgical treatment for patients with a fracture of the ankle or distal radius is commonly offered on an outpatient basis. Patients are routinely discharged from hospital within 4 hours of their procedure. The surgery is commonly performed under peripheral nerve block with sedation, or under general anesthesia with postoperative peripheral nerve block, (if required for analgesic purposes). It is unclear which of these two strategies offers patients superior pain relief in the first few days following surgery. This trial aims to compare the pain intensity and analgesic medication consumption between patients in these two groups.