8 Clinical Trials for Various Conditions
Many patients are prescribed lidocaine patches for rib fractures despite mixed evidence to their efficacy. The outcome of this trial offers significant benefit to patient care if it finds benefit of their use or if it does not. Reducing opioid use and increasing functional outcomes in geriatric patient suffering rib fractures can improve quality of life and ability to return to prior levels of function. Limiting the need for opioid prescriptions dispensed in the community, particularly to vulnerable geriatric individuals, is also a key aspect in curbing the opioid epidemic. However, even if no difference is found, it would support stopping the use of lidocaine patches in this population as a waste of money and resources. The novel approach of adding the 3rd arm to assess for placebo effect will also carry clinical value, as a placebo effect that reduces opioid use may in fact be enough to support continued use of the products given their overall low side effect risk profile compared to opioids and other pain control medications.
The purpose of this research study is to examine the effectiveness of using the Iovera Smart Time 190, for ultrasound-guided cryoneurolysis, in trauma patients 18-64 years old with rib fractures that are not candidates for surgical stabilization. This will offer patients the benefits of cryoneurolysis of the intercostal nerves, thereby providing short and long term pain control while their ribs heal. The Iovera Smart Tip 190 is FDA approved for cryoneurolysis.
Rib fractures continue to be a common occurrence in trauma patients of all ages. Traumatic rib fractures can cause severe pain in patients and lead to shallow breathing and further complications such as the need for mechanical ventilation, hospital or ventilator associated pneumonia, atelectasis, and acute respiratory distress syndrome. Effective multimodal pain management is needed to optimize a patient's respiratory status and can also play a role in early mobility, less pulmonary complications, shorter ICU and hospital length of stay, and decreased mortality. Current multimodal pain management options include opioids, muscle relaxants, gabapentin, acetaminophen, nonsteroidal anti-inflammatory drugs, and various regional/neuraxial anesthesia techniques. Both ketamine and lidocaine infusions for pain control have also been shown in studies to be safe and effective, with the benefit of minimizing the use of opioids. However, there have been very few studies that have used ketamine or lidocaine infusions for pain control specifically in patients with traumatic rib fractures. Therefore, the purpose of this study is to evaluate ketamine versus lidocaine infusions as an adjunctive therapy to reduce opioid consumption in the first 72 hours in patients with multiple traumatic rib fractures.
Rib fractures are one of the most common injuries in trauma patients. These fractures are associated with significant pain as well as decreased ability to inspire deeply or cough to clear secretions, which together lead to pulmonary complications and a high degree of morbidity and mortality. Peripheral nerve blocks as well as epidural blocks have been used with success to improve pain control in rib fracture patients and have been associated with decreased pulmonary complications and improved outcomes. However, a single-injection nerve block lasts less than 24 hours; and, even a continuous nerve block is generally limited to 3-4 days. The pain from rib fractures usually persists for multiple weeks or months. In contrast to local anesthetic-induced nerve blocks, a prolonged block lasting a few weeks/months may be provided by freezing the nerve using a process called "cryoneurolysis". The goal of this randomized, double-masked, sham-controlled study is to evaluate the potential of cryoanalgesia to decrease pain and improve pulmonary mechanics in patients with rib fractures.
Acute traumatic rib fractures are a common issue for patients of trauma surgeons. They inflict substantial morbidity, the most dreaded and consequential of which are pulmonary complications. While these fractures are often treated non-operatively, there is a continued need for effective adjuvant treatments to improve rib fracture pain and outcomes. Prior studies have evaluated outcome measures for traumatic rib fractures that include respiratory failure, tracheostomy requirement, ICU length of stay, hospital length of stay, narcotic requirement, daily maximum incentive spirometry volume, pneumonia, and mortality . Rib belts, which have been present since at least 1945, have long been used to provide pain relief via chest wall stabilization \[3\]. However there is an extreme paucity of literature regarding their clinical efficacy, and their use has largely been abandoned due to concerns that they may have been overly constricting and resulted in poorer respiratory (pulmonary/breathing) outcomes. Newer generation rib belts are more elastic and theoretically less constricting than their earlier generation predecessors, however their clinical efficacy has not been yet demonstrated. The investigators will therefore plan to perform a prospective trial to determine if these rib strapping devices are effective clinical tools in the traumatic rib fracture population. The goal of the study is institutional quality improvement, to determine if the investigators see benefit of these devices for the pain management of our trauma population. The investigators will also conduct this as a pilot trial for hopeful future research applications, however the overall goal is institutional improvement. Patients determined to be eligible for the study by the admitting physician (and per the previously defined criteria) will be recruited to enroll in the project within the first 24 hours of their hospital admission. Recruited patients will be offered the opportunity to consent to enrollment in the study and will be assigned by the study team into either the intervention (RibFx belt +current standard of care) or control (current standard of care) arm in a quasi-experimental prospective design: untreated control group with dependent pretest and posttest samples. In this manner, the intervention arm will be both compared to themselves (pretest vs. posttests) as well as to a control group not exposed to the intervention. The relevant study materials will be included in their paper (physical) and electronic chart. Patients upon enrollment in the study will undergo an initial assessment that will include their baseline pain scores, narcotic consumption, incentive spirometry scores, and the subjective self-reported results of their questionnaire (the pre-test questionnaire- see attached). Patients will continue to be scored on objective (incentive spirometry results, opioid pain medicine consumption) and subjective variables (pain scores) during their hospital course. Between 24-48 hours after enrollment, they will be prompted to again complete a similar 2nd questionnaire post-test (if they are discharged from the hospital at this point in the time course, they will be sent home with the questionnaire and prompted to complete it at home). At their follow up appointment in trauma clinic (which will be coordinated by the research team to be as close as possible to 3 weeks post injury), they will have the opportunity to again voluntarily complete a final short questionnaires (post-test) that assess their pain control and respiratory function over the last 3 weeks. At this point, their involvement in the trial will be complete. Patients themselves will play an active role in data collection during the trial, and will be instructed and prompted in how to do so. Patients will be expected to fill out a worksheet on a daily basis, both while inpatient and after discharge, on their daily incentive spirometry scores as well as their minimum and maximum pain scale scores. This will be used to supplement the survey or questionnaire data, as well as the objective data from the electronic medical record. The investigators will ultimately compare groups using a quasi-experimental design as follows: Untreated control group with dependent pretest and posttest samples. This will allow for a direct comparison of patient to patient within the intervention arm (patient pretest result serving as control compared to posttest result) . To observe for temporal variability, their will be a control group with no intervention as well (no rib belt worn) , however the principle aim of the study is the comparison of patients to themselves in a pre-test, post-test fashion.
Rib fractures are common injuries in accident patients and can be associated with significant pain during recovery. If poorly controlled, pain from splinting due to rib fractures can result in difficulty in breathing leading to incomplete expansion of lung, and even the need to put a patient on a ventilator to help them breathe. Therefore, pain control is critical in managing patients with rib fractures. To date, many studies have shown the effectiveness of continuous intercostal nerve blockade (a slow release of pain medications at the site of injury that prevents the transmission of pain signals). This approach has never been studied in a randomized fashion in rib fracture patients, and has never been compared to patient-controlled narcotic pain medication, commonly used at many hospitals. The purpose of this study is to evaluate the effectiveness of the placement of an elastomeric infusion pump (a small, external, wearable balloon used to deliver medication over time) attached to a continuous infusion catheter or "soaker" catheter (a tube which releases the pain medication through tiny holes in it, right at the site of injury) to deliver local anesthetic medication to reduce pain caused by two or more rib fractures.
The primary objective of this study is to investigate whether continuous PVB is equal in efficacy to epidural anesthesia in terms of analgesia in patients with INR lower than 1.2, or is continuous ICNB equal in efficacy to PCA in terms of analgesia, if patients have INRs equal to or greater than 1.2.
Rib fractures are one of the most common injuries in trauma patients. These fractures are associated with significant pain as well as decreased ability to inspire deeply or cough to clear secretions, which together lead to pulmonary complications and a high degree of morbidity and mortality. Peripheral nerve blocks as well as epidural blocks have been used with success to improve pain control in rib fracture patients and have been associated with decreased pulmonary complications and improved outcomes. However, a single-injection nerve block lasts less than 24 hours; and, even a continuous nerve block is generally limited to 3-4 days. The pain from rib fractures usually persists for multiple weeks or months. In contrast to local anesthetic-induced nerve blocks, a prolonged block lasting a few weeks/months may be provided by freezing the nerve using a process called "cryoneurolysis". The goal of this multicenter, randomized, double-masked, sham-controlled, parallel-arm study is to evaluate the potential of cryoanalgesia to decrease pain and improve pulmonary mechanics in patients with rib fractures.