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This open label, multi-center study will collect data from the participant's use of My Connect Post-Op Software as a post-operative communication solution in supporting patient recovery through Technology-Assisted Conversation (TAC). The application will be tested by patients who have undergone total joint replacement as a post-op communication tool. Data will be collected on how effectively the product guides patients through their recovery, identifying potential complications, and providing appropriate recommendations based on structured question pairs.
This research protocol is exploring a behavioral intervention: shared decision making with the use of a decision aid to select a post-operative analgesic. Specifically, the investigators will examine the impact of shared decision making on analgesic selection for acute pain management when 2 options are presented to the patient as compared to 3 options which includes an opioid prescription for "just-in-case" pain management. The investigators hypothesize that significantly more patients will choice an opioid option when the "just-in-case option is included.
Primary objective: to evaluate the non-inferiority in terms of improvement of hemoglobin (Hg) levels within 30 days postoperatively between two proposed treatments. Secondary objective: to evaluate the financial costs associated with Sucrosomial® Iron treatment compared to Iron Sucrose (IV), while demonstrating non-inferiority in the improvement of hemoglobin levels, reduction in transfusion requirements, and reduction of hospital/ICU stay length
Addictive full-agonist opioids, like oxycodone and hydrocodone, are often used to treat pain after surgery. However, these full-agonist opioids can be very addictive. After ankle fracture surgery, about 1 in 5 patients that did not take opioids before surgery become addicted to opioids after surgery. Buprenorphine is an opioid with unique properties that may offer a way to reduce the number of patients that become addicted to opioids after surgery. Buprenorphine has good analgesic (painkilling) effects. It is also thought to be less addictive and cause less of a high than full-agonist opioids, like oxycodone and hydrocodone. This project's goal is to determine if transdermal buprenorphine can safely and effectively control pain after ankle fracture surgery. This study will be a pilot study, which sets the stage for future studies that investigate whether buprenorphine can reduce the rate that patients become addicted to opioids after surgery. This study's multidisciplinary team will divide patients into two groups. Participants in one group will be treated with a 7-day transdermal buprenorphine patch (where the buprenorphine is slowly absorbed through the skin over 7 days). Participants in the other group will be treated with a placebo patch. A placebo has no drug in it, it just looks like the buprenorphine patch. Aside from the buprenorphine patch or placebo patch, both groups' pain management plans will be the same as if they were not in the study. Over the first week after surgery, the investigators will measure the amount of full-agonist opioids (for example, oxycodone or hydrocodone) that participants consume, participants' pain scores, the frequency of side effects related to opioids, and the number of calls and patient portal messages to the clinic for uncontrolled pain. The investigators will also assess whether participants are continuing to use opioids 3 months after surgery for pain related to their ankle fracture.
The goal of this Registry is to see how the device is used when freezing nerves during an amputation procedure.
Patients that undergo decompressive craniectomy are at risk of delayed changes in brain function known as "Sunken Flap Syndrome" or "Syndrome of the Trephined." The goal of this clinical trial is to see if placing a prosthetic over patients' skull defects can prevent "Sunken Flap Syndrome." The main questions are: 1. Can placing a prosthetic device over patients' skull defects prevent Sunken Flap Syndrome? 2. Can placing a prosthetic device over patients' skull defects decrease healthcare costs? 3. Can placing a prosthetic device over patients' skull defects improve recovery and return of brain function after decompressive craniectomy? Patients that experience traumatic brain injuries, brain bleeds, and large strokes can build up high levels of pressure in the skull. When this pressure can't be controlled with medications, a life-saving surgery called a decompressive hemicraniectomy (DC) is often performed. In this surgery, a large portion of the patient's skull is removed to decrease pressure on the brain and decrease permanent damage. After this surgery, many patients experience sinking of the brain in the skull as the pressure inside the head improves. The skull normally protects the brain from the outside environment. When large parts of the skull are removed, the brain is not able to regulate itself normally. This can lead to a number of problems, such as headaches, weakness, seizures, and even coma and permanent brain damage. This is referred to as "Sunken Flap Syndrome" (SFS) or "Syndrome of the Trephined" (SoT). After 3-6 months, patients can have the missing skull surgically repaired, which improves and sometimes fixes SFS, but the damage is sometimes too severe to be reversed. There are reports of patients with SFS treated with custom-made prosthetics that cover the missing piece of skull. In this study, the researchers want to see if wearing a custom-made prosthetic can prevent patients from experiencing SFS. Patients will also receive additional non-invasive measurement to see if the prosthetic can improve brain function and recovery. Finally, the researchers want to know if the prosthetic is cost-effective by decreasing the frequency that patients see doctors or receive care to treat SFS. Patients or the patient's medical decision makers will be asked if the patient wants to participate in the study after DC. If the patient or decision maker agrees to participate, the patient will be also asked if the patient wants to wear the prosthetic. The prosthetic is made of a common material used in other facial prosthetics. Patients that agree to wear the prosthetic will have a custom plate made for the participant. All patients will receive the same post-operative care and appointments whether or not the prosthetic is worn. The participant will go to the normally scheduled post-operative doctor's appointments at 2 and 4 weeks after initial DC surgery. Patient's that agree to wear the prosthetic will receive it at the 4-week post-DC appointment. The participant will then be asked to wear it as much as possible, but to let the researchers know if the participant experiences any pain, itching, discomfort or other problems. All patients will also be seen by the patient's physician before and after and after skull repair. At all appointments, patients will receive non-invasive testing of brain function. Recovery and rate of SFS will be compared between patients that do and do not wear the prosthetic. Participants will: * Go to the normally scheduled 2 and 4 week post-DC appointments * Go to the normally scheduled pre- and post-skull repair appointments * Receive additional non-invasive brain health testing at each appointment Participants that agree to wear a prosthetic will: * Receive the custom prosthetic at the 4-week post-DC appointment * Wear the prosthetic as much as possible, including at night * Take a brief survey about the prosthetic at the post-skull repair appointment
The goal of this clinical trial is to learn whether Pain Reprocessing Therapy (PRT) can help adults with knee pain after knee replacement surgery. The study is comparing PRT to usual care (the regular treatment people get after surgery) to see which works better for relieving pain. The main questions the study aims to answer are: 1. Does PRT help lower pain in people who have chronic knee pain after knee surgery? 2. How do the effects of PRT compare with usual care in terms of pain relief and other factors such as anxiety, depression, and sleep? 3. How does PRT impact the brain? Participants will: 1. Be randomly assigned to receive either PRT or usual care. 2. Complete questionnaires about their pain and health. 3. If in the PRT group, have eight weekly therapy sessions over video calls with a therapist. 4. If interested, may also take part in an optional EEG test to measure brain activity related to pain.
The purpose of this study is to determine whether an injection of a local anesthetic (Bupivacaine with epinephrine) in the vaginal cuff prior to closure would result in less immediate postoperative pain medication and increase patient comfort/satisfaction.
Post-operative pain and lower urinary tract symptoms are common following ureteroscopy in the treatment of stone disease. The use of bupivacaine as a topical pain medication is used routinely for other urologic procedures, however, to date there are no studies that have rigorously investigated the effect of instilling bupivacaine in the bladder following ureteroscopy. This is a randomized study that will investigate the effect of instilling bupivacaine in the bladder following routine ureteroscopy, laser lithotripsy and ureteral stenting in the treatment of stone disease. Compared to a placebo of Normal Saline, our study hypothesizes that administration of topical bupivacaine in the bladder will decrease post-operative pain and lower urinary tract symptoms while improving quality of life in the early post-operative period.
The purpose of the research is to investigate the effect of preoperative Cryoneurolysis of the knee on postoperative pain management in patients undergoing autograft anterior cruciate ligament (ACL) reconstruction (a surgical procedure that makes a new ACL using the patient's own tendon). Cryoneurolysis is an approved process of applying extreme cold temperatures to targeted nerves in order to decrease or eliminate pain. . If you take part in the research, you will be randomly assigned (assigned by chance, like a flip of a coin) to Group A (standard care) or Group B (standard care plus Cryoneurolysis). Participants in both groups will undergo standard ACL reconstruction and receive standard preoperative and postoperative pain management. Participants in Group B only will also receive a standard treatment of Cryoneurolysis to their surgical knee within 7-10 days before their scheduled surgery. Participants in both groups (A \& B) will be asked to bring their remaining postoperative pain medication to their postoperative follow-up appointments for review by study personnel. Participants will also be asked to complete a survey about their knee activity, function and symptoms at these appointments. Your time in the study will last until the completion of the 12-week postoperative follow-up appointment.