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Intra-articular Posteromedial Surgeon Administered (IPSA) Block in this study describes a new type of medical procedure where a surgeon provides anesthetic medication directly into a specific area inside a knee joint to numb the pain during knee surgery. Intra-articular refers to inside of knee joint, posteromedial refers to the back and inner side of a knee joint, and surgeon administered means a surgeon is performing the procedure. Patients You will be randomly assigned to one of these three treatment groups: Group 1: Patients in this group will receive IPSA block and Local Infiltration Analgesia (LIA). IPSA block is a pain numbing medication given by surgeon and injected inside the back and inner side of the knee joint. Local Infiltration Analgesia is a pain numbing medication injection given by the surgeon around the surgical knee area. The medications used in the procedure will be EXPAREL, and Bupivacaine HCL. Group 2 (Control): Patients in this group will receive Adductor Canal Block (ACB) and Local Infiltration Analgesia (LIA). ACB is a pain numbing injection given by anesthesiologist near the adductor canal, a passage in the mid-thigh that contains nerves connecting the knee region. Local Infiltration Analgesia is a pain numbing medication injection given by the surgeon around the surgical knee area. The medications used in the procedure will be EXPAREL, and Bupivacaine HCL. Group 3: Patients in this group will receive Local Infiltration Analgesia (LIA). Local Infiltration Analgesia is a pain numbing medication injection given by the surgeon around the surgical knee area. The medications used in the procedure will be EXPAREL, and Bupivacaine HCL. The study will evaluate; * How effective the pain relief is after surgery. * How much extra pain medication you need. * Your satisfaction with pain management and recovery * Any side effects.
The purpose of this study is to evaluate the effectiveness of physical therapy (PT) plus BFR training compared to PT alone (without BFR training) after ACL reconstruction in patients who require extended limited weight bearing through assessment of patient reported outcomes and functional testing. The hypothesis is that PT plus BFR training will mitigate the loss of quadriceps muscle cross-sectional area, strength, and function while also improving early clinical and functional results.
This research study is attempting to answer the question of whether 81 mg aspirin once daily is as effective as 81 mg aspirin twice daily in preventing blood clots after total joint replacement surgery.
The purpose of this study is to look at pain management with opioids versus non-opioids after knee arthroscopy. This study will determine 1) whether the most commonly used non-narcotic medications provide pain relief comparable with the most commonly prescribed narcotic medications in patients undergoing arthroscopic knee surgery, and 2) whether patients' characteristics (gender, pre-operative knee symptoms, workers compensation status and employment status) affect pain level following surgery or medication usage.
The goal of this study is to better understand how daily treatment with cannabidiol (CBD) affects the need for opioid pain medication, as well as pain, inflammation and other related symptoms, after knee replacement surgery. The information collected in this study is necessary to help understand whether CBD may be a useful medication before and/or after surgery. The study hypothesis is that CBD exerts opioid-sparing effects through anti-inflammatory, analgesic, and anxiolytic mechanisms.
The purpose of this study is to compare two biologic methods for the treatment of articular cartilage defects in the knee. The first method, microfracture, is the standard of care and is routinely used to recruit cells from the subchondral bone marrow to the site of cartilage loss. The second method is the application of adipose-derived stem cells (ADSCs) to the defect site. In theory, ADSCs on a collagen scaffold should enable the delivery of more specific progenitor cells to the site of injury, resulting in better regeneration and integration of articular cartilage at the site of a defect as compared to the microfracture method.
This study will compare two different treatment approaches for the management of knee osteoarthritis (OA). All subjects will receive a standardized approach consistent with the core set of recommendation from the Department of Defense (DoD) and Veterans Administration (VA) Clinical Practice Guidelines for Non-Surgical Management of Knee Osteoarthritis. Follow-up will occur over a 1 year period.
A comparison of two anesthetic techniques for total knee replacements: (1) Peri-Articular Injection (PAI), local infiltration between the popliteal artery and capsule of the knee block (IPACK) and single-shot adductor canal block (ACB) vs. (2) PAI, IPACK and continuous adductor canal block catheter (ACC).
The goal of this interventional clinical trial is to assess opioid consumption 24-48 hrs post anesthesia block among patients undergoing total knee arthroplasty. The main question it aims to answer is: 1. Is there a difference in opioid consumption 24-48 hours post block administration among patients that receive an adductor canal catheter (ACC) versus adductor canal block (ACB)? Participants will be: * Randomized to receive an adductor canal catheter (ACC) or a sham adductor canal catheter. * Asked to use the Diagnotes application to communicate with the pain doctor while the catheter is in place. * Follow up for up to 6 months post-operation. Researchers will compare the interventional group (ACC) to the control group (sham ACC + ACB) to see if there is difference in opioid consumption and chronic pain at 6 months post-operation.
After orthopedic surgeries like knee or hip replacement, some patients struggle to fully activate their muscles due to a condition called Arthrogenic Muscle Inhibition (AMI). AMI can slow recovery and make physical therapy less effective. This clinical trial is testing whether a special type of brain training-called neurofeedback visualization training-can help improve muscle activation and speed up recovery. In this study, patients will receive standard physical therapy after surgery. Half of them will also use a device that helps them "visualize" exercises while wearing a cap that reads brain signals (EEG). The cap tracks brain activity when patients imagine doing specific movements. A computer then shows a virtual avatar performing the movements, giving feedback in real time-like a video game controlled by the brain. The study includes patients recovering from one of four surgeries: 1. Anterior cruciate ligament reconstruction (ACLR) 2. Total knee arthroplasty (TKA) 3. Total hip arthroplasty (THA) 4. Hip arthroscopy (HA) for femoroacetabular impingement (FAI) The goal is to see if this training improves muscle strength, movement, and daily function more than standard therapy alone. The study will take place at Rush University Medical Center in Chicago and enroll 240 adults, with 60 patients per type of surgery. Each participant will be followed for up to 6 months after surgery and complete strength tests, movement assessments, and questionnaires about their recovery. The hope is that combining brain training with physical therapy will lead to faster, more complete recoveries and improve how patients move after surgery.