20 Clinical Trials for Various Conditions
The purpose of this research study is to evaluate tendon healing when using the Flexible Suturing System with Anchors (FSSA) to surgically repair full-thickness rotator cuff tendon tears.
Peroneal and Achilles tendon tears are common diseases that present challenges to surgeons due to tendon adhesion complications. Functional recovery is compromised by limiting post-operative range of motion, mobility, and can lead to considerable amount of post-operative pain for the patient. Amniotic membrane tissue has demonstrated clinical success as an anti-inflammatory and anti-scarring agent and promoting wound healing towards regeneration. Cryopreserved human amniotic membrane and umbilical cord (AM/UC) tissue in the form of CLARIX® CORD 1K has been used to treat over 5000 orthopedic patients. The investigators hypothesize that its use in peroneal and Achilles tendon surgical repair will enhance the overall functional recovery of the patient.
The purpose of this study is to evaluate bioinduction of new tissue and tendon healing after implantation of the Rotation Medical Bioinductive Implant used as either a standalone device or adjunct to surgical repair in the treatment of supraspinatus tendon tears.
Peroneal tendon tears are a common etiology encountered by foot and ankle surgeons. Like all flexor tendon repairs adhesions are one of the more common challenges after surgery. Peroneal tendon gliding is key to their function as effective plantar flexors and evertors of the hindfoot. Scarring and adhesion correlate directly with the amount of inflammatory reaction at the wound site (Adzick 1994). Our goal is to have a surgical technique that allows for standard suture repair of the tendon yet allows for smooth gliding of the tendon with minimal adhesions. A prospective review on the surgical repair of the peroneal tendons utilizing Clarix™1k (Amniox Medical, Marietta, GA), cryopreserved Human Amniotic Membrane (C-HAM) graft will be performed. The investigators hypothesize that the use of cryopreserved Human Amniotic Membrane in conjunction with a peroneal tendon repair will decrease that amount of inflammation, overall recovery time of surgically repaired peroneal tendon tears, and adhesions.
The purpose of this study is to assess the clinical performance of the OrthADAPT Bioimplant in patients with acute mid-substance Achilles tendon tears requiring surgical repair.
The study's aim is to determine the incidence of flexor hallucis tendon tears associated with os trigonum excision. The study will then compare the length until functional return to play of the patients who had flexor hallucis tendon tears with concomitant os trigonum excision versus those without flexor hallucis tendon tears who underwent os trigonum excision. Lastly, the study will be evaluating the patient complaints and physical exam findings before and after surgery and compare those without flexor hallucis tendon tears to those with flexor hallucis tendon repair.
Rotator cuff disease is one of the most prevalent musculoskeletal conditions across the world. Patients with chronic rotator cuff tears often have substantial muscle atrophy and fatty infiltration. Surgical repair of the tear does not reverse the atrophy, and many patients continue to experience weakness, pain, and a persistent reduction in the quality of life. An important limitation in our ability to successfully rehabilitate these injuries postoperatively and return patients to normal function has to do with the poor quality of the muscle and tendon after rotator cuff repair. The stromal vascular fraction (SVF) of subcutaneous adipose tissue is highly enriched with cells (SVFCs) that can both directly participate in tissue regeneration by differentiating into myogenic and tenogenic cells, and indirectly by secreting growth factors and small molecules which activate pathways associated with healthy tissue regeneration. High numbers of autologous SVFCs can be isolated using the cost-effective, intraoperative Icellator (Tissue Genesis, Honolulu, HI) point-of-care system. This clinical trial will be determine if the use of SVFCs can enhance outcomes for patients who are undergoing surgical repair of a torn supraspinatus rotator cuff.
This study is a prospective, single center, postmarket study to evaluate the safety and effectiveness of NeoPatch used as a tissue cover in foot and ankle tendon revision and repair surgery.
This is a prospective randomized study on using muscle tendons to repair tears of the muscles on the shoulder. There are 3 muscles covering the shoulder joint- supraspinatus, infraspinatus and subscapularis. Large tears involving these muscles can be treated by using some muscle from another location of the body known as Tendon transfer techniques. These muscle tendons may be from the lower back (Latissimus Dorsi), upper pack (lower trapezius) or chest (pectoralis). There are currently no studies to show which tendon transfer technique has better outcomes. This study comprises two trials and a total of 84 participants would be enrolled. Each trial comparing the patient reported outcomes between two tendon transfer techniques. Large tears involving the supraspinatus and infraspinatus would be repaired using either the Latissimus dorsi technique or Lower trapezius technique. 21 patients would be randomly assigned to either groups. The second trial would be comparing the Latissimus dorsi technique and pectoralis technique in large tears of the subscapularis muscle. Another 21 patients would be randomly assigned to either groups. The investigators are studying to see if the Lower Trapezius and Pectoralis transfer techniques for muscle tear repairs would have better post-surgical outcomes compared with Latissimus Dorsi transfer technique. For both trials, participants would be followed up for 2 years and post-surgical outcomes would be compared between treatment groups.
There is no consensus regarding the best surgical management of primary ACL tears. Recent evidence suggests that internal brace augmentation may increase load failure and therefore stabilize the graft in-situ at the time of ACL reconstruction. This prospective randomized controlled trial aims to compare the time to return to activity, and participant reported outcomes in participants with bone-tendon-bone ACL reconstruction with and without (control) internal brace augmentation.
The study is designed to assess the safety and efficacy of Arthroscopic rotator cuff repair (ARCR) augmented with REGENETEN in subjects requiring full-thickness rotator cuff tear repair or revision repair versus Arthroscopic rotator cuff repair alone.
In primary pediatric Anterior cruciate ligament (ACL) reconstruction, the quadriceps tendon with either tendon and patellar bone or an all-tendon graft is commonly employed. However, no randomized control trial has sought to discern the superior graft option in regards to both short-term and long-term patient outcomes.The purpose of this study is to assess the differences between these two widely used surgical techniques in ACL reconstruction by examining short, intermediate, and long term outcomes of both approaches.
This study is designed to evaluate bridge-enhanced ACL restoration (BEAR), a new surgical technique for repairing knees injured by a tear of the anterior cruciate ligament (ACL) that promotes reattachment and healing of the ACL using a blood-enriched implant. BEAR will be compared to bone to patellar tendon to bone autograft (BPTB) reconstruction, a standard ACL surgical reconstruction technique that replaces a torn portion of the ACL with transplanted patellar tendon tissue, and thus requires additional invasive patellar tendon removal and reuse as a portion of the ACL surgery, in a two group randomized clinical trial (RCT) in which participants will have equal chance of receiving BEAR or BPTB reconstruction. The BEAR technique is FDA approved and involves surgically placing a sponge (the BEAR implant) between the torn ends of the ACL, providing an absorbable implant for the ligament ends to grow into. The investigators hypothesize that the ACL repair with BEAR technology will achieve results not appreciably worse than BPTB reconstruction, with a reduced burden of invasive surgery, when assessed over the first two post-operative years. Animal studies suggest BEAR may also ameliorate longer-term premature osteoarthritis of the knee, a common consequence of ACL reconstruction surgery. However, no human data yet support that, and this trial will conclude before such a benefit can be observed. All patients 18-55 years of age who are candidates for ACL surgery within 50 days of the ACL injury and who present to surgeons participating in the study will be offered participation in the trial. Patients will be randomized and will undergo specified rehabilitation protocols post-operatively with primary assessments of knee laxity and patient reported measures at 6 months, 1 year, and 2 years.
To determine the effectiveness of human dehydrated umbilical cord allograft in standard open rotator cuff repair as assessed by the American Shoulder and Elbow Surgeons (ASES) score 12 months post-op.
The purpose of this study is to better understand the influence of post-operative rehabilitation on the rate of tendon healing and clinical outcomes following arthroscopic repair of the rotator cuff. There are two schools of thought on what type of therapy program is most beneficial following surgical cuff repair. However there has been little data available to compare them. Therefore, the investigators would like to compare these two standard plans of care so that the investigators may better define the safety and efficacy of early mobilization of the shoulder versus keeping the shoulder immobilized following surgical management.
This is a phase 1b investigator-initiated clinical trial that will evaluate the safety and feasibility of E-CEL UVEC® cells with the aim of improving outcomes for patients with full-thickness rotator cuff tears who undergo arthroscopic surgical repair. Allogeneic E-CEL UVEC cells will be delivered to the tendon repair site and to the muscle adjacent to the tendon repair site.
One technique for the nerve block involves injecting the numbing medicine where the nerve is together (higher up in the back of the thigh). The other technique involves injecting the numbing medicine where the nerve splits into two parts. By injecting numbing medication around the nerve(s), there will be less pain after the procedure. It is thought that the numbing medicine will be easier to inject in the group that the nerves are split. It is expected that subjects may need less pain medication and have lower pain ratings in this group too.
The purpose of this study is to compare injecting local anesthetic (numbing medication) in different patterns around a major nerve in the leg. Patients who undergo surgery to the lower leg and/or foot are usually offered the option of a nerve block to help with pain control after surgery. A nerve block involves injecting local anesthetic (numbing medicine) by a nerve or nerves that provide sensation to the area where surgery will be performed. The local anesthetic (numbing medication) numbs up the area where the surgery is performed and helps decrease the amount of pain felt after surgery. The local anesthetic (numbing medication) can be injected in various patterns by a nerve, such as in one spot by a nerve or completely surrounding a nerve. The local anesthetic will be either injected around the sciatic nerve or will injected in a way that will split the sciatic nerve into the two component nerves that make it up, the tibial and sciatic, and surrounds each nerve. The hypothesis is that subjects in the group that local anesthetic is injected in a pattern that separates the sciatic nerve into the two component nerves may have a faster onset time of regional anesthesia and block success than subjects in the group that have the local anesthetic injected at around the nerve.
The purpose of this study was to determine the effect of platelet-rich fibrin matrix (PRFM) augmentation to at-risk arthroscopic rotator cuff repairs on healing rates and functional outcome scores. The investigators performed an observational cohort study in which a consecutive series of patients with rotator cuff tears at risk for retear was prospectively evaluated after arthroscopic repair augmented with PRFM. Clinical and magnetic resonance imaging (MRI) outcomes of the PRFM-augmented repairs were compared with historical controls with similar at-risk tears without PRFM augmentation.
The study is a multicenter, retrospective, non-randomized, non-controlled and consecutive series post-market study. The purpose of this study is to collect data confirming safety, performance and clinical benefits of the ToggleLoc 2.9 mm and the JuggerLoc Soft Tissue Systems when used for soft tissue to bone fixation in the shoulder. The primary objective is the assessment of performance by analyzing soft tissue to bone healing in the shoulder. The secondary objective is the assessment of safety and clinical benefits. Safety will be evaluated by recording and analyzing the incidence and frequency of complications and adverse events. Relation of the events to device, instrumentation and/or procedure will be specified. Clinical benefits will be assessed by recording patient-reported outcome measures (PROMs) at the longest follow-up after surgery (minimum one year).