37 Clinical Trials for Various Conditions
The purpose of this study is to determine whether probiotics in addition to standard of care (SOC) can improve immunological markers following treatment for prosthetic joint infection (PJI). The study aims to determine whether probiotics in addition to SOC decrease immunological markers following treatment for PJI, improve medical and surgical complications and mortality in patients with PJI, and lead to improved gastrointestinal (GI)-specific patient reported outcomes measures (PROMs) in patients with PJI.
Prosthetic joint infection (PJI) is one of the most devastating complications following total joint arthroplasty (TJA) of the hip and knee. Standard of care (SOC) treatment includes surgery and antimicrobials. Morbidity and mortality remain high despite contemporary treatments. The human body is colonized by billions of organisms, collectively, the microbiome, which is central to healthy immune function. Microbiome disruption, dysbiosis, can impair the immune response to infection. Despite recent evidence that suggests dysbiosis may be implicated in PJI, the role of probiotics in the treatment of PJI is unknown. Perioperative probiotics have been demonstrated to be safe and effective for infection prevention in abdominal surgery. The investigators hypothesize that perioperative probiotics will reduce re-infection in patients treated for PJI. A multi-centered, randomized controlled trial (RCT) at two academic, tertiary care centers will be conducted to determine the impact of probiotics on recurrent infection following treatment for PJI. Controls will receive SOC; study patients will receive a probiotic, started shortly after the initiation of and for the duration of their antibiotic therapy + 7 days, in addition to SOC. Primary outcome is re-operation for recurrent infection within 1 year.
TRL1068 is expected to eliminate the pathogen-protecting biofilm in the prosthetic joint and surrounding tissue, thus making pathogens substantially more susceptible to established antibiotic treatment regimens. This Phase 2 study is designed to assess efficacy and safety of TRL1068 in combination with a DAIR (debridement, antibiotics, and implant retention) procedure for chronic prosthetic joint infections of the knee and hip, specifically, eliminating the need for the standard of care 2-stage exchange surgery, so that the original prosthesis can be retained.
Patients presenting with prosthetic joint infections of a total knee replacement who are treated with an antibiotic spacer will be observed prospectively for their response to treatment and antibiotic elution profiles will be measured post-operatively utilizing mass spectrometry from synovial fluid acquired as part of standard of care in the management of prosthetic joint infection. Secondary outcomes including post-operative complications, re-operation rates, and re-admission rates will also be compared.
This is a study designed to evaluate bacteriophage therapy in patients with chronic prosthetic joint infections.
This is a study designed to evaluate bacteriophage therapy in patients with chronic prosthetic joint infections.
TRL1068 is expected to eliminate the pathogen-protecting biofilm in the prosthetic joint and surrounding tissue, thus making these pathogens substantially more susceptible to established antibiotic treatment regimens. This initial study is designed to assess overall safety and pharmacokinetics (PK) of TRL1068. The overall goal of the development program is to demonstrate that TRL1068 can facilitate effectiveness of a single stage joint replacement or preservation of the original infected prosthetic joint in a substantial proportion of patients with PJI.
The purpose of this study is to determine whether patients being treated for prosthetic joint infections (PJI) experience distress during the course of their treatment and how distress influences various aspects of their lives. WVU expects to enroll approximately 12 subjects. Patients identified as scoring ≥4 on the Distress Thermometer at the two-week follow-up visit will be offered the opportunity to participate in the novel CRUTCH Pathway. Once enrolled, you will meet virtually with a mental health provider. The mental health provider will complete a 30-minute intake visit where he will review your distress thermometer scoring, discuss contributing factors to current distress level, and assess for psychiatric comorbidities.
To determine if oral antibiotic treatment with CEM-102 and Rifampin is as effective and safe as the standard of care antibiotic therapy for the treatment of hip and knee prosthetic joint or spacer infections
The main purpose of this study is to compare the effectiveness and accuracy of tissue cultures and swab cultures to diagnose prosthetic joint infection.
Prosthetic joint infection is a devastating complication of total joint arthroplasty ultimately leading to the failure of the total joint arthroplasty function and possibly death. Optimal treatment requires the resection of the infected total joint arthroplasty followed by prolonged parenteral antimicrobial therapy. This procedure is followed by reimplantation of a new total joint arthroplasty at a later date. Surgical debridement and retention of the infected total joint arthroplasty offers a more conservative surgical approach and has been proven to be cost-effective in selected groups of patients. Traditional medical therapy for staphylococcal infection would require an initial parenteral antimicrobial followed by chronic oral non-rifampin containing antimicrobial suppression regimen for the life of the total joint arthroplasty. With this strategy the success rate is close to 30%. Recently, several prospective studies of patients with THA, TKA and fracture fixation device infections conducted in Europe showed that the success rate with a 3-6 month course of a quinolone-rifampin combination is effective in 70% to 100% of cases. The proposed study will be a prospective open label observational cohort that will evaluate the outcome of Patients with S. aureus PJI treated with a medical regimen that includes oral levofloxacin- rifampin and debridement and retention of components. This medical regimen was approved for use by the Orthopedic Infectious Diseases focus group, Mayo Clinic, Rochester. 15 patients will be enrolled over a one-year period and followed up to minimum of 1 additional year. The outcome of this group will be compared to a historical group that is treated with traditional therapy.
The objective of the protocol is to provide access to the VT-X7 (Vancomycin, Tobramycin Exchanged in 7 Days) system for subjects with periprosthetic joint infection (PJI) of the hip or knee who lack therapeutic treatment alternatives.
In the US, if an infection in an artificial knee joint doesn't heal with antibiotics alone, the standard treatment is a two-stage revision of the artificial knee. In the first stage, the surgeon will remove the artificial knee and clean out the area around the knee. They will then place an antibiotic spacer. An antibiotic spacer is a type of artificial joint that will release antibiotics into the knee space continuously over time. The spacer allows only very basic function of the knee. The patient may need to use crutches or a walker while the antibiotic spacer is in place. After surgery to place the antibiotic spacer, the surgeon may prescribe a course of antibiotics as well. Because the antibiotic spacer is not as durable as a regular artificial joint, after the infection is gone, another surgery is required to take the spacer out and put a new artificial knee joint in. There is another way for artificial joint infections to be treated. This is a one-stage revision. In this treatment, the surgeon will remove the artificial knee and clean out the area around the knee. Then the surgeon will place a new artificial knee in using a special kind of cement that contains antibiotics. The cement will release antibiotics into the knee space continuously over time (the surgeon may prescribe a course of antibiotics as well). The new artificial joint with antibiotic cement will function almost the same as the original artificial knee. This means that while the infection is healing the patient will be able to do most of the regular daily activities. However, the antibiotic cement is not as durable as what is normally used to implant an artificial knee. The artificial knee with the antibiotic cement may need to be replaced with a regular artificial knee. When replacement will need to be done is dependent on patient weight, bone strength and activity level, among other things. When it is time to replace the antibiotic cement artificial knee, the patient will have another surgery where the surgeon will take the antibiotic cement artificial knee and put a new artificial knee joint in. Investigators know that both the one- and two-stage revision work equally well to heal the infection, but investigators don't know which patients prefer or which provides better function after many years. This study will randomly assign patients to receive either a one-stage or two-stage revision and then follow them for 5 years to ask them about pain, function, and satisfaction.
The goal of this prospective randomized clinical trial is to investigate the potential synergistic effect of combination of topical benzoyl peroxide and making skin incision with electrocautery on preventing surgical wound contamination from Cutibacterium acnes (C. acnes) in patients undergoing shoulder replacement. The main question it aims to answer is: • Will the combined use of topical application of benzoyl peroxide and making skin incision using electrocautery decrease the positive culture rates of C. acnes in the surgical field? Participants will be asked to apply topical benzoyl peroxide to the shoulder skin prior to their shoulder replacement surgery if they are randomized in the treatment group. The skin incision will be made using electrocautery in both the control and treatment groups. Microbiology swab cultures will be taken during shoulder replacement surgery to compare the positive culture rates for C. acnes between the groups.
Apex-2 is a multi-site, parallel group, randomized trial. Patients will be randomly assigned in a 1:1 ratio to the Experimental Arm or the Control Arm. The objective of the study is to evaluate safety and determine efficacy of the VT-X7 system. Efficacy is evaluated as superiority of the Experimental Arm in a composite endpoint of Overall Success at 180 days, consisting of a revision prosthesis implanted at Stage 2, absence of periprosthetic joint infection (PJI), absence of continued antibiotic therapy for treatment or prophylaxis of PJI, absence of revision surgery and absence of mortality. Secondary objectives are to evaluate overall success at 365 days, overall safety of the VT-X7 procedure, quality of life (QoL), and patient survival. The exploratory objective is to compare Experimental and Control Arms in exploratory endpoints. Follow-up: Patients will be evaluated at 90-, 180-, and 365-day follow-up visits.
Testing and comparison of a novel point-of-care electrochemical assay to detect and help diagnose periprosthetic joint infection on the hip and knee to the standard of care test
This study will be an open-label superiority, multicenter, single-blind, controlled randomized clinical trial investing the role of a PVP-I irrigation solution (Surgiphor) in reducing the risk of acute PJI in the 90 days following total hip and knee revision arthroplasty.
This multicenter, randomized controlled trial will compare the use of NGS and traditional culture in directing antimicrobial treatment for patients with periprosthetic joint infection.
Study Type: A multi-site, parallel group, randomized trial. Study Objectives: The objective is to evaluate safety and determine preliminary efficacy of VT-X7 (Vancomycin and Tobramycin Exchanged over 7 Days). Efficacy is evaluated as superiority of the Experimental Arm in a composite endpoint of Overall Success at 90 days, consisting of a revision prosthesis implanted at Stage 2, patient survival, absence of reoperation and absence of periprosthetic joint infection (PJI). Secondary objectives are to evaluate superiority at 365 days in a composite endpoint of Overall Success, and in separate secondary endpoints for quality of life and patient survival. The exploratory objective is to compare Experimental and Control Arms in exploratory endpoints. Follow-up: Patients will be evaluated at 90-, 180-, and 365-day follow-up visits.
The primary objective of this study is to assess the diagnostic efficacy of the quantitative electrochemical LE biosensor for periprosthetic joint infection (PJI). The secondary objective of this study is to assess the utility of d-lactase as adjunct biomarker to LE in making a diagnosis of PJI.
This study will investigate TNP-2092 distribution into joint tissues in participants undergoing a total hip arthroplasty (THA) or a total knee arthroplasty (TKA). Tissue distribution is the primary objective, and plasma pharmacokinetics (PK), safety, and tolerability are secondary objectives.
The objective of this study is to evaluate a novel vancomycin intraosseous administration protocol vs a standard IV vancomycin administration protocol for primary total hip arthroplasty patients.
Study Type Prospective, single-arm, open-label, multicenter (3 to 5 sites), interventional trial. Primary Study Objective The objective of the study is to determine the safety profile of local antibiotic irrigation for the treatment of PJI. Primary Outcome Measure The overall safety profile is characterized by assessing the incidence of adverse events (AEs), serious adverse events (SAEs), suspected adverse reactions, adverse reactions, and unexpected adverse reactions. Follow-up Patients will be assessed for all measures at 3 weeks, 6 weeks, 12 weeks, and 12 months from initial surgery.
The purpose of this study is to investigate whether there are quantifiable differences in the level of calprotectin in the synovial fluid that allow separation of different modes of joint implant failure (e.g. infected, aseptic loosening). A subset of primary TKA patients (with history of OA) will be included as a baseline.
This is a prospective multicenter study. All patients presenting for revision hip or knee arthroplasty for all indications under the respective surgeon's care may be eligible. Per standard of care preoperatively, all patients must have blood drawn for erythrocyte sedimentation rate(ESR), C-reactive protein(CRP) and D-dimer. Aspiration of the joint in question may be performed at the discretion of the treating surgeon and results documented. Intraoperative samples will also be collected and sent for NGS analysis
The primary aim of the study is to compare two techniques for treatment of total knee infection: resection total knee arthroplasty with an articulating (motion in the joint) spacer and resection total knee arthroplasty with a static (no motion in the joint) spacer.
This protocol will evaluate the sensitivity and specificity of \[124I\]FIAU as a diagnostic imaging agent for the detection of prosthetic joint infections in patients.
This study is being conducted to investigate the potential benefits of using a special type of fluid that can be applied to the skin (Integuseal) in addition to standard surgical skin preparation in patients undergoing total hip replacement (THA) or total knee replacement (TKA). Integuseal is supposed to lock down the skin bacteria and reduce skin infection and other problems. This study will investigate whether Integuseal is effective in reducing persistent wound drainage when used in addition to standard surgical skin preparation for total hip arthroplasty (THA) or total knee replacement (TKA).
Comparing the growth of intra-operative tissue cultures of Cutibacterium Acnes after primary shoulder replacement when using a no-prep control group versus antimicrobial wound gel versus betadine applied to the skin layer after the skin incision has been made. Reducing the bacteria present in the deep tissues at the end of the surgery may prevent infections from developing in the future.
Because of its prolonged terminal half-life, dalbavancin is an extremely attractive option in treating Gram-positive infections caused by S. aureus including MRSA, and streptococcal species. Systemic bacterial infections due to Staphylococci such as osteomyelitis and septic arthritis, are conditions which require prolonged IV therapy, typically for at least 3-6 weeks, though sometimes more. Due to dalbavancin's prolonged terminal half-life, it may offer the opportunity to substantially reduce costs and morbidity in native joint and prosthetic joint infections with one infusion every fourteen days until completion of therapy.