16 Clinical Trials for Various Conditions
Necrotizing soft-tissue infections (NSTIs, a.k.a. "necrotizing fasciitis" or "flesh-eating bacteria") are aggressive infections that can progress rapidly from mild symptoms to sepsis, multi-organ failure, and death. NSTI cases present with non-specific clinical, imaging, and laboratory findings, and standard-of-care techniques for NSTI diagnosis lack sensitivity and specificity, resulting in frequent misdiagnosis and delayed care, which is the single most important predictor of survival. Consequently, the cumulative mortality rate for patients with NSTIs is 20- 30%; a dire need exists for more accurate and rapid detection of NSTIs. Fluorescence-guided surgery is a nascent technology seeking to improve the recognition of anatomical structures and disease processes using fluorescent probes (fluorophores). Indocyanine green (ICG) is an FDA-approved, near-infrared fluorophore with a \>60-year safety record for vascular perfusion assessment. A distinguishing histological feature of NSTIs is prominent blood vessel thrombosis in affected tissues. Leveraging these pro-thrombotic effects, our study group has demonstrated in a first-in-human study (NCT04839302) that intravenous administration of ICG and immediate fluorescence imaging reveals prominent signal deficits in NSTI-positive tissues that differentiate significantly with increased signal seen with more common-and less virulent-infections such as cellulitis. We seek now to evaluate this imaging technique on a broader scale and determine if our findings are consistent for patients affected by NSTI-causing pathogens that are not endemic to our region. This prospective, observational, multicenter clinical study will involve video-rate ICG fluorescence imaging of patients suspected of having NSTIs who present to eight tertiary, Level 1 medical centers across the United States (Aim 1). Using dynamic contrast-enhanced fluorescence imaging (DCE-FI), time profiles of ICG fluorescence intensity from different tissue pixels/regions will be extracted and parameterized to extract first-pass kinetic features. These DCE-FI features, which characterize tissue perfusion, will be evaluated alone and in combination with anonymized electronic medical record data to create a DCE-FI-based clinical decision tool and a machine- learning-based fusion (DCE FI+lab/imaging data) tool; these will be compared to identify the most accurate means of diagnosing NSTIs (Aim 2). The best-performing tool will then be evaluated-compared to current diagnostic tests-in a prospective observational clinical study of patients presenting to tertiary emergency departments with findings concerning for NSTIs (Aim 3). Based on our human study, fluorescence imaging will not delay current standard of care. To ensure data fidelity, all sites will use similar: 1) commercial fluorescence imaging systems and accessories; and 2) validated commercial fluorescence reference phantoms. Based on our early results, we have strong confidence that following rigorous testing, ICG DCE-FI will lead to an entirely new methodology for rapid identification of patients with NSTIs, which will ultimately reduce patient morbidity and improve survival.
This is a prospective, pilot, parallel group, randomized controlled trial with 1:1 allocation. This will be a single center study coordinated at the Cleveland Clinic Foundation (CCF) Main Campus in Cleveland, Ohio. Data will be collected in a secure manner using REDCap housed at CCF. The study will consist of 2 arms: treatment with Cytal® Wound Matrix 2-Layer and MicroMatrix® (Integra LifeSciences, Plainsboro Township, NJ, U.S.A.) versus standard of care dressings. Wound debridement procedures will be performed by surgical staff at CCF. A co-investigator trained in the application of Cytal® Wound Matrix and MicroMatrix® will apply these treatments as outlined in section 6.1.2 Administration. This study will be conducted with IRB approval and written informed consent of each participant enrolled. The trial will be registered at ClinicalTrials.gov before the first participant is enrolled.
Necrotizing soft tissue infection (NSTI) is a devastating disease that results in a high rate of in-hospital complications and despite advances in critical care, wound care, and early intervention, NSTI continues to be associated with a mortality rate of nearly 30%. The antibiotics used in this treatment are Clindamycin, Vancomycin, Piperacillin Tazobactam; these antibiotics may be administered combined or individually, based on individualized patient treatment. Although one of the tenets of management for NSTI is early broad-spectrum intravenous antibiotics (listed above), the duration of antibiotics needed is not well defined. Currently, there exists wide variation in the duration of antibiotics for NSTI ranging between 2-16 days. The objective of this study is to evaluate the safety of a shorter course of antibiotics hypothesizing that a short duration of antibiotics for 48-hours after source-control is achieved will have similar risk of morbidity and mortality compared to a 7-day course of antibiotics post source control. A second aim of this study will be to identify if serum procalcitonin levels/ratio correspond to resolution of systemic infection in patients with NSTI.
Primary Objective: The primary objective of this study is to develop and validate a clinical risk index score for identifying NSTIs in emergency general surgery patients being evaluated for a severe skin and soft tissue infection. Secondary Objectives: To describe the contemporary microbiology of NSTIs and explore the effects on outcomes and to identify predictors of amputation and mortality.
There is significant mortality associated with necrotizing soft tissue infections, it is imperative to decrease mortality and complications associated with this disease is determined. To accomplish this goal, study team will create a prospectively maintained database of all NSTI patients admitted at department of surgery. Investigators will asses the predictors of poor outcome and follow these patients for 1 year in clinic and asses the functional quality of life by incorporating 36-Item Short Form Survey (SF-36) score.
The purpose of this study is to determine whether AB103 is safe and effective in the treatment of patients with necrotizing soft tissue infections (NSTI) receiving standard of care therapy.
Hypothesis: We hypothesize that RNAseq will allow us to learn more about the causative agents of necrotizing soft tissue infections (NSTI) and risk factors involved in acquiring these devastating infections Tissue biopsies will be obtained from consented patients admitted with NSTI. Biopsies will be used for standard clinical analysis of bacterial species present or stored for later RNA sequencing. RNA sequencing will identify bacteria that are present within the infection site that may not be detected using standard culture techniques as well as reveal bacterial gene expression profiles within the NSTI site. Medical charts will also be reviewed for basic patient information as well as wound care management practices. We hope to identify bacterial species commonly present in these types of infections as well as risk factors predisposing individuals to NSTI's.
A study to evaluate the safety and pharmacokinetics profile of different doses of AB103 administered to patients diagnosed with Necrotizing Soft Tissue Infections that are scheduled for an urgent surgical intervention as part of their standard of care.
Daptomycin is a new antimicrobial agent which has activity against resistant Gram positive cocci including MRSA. The phase 3 clinical trials for skin and soft tissue infections (SSTI) with Staphylococci and Streptococci have already demonstrated that daptomycin was noninferior to the comparator agent (vancomycin or beta-lactams) (10). Although this clinical trial did not include any patients with clostridial infection, there is in vitro data to support the activity of daptomycin against a variety of clostridial species(11) ( Clostridium perfringens) Therefore, for this trial we will include patients with clostridial infections with this species. Additionally, the patients in the SSTI study were not as ill as the proposed study population. Therefore for treatment of such severe infections, we would like to use a higher dose of daptomycin (6mg/kg/dose). The reasons for using a higher dose of daptomycin in this subgroup are as follows: 1. Patients who are severely ill have an increased volume of distribution; and therefore have a lower serum concentration of daptomycin. These patients might require a higher dose of daptomycin to achieve the desired serum concentration. 2. One of the organisms involved in necrotizing fasciitis is enterococcus (both-fecalis and faecium). E.faecium has higher MICs to daptomycin and would require a higher dose of the drug to achieve adequate free (unbound) serum concentration of the drug. 3. Both necrotizing fasciitis and endocarditis are serious deep seated infections. The clinical trials for endocarditis are using 6mg/kg/dose of daptomycin. Therefore for optimal treatment of necrotizing fasciitis, it is justifiable that we should use the higher dose of daptomycin. Objective: To evaluate the clinical and microbiological efficacy and safety of higher dose daptomycin therapy in the treatment of patients with severe necrotizing skin and soft tissue infections. Type of Study: Open label, single center study.
Evaluate the impact of HAT therapy versus placebo in the treatment of patients with an acute NSTI and sepsis.
To evaluate the safety and performance of MicroMatrix® Flex in subjects with wounds complicated by tunneling and/or undermining features.
This study aims to emulate a hypothetical target pragmatic multi-center, non-blinded trial of adult inpatients in the PINC AITM dataset with B-lactam treated culture confirmed monomicrobial invasive Group A streptococcus (GAS) between the years 2015-2021
This is an observational study designed to evaluate the safety and clinical outcomes of Myriad™ in soft tissue reconstruction procedures. The study will enroll participants who are undergoing a surgical procedure, where the attending physician will use Myriad™ as part of the surgical intervention.
Our data suggest that modulating the characteristics of light carries the potential to modify the host response to injury and critical illness and thus, improve outcome. The ability to modify the host response to the stress of major operations and sepsis carries immense potential to improve patient care. The primary purpose of this study is to determine if exposure to bright blue (442nm) enriched light, by comparison to ambient white fluorescent light, reduces the inflammatory response or organ dysfunction in patients undergoing 1) medical treatment for pneumonia, 2) a 2-stage arthroplasty for surgical management of a septic joint, 3) surgery for a necrotizing soft tissue infection (NSTI), and 4) surgery for an intraabdominal infection (e.g., diverticulitis). We will expose participants to one of two (2) lighting conditions: 1) high illuminance (\~1700 lux,), blue (442nm) spectrum enriched light and 2) ambient white fluorescent light that provides the standard environmental lighting (\~300-400 lux, no predominant spectrum) of the hospital. Both cohorts will be exposed to a 12 hours:12 hours light:dark cycle photoperiod. Those subjects assigned to blue light will be asked to shine this small portable blue enriched light on themselves from 0800 to 2000 for 3 days. At the transition from light to dark, the blue-enriched light is turned off, and additional blue wavelength light removed with an amber filter. Thus, the total period of intervention is 72 hours. The outcome of interest is change in the inflammatory response after surgery for appendicitis or diverticulitis as measured by the following parameters: white blood cell count, heart rate, the development of abdominal abscess, serum cytokine concentrations. The outcome of interest is change in the inflammatory response during pneumonia as measured by the following parameters: white blood cell count, heart rate, and serum cytokine concentrations.
Phase 3 multicenter study to be conducted in up to 90 qualified participating sites globally to assess the efficacy and safety of Reltecimod vs placebo in patients with sepsis-associated Stage 2/3 AKI.
A prospective randomized within-subject controlled study to compare the clinical performance of conventional autografting with and without the RECELL system on acute non-burn full-thickness skin defects.