62 Clinical Trials for Various Conditions
The goal of this observational study is to investigate how bacterial populations from the intestine and mouth of patients change during the hospitalization period and evaluate if some populations of specific bacteria increase or decrease the risk of acquiring an infection or becoming colonized by pathogenic bacteria. Participants will have the following samples collected during enrollment: stool samples (maximum 2x/week), blood draws (1x/week), oral swab (1x/week).
The virological efficacy of ibalizumab has been clearly demonstrated in multiple clinical trials. This study will expand ibalizumab's clinical data set and allow a better understanding of the virologic response durability on ARV regimens with or without ibalizumab in a heterogeneous real-world patient population. Additional data on the efficacy and safety of ibalizumab and its impact on patient reported outcomes will be captured until study end. Primary Objective: To evaluate the long-term efficacy, safety, and durability of ibalizumab in combination with other ARVs by comparing the virologic, immunologic and clinical outcomes of patients receiving ibalizumab treatment versus patients not receiving ibalizumab. Secondary Objective: To assess the efficacy of ibalizumab in combination with other antiretrovirals by comparing the virologic, immunologic, clinical and patient reported outcomes of patients before and after they receive ibalizumab treatment. To assess the long-term safety and tolerability of ibalizumab. Other Objectives: To assess risk factors/predictors of virologic and immunologic response. To assess efficacy and safety in special populations that enroll.
The duodenoscopes currently used for Endoscopic Retrograde Cholangio - and Pancreaticography (ERCP) examinations are reusable and are therefore washed and disinfected after each use. Despite this, these endoscopes sometimes remain contaminated with bacteria. Several reports of outbreaks linked to contaminated duodenoscopes have been published worldwide. Recently, the Food and Drug Administration (FDA) advised manufacturers and health care professionals to transition away from fixed endcap duodenoscopes and instead focus more on the use of duodenoscopes with disposable components or fully disposable duodenoscopes. Single-use endoscopes have been developed, but they are not yet widely used, partly because of the extra costs that these endoscopes add to the examination. A possible interim solution, is to only use these disposable endoscopes in patients who carry multi-resistant bacteria in order to prevent the spread of these bacteria. For this, it is important to know how many people who undergo an ERCP carry multi-resistant bacteria. The primary objective of this study is to measure the prevalence of multi-resistant bacteria in patients undergoing ERCP in four different countries: India, the Netherlands, Italy and the United States. In the Netherlands, some secondary outcomes will be investigated with regard to the prevalence of duodenoscope contamination, the risk of bacterial transmission via a contaminated duodenoscope and the presence of multi-resistant bacteria in the duodenum.
The primary objective of this study is to evaluate the antiviral activity of lenacapavir (formerly GS-6207) administered as an add-on to a failing regimen (functional monotherapy) in people with human immunodeficiency virus (HIV) (PWH) with multi-drug resistance (MDR).
This is a prospective observational study to determine the role of colonization and identify the timing of development of drug resistance in multidrug resistant Gram-negative bacilli (MDR-GNB) causing infection among critically ill burn patients.
Acquisition and transmission of MDROs in healthcare facilities is a major patient safety problem, afflicting in particular the antibiotic-exposed and immunodeficient patient populations. MDRO-colonized patients require isolation to reduce the risk of transmission to other patients, and frequently develop infections from their colonizing organisms. Most clinically relevant MDROs are carried in the gastrointestinal tract; thus perirectal cultures are frequently the surveillance method used to screen for these pathogens. Surveillance to identify MDRO colonization allows for anticipation and timely initiation of effective treatment of patients who develop infection. The precise modes of transmission within hospitals are not known, but contamination of the hands of healthcare personnel, patient care equipment, and the healthcare environment are thought to play major roles in transmitting MDRO. Suboptimal hand hygiene can lead to transmission on the hands of staff to other patients or colonization of their own gastrointestinal tract. Few studies have investigated intestinal colonization of healthcare professionals. Transmission of bacteria by healthcare personnel is thought to occur primarily via contaminated hands; we wonder whether gastrointestinal carriage by healthcare personnel also plays a role in nosocomial spread. This study will screen a self-referred convenience sample of 400 healthcare personnel who have contact with patients or patient culture specimens for fecal carriage of MDRO at one point in time. A control group of 400 NIH employees or contractors who do not have contact with patients or patient specimens will also be screened. Samples will be linked to questionnaires to assess the exposure of staff members to patients or culture specimens with known MDRO colonization or infection. We will use molecular typing techniques to link healthcare personnel isolates to patient or environmental isolates. Finally, the study will be conducted in such a way as to preserve to the greatest extent possible the anonymity of volunteers, using a system of alphanumeric identifiers and unmanned drop boxes for specimen collection.
Arbekacin for the use of infection caused by multidrug-resistant organisms
This research trial studies multidrug resistance genes in patients with acute myeloid leukemia. Studying samples of bone marrow or blood from patients with cancer in the laboratory may help doctors learn more about changes that may occur in deoxyribonucleic acid (DNA) and identify biomarkers related to cancer. It may also help doctors learn more about drug resistance and how patients respond to treatment.
Background: Resistance to cancer chemotherapy develops in patients, rendering certain treatments ineffective. Despite much research, the prevailing cause of drug resistance is not known. One mechanism for drug resistance involves a protein called P-glycoprotein, or Pgp, which reduces the effectiveness of cancer treatments by "pumping" anti-cancer drugs out of tumor cells where they are supposed to work against the disease. Objectives: To identify and evaluate more thoroughly the roles of Pgp and other substances in mediating drug resistance. Eligibility: Patients enrolled in clinical trials of cancer therapies at the Children's Hospital of Pittsburgh; Cancer Centers of Carolinas; Arizona Clinical Research Center; University of Copenhagen; and Herlev Hospital, Copenhagen who have consented to the use of blood, tissue, or tumor samples for laboratory studies. Design: Blood, tumor, and tissue samples are collected from participants and sent to the NCI for various laboratory analyses. ...
This is a clinical trial to evaluate the safety and efficacy of OPC-67683 in the treatment of multidrug resistant tuberculosis (MDR TB) for 56 days. In addition to an optimized background regimen (OBR), participants will be randomized to receive: * 100 mg OPC-67683 twice daily (BID) * 200 mg OPC-67683 BID * Placebo BID After 56 days participants will complete their optimized background regimen (OBR).
Demonstrate the safety and efficacy of Tipranavir/Ritonavir versus an active treatment regimen in highly treatment experienced Human Immunodeficiency virus 1(HIV-1) infected patients.
To determine the demographic, behavioral, clinical, and geographic risk factors associated with the occurrence of multidrug-resistant pulmonary tuberculosis (MDRTB). To evaluate the clinical and microbiological responses and overall survival of MDRTB patients who are treated with levofloxacin-containing multiple-drug regimens chosen from a hierarchical list. Per 9/28/94 amendment, to assess whether persistent or recurrent positive sputum cultures of patients who show failure or relapse are due to the same strain or reinfection with a new strain. Among TB patients, there has been an increase in progressive disease due to the emergence of antimycobacterial drug-resistant strains of Mycobacterium tuberculosis. Failure to identify patients at high risk for MDRTB increases the hazard for both treatment failure and development of resistance to additional therapeutic agents. Efforts to improve survival in patients with MDRTB will depend on improved methods of assessing the risk of acquisition of MDRTB and identifying drug susceptibility patterns in a timely fashion.
This is a randomized, open label, comparative Phase II trial being conducted to determine whether fecal microbiota transplant using Penn Microbiome Therapy (PMT) products helps standard therapy eradicate antibiotic-resistant bacteria.
Background: - The intestines, mouth, and skin all contain billions of bacteria and some fungi. Every person s body contains microorganisms like these. They normally do not make people sick. Researchers are interested in how these microorganisms change when a person is hospitalized. They want to find out if changes take place because of the hospitalization (such as treatments used or changes in medical condition) or because of a person s biology (such as their immune system). Objectives: - To understand which microorganisms are most likely to spread through hospitals and what affects that spread. Eligibility: - People 2 years of age and older who are going to be inpatients at the National Institutes of Health Clinical Center (NIHCC) for at least 48 hours. Design: * Clinicians will take samples from participants up to once a day for as long as they are hospitalized at NIHCC. * Samples will be taken with a swab, from the rectal area, groin, throat, and armpit, and possibly other areas. * Participants may give a stool sample or be asked to spit into a cup. * Clinicians will collect some information from participants medical records. They may request some samples of tissue that are left over from procedures already scheduled at NIHCC. * After participants leave the NIHCC, samples may be taken when they return for follow-up visits from their hospitalization, for up to 2 years. They will not have to return as a follow-up for this study only.
Enhanced terminal room disinfection is a novel, promising, but still unproven strategy for the prevention of healthcare-associated infections (HAIs) due to selected multidrug-resistant (MDR) bacterial pathogens. The investigators will perform a large prospective, multicenter study enhanced terminal room disinfection to 1) determine the efficacy and feasibility of enhanced terminal room disinfection strategies to prevent HAIs and 2) determine the impact of environmental contamination on acquisition of MDR-pathogens among hospitalized patients.
Solid organ transplant (SOT) recipients have increased incidence of infections with MDRO pathogens. This difference leads to a disparity in antibiograms between SOT recipients and other hospitalized patients.
The objective is to conduct a prospective, sham controlled, double-blinded, interventional crossover trial to compare standard terminal cleaning plus PX-UV (intervention) with standard terminal cleaning plus sham PX-UV (control) with crossover at 12 months, following a 6-month washout period. Outcome measures include the rates of HAIs, as well as the recurrence of genetically identical clinical strains of HAIs among patients on study units. The study will be conducted in 2 hospitals covering 16 total hospital units at Detroit Medical Center. Our central hypothesis is that the addition of PX-UV to standard terminal cleaning will be associated with a significant reduction in the rate of HAIs, as well as a reduction in the recovery of genetically identical strains of MDROs. The impact of PX-UV disinfection on rates of HAIs on study units will be determined by comparing rates of HAIs on a) study units where PX-UV is added to standard terminal cleaning practices to b) units where a sham UV disinfection system is added to standard terminal cleaning; and by comparing rates of HAIs on the same medical ward during each of two 12-month phases of a crossover study (one phase when a PX-UV device is added and one when a sham device is added to standard terminal cleaning). The long-term goal of this project is to establish the efficacy of terminal cleaning plus PX-UV in reducing rates of HAIs due to the following multi-drug resistant organisms (MDROs): C. difficile, vancomycin-resistant enterococci (VRE), Klebsiella pneumoniae and Escherichia coli producing extended-spectrum beta-lactamases (ESBLs), methicillin-resistant Staphylococcus aureus (MRSA) and Acinetobacter baumannii. At the conclusion of the proposed project, novel data will be generated from this rigorously controlled study regarding the effectiveness of PX-UV in reducing HAIs in a representative, real-world healthcare setting.
Background: - Tuberculosis (TB) is an infectious disease that affects numerous people worldwide. Researchers are interested in actively recruiting individuals with TB for research and treatment studies. Objectives: - To collect blood and other samples to study the natural history of tuberculosis. Eligibility: - Individuals 2 years of age and older who have either active or latent tuberculosis. Design: * Latent TB patients: Participants will have a single study visit with a physical examination and medical history, and will provide blood samples for testing. * Active TB patients: Participants will have an initial visit with a physical examination and medical history, and will provide blood samples for testing. Participants will also provide sputum samples if required, and may have an optional skin punch biopsy to collect a sample of skin tissue for study. * Treatment for active TB will be provided as part of this protocol. * Active TB participants may be asked to return for study visits every 1-2 months while receiving treatment....
Despite the critical importance of identifying hospital-associated outbreaks as early as possible in order to limit their spread, there are currently no standardized methods for cluster detection. The CLUSTER Trial (Cluster Linkage Using Statistics to Trigger and Evaluate Response) will assess whether a statistically-based automated cluster detection method coupled with a robust response protocol will enable rapid containment of hospital clusters as measured by a reduction in cluster size and duration as compared to routine hospital cluster detection methods coupled with the same response protocol. Note: that enrolled "subjects" represents 82 individual HCA Healthcare hospitals that have been randomized
The purpose of this study is to determine the safety and impact of fecal microbiota transplantation (FMT) on the fecal and urine microbiome, urine metabolome, risk of recurrent urinary tract infection (UTI), and persistent multidrug resistant organism (MDRO) colonization of patients with a history of recurrent MDRO UTIs. This is an open label phase 1-2 study.
The objective of this study is to provide preliminary insight into the safety and efficacy of fecal microbiota transplantation (FMT) for the eradication of gastrointestinal carriage of vancomycin-resistant Enterococcus.
Transplant patients are at increased risk of colonization and infection with Multidrug Resistant Organisms (MDROs) due to medications that modify their immune systems, increased healthcare and antibiotic exposure, and surgical manipulation of mucosa. In this study, kidney transplant patients who have infections with resistant bacteria will be given a Fecal Microbiota Transplant (FMT), also known as a fecal transplant, after they receive antibiotic treatment. This study will see if FMT will eliminate the resistant bacteria so that the kidney transplant patients do not have to use last resort antibiotics. This Phase 1 pilot study is to obtain preliminary safety data for FMT in renal transplant patients to support the rationale for a subsequent clinical trial, not to establish efficacy or toxicity. This trial is designed to test the safety of FMT, identify clinical outcomes, assess feasibility, and refine the target population in participants with MDRO colonization and intestinal dysbiosis. Data from this study should provide directions for the design of future clinical trials.
Multidrug-resistant organisms (MDROs) are endemic in nursing homes (NHs) with prevalence rates surpassing those in hospitals. The aim of the study is to design and evaluate the effectiveness of a multi-component intervention to reduce new acquisition of MDROs in NH residents. The intervention will incorporate resident-level, environmental, and caregiver based strategies. Using a cluster-randomized study design, three NHs will be randomized to the intervention group and three to the control group. Control NHs will be allowed to continue standard infection prevention practices. Nursing homes will serve as the unit of allocation. Analyses will be performed both at the resident and the cluster level. The primary outcomes of the study are reduction in MDRO prevalence, and reduction in new MDRO acquisition .
Multidrug resistance (MDR) is a cause of treatment failure in many cancer patients. MDR refers to a phenotype whereby a tumor is resistant to a large number of natural chemotherapeutic drugs. Having prior knowledge of the presence of such resistance would decrease morbidity from unsuccessful therapy and allow for the selection of individuals who may benefit from co-administration of MDR inhibiting drugs. The Tc-99m labeled single photon emitting radiotracers sestamibi and tetrofosmin have shown some predictive value. However, positron-emitting (PET) radiotracers, which allow for dynamic, quantitative imaging, hold the promise of more accurate and specific identification of MDR tumors. Objective: To obtain human safety data, to demonstrate imaging feasibility with FPAC, to obtain human biodistribution and to obtain preliminary evidence of breast tumor uptake concordance with response to therapy.
Tapestry Pharmaceuticals, Inc. has developed a novel taxane analog, TPI 287. TPI 287 is synthetically manufactured from naturally occurring taxanes extracted from yew starting material. The synthesis involves modification to the taxane side chain to overcome multidrug resistance and to achieve mutant tubulin binding. This study will be a multi-center, dose escalation, sequential group, Phase 1 study evaluating the intravenous administration of TPI 287 on an every 21 day cycle.
The purpose of this study is three-fold: 1) to examine the ability of the experimental drug tariquidar to improve chemotherapy results by blocking a protein (P-glycoprotein) on some cancer cells that acts to pump out cancer drugs; 2) examine how tariquidar interacts with the cancer drug docetaxel; and 3) evaluate the effectiveness of combination treatment with tariquidar and docetaxel in treating patients with lung, ovarian, or cervical cancer. Patients 18 years of age and older with recurrent or metastatic (spreading) lung, cervical, or ovarian cancer who cannot benefit from any standard treatment may be eligible for this study. Candidates will be screened with a medical history and physical examination; review of pathology slides; blood and urine tests; imaging tests, including computed tomography (CT) or magnetic resonance imaging (MRI) scans; chest x-ray, electrocardiogram (EKG); and possibly echocardiogram. Participants will undergo the following tests and procedures: Blood draw. Blood is drawn before treatment begins to establish baseline levels for future blood tests. Blood counts are done twice weekly after chemotherapy begins. Central venous catheter placement. A plastic tube is put into a major vein in the chest. It is used to give the study drugs or other medications, including antibiotics and blood transfusions, if needed, and to withdraw blood samples. The line is usually placed under local anesthesia in the radiology department or the operating room. It can stay in the body for months or be removed after each treatment is completed. Chemotherapy. Treatment cycles are 21 days. Both drugs are given on day 1 of each cycle. First, tariquidar is given as a 30-minute infusion. One hour after the tariquidar infusion, docetaxel is infused over 1 hour. (For the first cycle only, docetaxel is given in divided doses one week apart and tariquidar is administered on either day 1 or day 8. The order of tariquidar administration is randomized to generate optimal pharmacokinetic data. Patients will be hospitalized for several days during this cycle to gather research data). The tariquidar dose remains the same throughout the study. Docetaxel may be increased or decreased from cycle to cycle, based on side effects.
This study examines the feasibility of using gene therapy to prevent some of the toxicities of an intensive chemotherapy regimen in patients with metastatic breast cancer. Patients who do not wish to participate in the gene therapy procedures will be offered identical chemotherapy on a different protocol. Patients will be treated initially with chemotherapy which is active against breast cancer, but which has a low potential to hurt blood-forming cells. Then, the patient will receive high dose chemotherapy, during which time blood cells which are capable of rebuilding patients' bone marrows will be removed from the patients' bloodstream. We will use these blood cell collections to isolate peripheral blood progenitor cells (PBPCs), those cells which are thought to be the forbears of all other blood cells. A portion of the PBPCs will be exposed to a disabled virus which either carries genetic material referred to as the multidrug resistance gene (MDR1). The virus will transfer the MDR1 gene into a portion of the patient's PBPCs. The purpose of putting the MDR1 gene into the patients' PBPCs is to try to make these blood cells and their offspring resistant to the toxic effects of certain types of breast cancer chemotherapy. The MDR1 protein (Pgp) that is made from the MDR1 gene makes cells resistant to chemotherapy in laboratory systems by pumping the drug out of cells before the drug is able to kill the cell. Another portion of the patients PBPCs will be exposed to a similar disabled virus carrying a different gene called the NeoR gene. The NeoR gene should not change the effects of chemotherapy on blood forming cells. The purpose of using the NeoR gene is that it will serve as a point of comparison, to see if the presence of the MDR1 drug resistance gene really helps blood forming cells withstand subsequent chemotherapy. Patients are then treated with a very high dose of another anti-breast cancer drug, one that is very toxic to bone marrow cells, and patients will then receive the frozen PBPCs, which contain the new genes, to help them recover from the chemotherapy. After recovery, patients will then be treated with high doses of paclitaxel (Taxol) and doxorubicin (Adriamycin) chemotherapy. Both of these drugs are very active against breast cancer, and the MDR1 gene may potentially protect bone marrow cells against these drugs. Samples of peripheral blood cells will be obtained before each of these doses of chemotherapy to determine whether the number of blood cells that contain the MDR1 gene in comparison to the number that contain the NeoR gene has increased in response to the chemotherapy.
This is a dosage escalation study to estimate the maximum tolerated dose of drug resistance inhibitor PSC 833 given in combination with paclitaxel. Groups of 3 to 6 patients receive continuous-infusion paclitaxel for 5 days and oral PSC 833 for 6-7 days, following paclitaxel on the first course, then beginning 3 days prior to paclitaxel on subsequent courses. Stable and responding patients are re-treated every 21 days, with paclitaxel dose adjusted to maintain an absolute neutrophil count less than 500 for no more than 4 days.
Patients who have no response to preoperative chemotherapy and no residual disease following surgery on Regimen A are treated on Regimen B postoperatively. The following acronyms are used: DDD Mitotane, NSC-38721 DOX Doxorubicin, NSC-123127 VCR Vincristine, NSC-67574 VP-16 Etoposide, NSC-141540 Regimen A: 4-Drug Combination Chemotherapy followed by Surgery followed by 4-Drug Combination Chemotherapy. DDD/DOX/VCR/VP-16; followed by surgical debulking; followed by DDD/DOX/VCR/VP-16. Regimen B: Single-Agent Chemotherapy. DDD.
The clinical study entitled "A Phase I Study of Infusional Chemotherapy with the P-glycoprotein Antagonist PSC 833" seeks to determine the maximum tolerated dose for a proposed P-glycoprotein antagonist, PSC 833. PSC 833 is a cyclosporine analogue which is purportedly non-nephrotoxic and non-immunosuppressive. It has been shown in in-vitro studies to enhance chemosensitivity as well as cyclosporine and to be far better at increasing intracellular drug accumulation than the concentrations of verapamil which are clinically achievable. The purpose of this study is to define the maximum tolerated dose in combination with vinblastine, and to determine how the drug affects the pharmacokinetics of vinblastine. PSC 833 will most likely reduce the clearance of vinblastine, as reported for the parent compound, cyclosporine. This effect will increase the area under the curve (AUC) of vinblastine, may increase toxicity, and requires that the escalation scheme for PSC 833 be a conservative one. Initially, a 120 hour infusion of vinblastine will be given alone. Then 8 days of PSC 833 will follow to allow monitoring of adverse effects of PSC 833 alone. This first cycle of vinblastine will be given in the absence of PSC 833; in second and subsequent cycles both agents will be combined. Escalation of the PSC 833 will continue until a target concentration is reached, or until the maximum tolerated dose is reached. Clinical responses will be monitored in order to provide the best possible medical care to our patients.