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NCT07206225
The purpose of this study is to learn how a new medicine called PF-08052667 works when used by itself or together with another medicine called Bacillus Calmette Guerin (BCG), and/or a medicine called sasanlimab. This study is for adults who have a type of bladder cancer that hasn't spread into the muscle layer of the bladder but is more likely to come back or grow. It includes people whose cancer has come back or hasn't gone away after receiving standard treatments like BCG. It may also include people who, based on their doctor's opinion, cannot receive standard treatments or those treatments are not available to them. The study has three parts: * Part 1 (monotherapy dose escalation) will test PF-08052667 as a single-agent at increasing dose levels in participants with certain bladder cancer whose disease has worsened on or after standard treatments. * Part 2 (combination dose escalation) will test PF-08052667 in combination with BCG and/or sasanlimab (fixed dose) in participants with certain bladder cancer whose disease has worsened on or after standard treatments. * Part 3 (dose optimization and expansion) will further test PF-08052667 as a single agent or in combination with BCG and/or sasanlimab, at the dose(s) based on findings from Part 1 and Part 2 in participants with certain bladder cancer including those who has never received standard treatments. All participants will receive the study drug PF-08052667. Only participants in Part 2 and Part 3 of the study will also receive BCG and/or sasanlimab. PF-08052667 will be given as an intravesical infusion, which means it will be injected directly into the bladder. Sasanlimab will be given as a subcutaneous injection, which means it will be injected under the skin. For all parts, treatment with study medicines will continue until either a participant has decided to stop taking part in the study or is asked to leave the study for various reasons or up to about 2 years, whichever occurs first. Duration of trial participation for each participant will vary as long-term follow-up will continue after treatment discontinuation until loss to-follow-up or death, or until the study is stopped by the sponsor.
NCT04368559
The purpose of this pivotal study is to determine if intravenous Rezafungin is efficacious and safe in the prevention of invasive fungal diseases when compared to the standard antimicrobial regimen.
NCT06510374
A phase 3b, Randomized, Controlled Trial of Nadofaragene Firadenovec vs. Observation in Participants with Intermediate Risk Non-Muscle Invasive Bladder Cancer (IR NMIBC)
NCT05987241
This phase II/III trial examines whether patients who have undergone surgical removal of bladder, kidney, ureter or urethra, but require an additional treatment called immunotherapy to help prevent their urinary tract (urothelial) cancer from coming back, can be identified by a blood test. Many types of tumors tend to lose cells or release different types of cellular products including their DNA which is referred to as circulating tumor DNA (ctDNA) into the bloodstream before changes can be seen on scans. Health care providers can measure the level of ctDNA in blood or other bodily fluids to determine which patients are at higher risk for disease progression or relapse. In this study, a blood test is used to measure ctDNA and see if there is still cancer somewhere in the body after surgery and if giving a treatment will help eliminate the cancer. Immunotherapy with monoclonal antibodies, such as nivolumab and relatlimab, can help the body's immune system to attack the cancer, and can interfere with the ability of tumor cells to grow and spread. This trial may help doctors determine if ctDNA measurement in blood can better identify patients that need additional treatment, if treatment with nivolumab prolongs patients' life and whether the additional immunotherapy treatment with relatlimab extends time without disease progression or prolongs life of urothelial cancer patients who have undergone surgical removal of their bladder, kidney, ureter or urethra.
NCT05421858
The purpose of this clinical trial is to learn about the safety and effects of the study medicine (called Fosmanogepix) for the potential treatment of candidemia and/or invasive candidiasis, a life-threatening fungal infection caused by several species of yeast called Candida. The study is seeking patients who have a diagnosis of candidemia and/or invasive candidiasis. Two-thirds of all patients will receive the study medication fosmanogepix Intravenous (IV) infusion followed by optional fosmanogepix tablets. One-third of all patients will receive a standard of care regimen of caspofungin Intravenous (IV) infusion followed by optional fluconazole capsules. Fosmanogepix or caspofungin will first be given as an Intravenous (IV) infusion directly into a vein in the arm each day at the study clinic. Fosmanogepix tablets or fluconazole capsules will be taken orally by mouth daily either at the study clinic, or at home if patients are well enough to be discharged from the hospital. The treatment effect in patients receiving fosmanogepix to those receiving caspofungin/ fluconazole will be compared. The primary aim is to show that fosmanogepix is not inferior (not worse) to caspofungin/ fluconazole with a noninferiority margin of 15%. The duration of study treatment and number of study visits will vary depending on how long the patient will be treated for the infection. Treatment will continue for a maximum of 6 weeks depending on when the infection is cleared and whether other symptoms related to the infection have improved. There will also be a follow-up visit 6 weeks after the study treatment was stopped.
NCT01386385
This phase I/II partially randomized trial studies the side effects and best dose of veliparib when given together with radiation therapy, carboplatin, and paclitaxel and to see how well it works in treating patients with stage III non-small cell lung cancer that cannot be removed by surgery. Veliparib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Radiation therapy uses high energy x-rays to kill tumor cells and shrink tumors. Drugs used in chemotherapy, such as carboplatin and paclitaxel, work in different ways to stop the growth of tumor cells either by killing the cells, by stopping them from dividing, or by stopping them from spreading. It is not yet known whether radiation therapy, carboplatin, and paclitaxel are more effective with or without veliparib in treating non-small cell lung cancer.
NCT07061964
This phase II trial tests the effect of giving pembrolizumab in combination with radiation therapy after chemotherapy in preventing surgery to remove the bladder in patients with muscle invasive bladder cancer. Standard of care therapy includes chemotherapy before surgery (neoadjuvant) to shrink or get rid of the tumor. Immunotherapy with monoclonal antibodies, such as pembrolizumab, may help the body's immune system attack the tumor, and may interfere with the ability of tumor cells to grow and spread. Radiation therapy uses high energy x-rays, particles, or radioactive seeds to kill cancer cells and shrink tumors. Photon beam radiation therapy is a type of radiation therapy that uses x-rays or gamma rays that come from a special machine called a linear accelerator. The radiation dose is delivered at the surface of the body and goes into the tumor and through the body. Giving pembrolizumab in combination with radiation therapy after neoadjuvant chemotherapy may help prevent surgical removal of the bladder in patients with muscle invasive bladder cancer.
NCT07474064
The goal of this clinical trial is to learn if oral probiotics (Clostridium butyricum) work to improve the efficacy of targeted therapy plus immunotherapy in bladder preservation setting for cisplatin-ineligible T2-3N0M0 bladder cancer patients with low serum butyrate. The main questions it aims to answer are: Do oral probiotics elevate serum butyrate levels and enhance the duation of bladder preservation interval with targeted therapy plus immunotherapy? Researchers will compare oral probiotics combined with targeted therapy plus immunotherapy to standard regimens (targeted therapy plus immunotherapy) to see if oral probiotics can improve its efficacy. Participants will: 1. Take oral probiotics and/or Disitamab Vedotin (HER2-ADC) and Toripalimab (PD-L1 inhibitor) for one year in total, which is divided into induction treatment period, intensive treatment period and maintenance treatment period. 2. Return to the hospital for evaluation of tumor residual burden according to the follow-up plan, which will include urine cytology, imaging, surgical biopsy, and urine DNA methylation detection.
NCT04452591
This is a Phase 3, open-label, single arm trial designed to evaluate Cretostimogene patients with NMIBC who have failed prior BCG therapy. Up to approximately 115 CIS bladder cancer patients with or without HG Ta or HG T1 papillary disease will be enrolled under the original protocol through Amendment 4, which will comprise Cohort C. Cohort C is closed to enrollment. Under Amendment 5-1, Cohort P was added to enroll up to 70 patients with HG Ta/T1 papillary bladder cancer. Under Amendment 6, the target number of patients enrolled in Cohort P was increased to 75. Cohort P is open to enrollment Cohort C and Cohort P will be analyzed and reported separately. Patients will have had to fail prior BCG therapy which is defined as having persistent or recurrent disease within 12 months (Cohort C) or 6 months (Cohort P) following the completion of adequate BCG therapy for HGUC
NCT05316155
The purpose of the study in Part 1 (dose escalation) and in Part 2 (dose expansion) is to determine the recommended Phase 2 dose(s) (RP2D\[s\]) and evaluate preliminary clinical efficacy. Part 3 (dose expansion) will confirm safety and preliminary clinical activity at the RP2D. Part 4 (RP2D expansion; MoonRISe-2) will assess the overall complete response (CR) in participants with intermediate-risk-non-muscle invasive bladder cancer (IR-NMIBC; means the cancer cells are only in the bladder's inner lining).
NCT06982313
Low-dose tamoxifen (5 mg/day for three years, BabyTam) has emerged as a safer and effective alternative to the standard regimen (20 mg/day), reducing breast cancer recurrence with fewer adverse events. The TAM-01 phase III trial demonstrated a 42% reduction in breast cancer events over ten years compared to placebo in women with ductal carcinoma in situ (DCIS) or high-risk lesions (HRL, ADH, LCIS), supporting its inclusion in clinical guidelines. The phase III TAM-01 trial enrolled 500 women, comparing low-dose tamoxifen to placebo over three years, with a median follow-up of 9.7 years (IQR, 8.3-10.9). Results showed a significant reduction in invasive breast cancer (HR = 0.58; 95% CI: 0.35-0.95; p = 0.03) and in contralateral breast cancer, CBC (HR = 0.36; 95% CI: 0.14-0.92; p = 0.025), with no increase in serious adverse events. Exploratory analyses suggested a greater benefit in postmenopausal women (HR = 0.30; 95% CI: 0.11-0.82), compared to premenopausal women (HR = 0.73; 95% CI: 0.30-1.76), though this interaction did not reach statistical significance (p-interaction = 0.13). However, our unpublished data indicate a remarkable reduction of CBC in premenopausal women on BabyTam. The TAM-01 long-term follow-up study aims to extend the follow-up of TAM-01 participants, evaluating long-term outcomes, including incidence of invasive breast cancer and DCIS, with a focus on tumor laterality and menopausal status, as well as to assess other non-invasive events (LCIS, ADH, or ALH) and adverse outcomes of special interest. We will also perform a pooled analysis of our three low-dose tamoxifen studies to increase the statistical power of our findings, with special attention to the effect according to menopausal status and site of recurrence. The primary endpoint will be the breast cancer-free interval. The findings are expected to strengthen the evidence supporting low-dose tamoxifen as a viable prevention strategy in high-risk populations with intraepithelial neoplasia (IEN or DCIS+HRLs) or microinvasive disease.
NCT06809140
Patients with MIBC will receive 3 cycles (C1-C3) of induction enfortumab vedotin plus pembrolizumab followed by restaging including MRI of the bladder, urine cytology, and cystoscopy with TURBT of any visible tumor and/or resection site plus random biopsies using a recommended template. Patients achieving a stringently defined cCR (clinical complete response) will receive 14 cycles of "maintenance" treatment. Enfortumab vedotin will be administered during the first 6 cycles (C4-C9) of "maintenance" treatment and pembrolizumab will be given all 14 cycles (C4-C14). Patients with any residual disease at clinical restaging (i.e., \>cTa disease) will undergo cystectomy.
NCT07423338
Acute respiratory failure is a common, life-threatening condition where the lungs cannot provide enough oxygen to the body. Many patients are treated with non-invasive respiratory support (NRS) such as high-flow nasal oxygen (HFNO), continuous positive airway pressure (CPAP), or bilevel positive airway pressure (BiPAP). However, up to half of patients receiving NRS still deteriorate and require intubation and invasive ventilation, which is linked to longer hospital stays, more complications, and slower recovery. A major challenge in caring for these patients is that clinicians currently cannot directly see how well the breathing muscles (especially the diaphragm and parasternal intercostal muscles) and the lungs are working while the patient is using NRS. Existing bedside measures, such as respiratory rate or oxygen levels, only show part of the picture. They do not indicate how hard the patient is working to breathe or whether their respiratory muscles are becoming fatigued. This lack of information may delay important decisions about adjusting NRS settings or switching to other treatments. This study aims to find out whether two advanced but non-invasive, radiation-free bedside monitoring tools can be used effectively in routine care: 1. Ultrasound, which can measure breathing muscle thickness, movement, and lung aeration 2. Electrical impedance tomography (EIT), which uses a soft belt of small electrodes around the chest to measure changes in air and blood flow within different regions of the lungs in real time These tools have shown promise in earlier research, and interviews with patients and clinicians suggest they are comfortable, well-tolerated, and potentially useful. However, they have not yet been evaluated together in a real-world hospital environment where many acute respiratory failure patients are cared for outside the ICU. What the study will involve: Up to 100 adults with acute respiratory failure requiring any type of non invasive respiratory support will be recruited with the goal of obtaining complete data from at least 50 patients. Each participant will undergo ultrasound and EIT assessments up to seven times during the first 72 hours after starting NRS, plus an additional measurement if they improve enough to stop NRS or if they deteriorate and require intubation. These assessments take place at the bedside, require brief exposure of the upper chest, and last approximately 15-45 minutes. Routine clinical data-such as heart rate, oxygen levels, and breathing measures-will also be recorded. In parallel, clinical staff caring for these patients will complete a short Healthcare System Usability Scale questionnaire to rate how useful, understandable, and practical they find the information generated by ultrasound and EIT. Some staff may also take part in optional interviews to explore usability in more depth. What the study is trying to learn: The primary aim is to determine the usability of these monitoring methods meaning understanding if they are practical, easy to use, and helpful for clinicians making decisions about NRS treatment. Secondary aims include understanding: * how the respiratory muscles and lungs change over time during NRS * whether these changes are linked to treatment settings (e.g., flow rate, pressure support) * whether certain patterns are associated with treatment success or failure (intubation or death) * whether these tools could help identify patients at risk of deterioration earlier Risks and benefits: Both ultrasound and EIT are widely used, safe, and non-invasive. They involve no radiation, needles, or harmful exposure. Minor temporary discomfort from the gel or belt placement is possible. Participation will not change any clinical treatments. Although patients may not directly benefit, the study may help future patients by improving understanding of breathing muscle function and supporting more personalised respiratory care. By contributing to this research, patients and clinicians will help determine whether advanced monitoring can be realistically implemented in busy hospital settings and whether it could lay the groundwork for future trials aimed at improving outcomes for people with acute respiratory failure.
NCT01524276
The purpose of the Registry is to provide continuing evaluation and periodic reporting of safety and effectiveness of Medtronic market-released products. The Registry data is intended to benefit and support interests of patients, hospitals, clinicians, regulatory bodies, payers, and industry by streamlining the clinical surveillance process and facilitating leading edge performance assessment via the least burdensome approach.
NCT07188246
This study will evaluate the immune-priming effects of stereotactic body radiation therapy (SBRT) regimen coupled with two injections of pembrolizumab in high-risk primary breast carcinoma prior to neoadjuvant chemotherapy. Preliminary results from the investigators' local TRIO Trial suggest that SBRT prior to neoadjuvant chemotherapy (NAC) may result in improved response rates due to the combined effect of radiation therapy (RT) and chemotherapy. The investigators aim to augment this effect with the addition of pembrolizumab, a monoclonal antibody that binds to and blocks programmed cell death protein 1 (PD-1).
NCT06878703
Very preterm neonates (born before 32 weeks' gestation) often require invasive mechanical ventilation (IMV) to manage respiratory insufficiency. In France, around 8,250 infants are born annually at \<32 weeks, with an estimated 5,000 needing IMV. Although non-invasive support such as continuous positive airway pressure (CPAP) has become more common, a substantial proportion of these neonates still transition to IMV within the first few days of life. To reduce lung injury and the incidence of bronchopulmonary dysplasia (BPD), a key strategy in neonatal intensive care involves limiting the duration of IMV and promoting earlier extubation. However, effective sedation and analgesia are essential for preterm infants subjected to intubation and mechanical ventilation. Traditionally, neonatologists combine a sedative (frequently midazolam) with an opioid (morphine, fentanyl, or sufentanil). Although these agents control pain and distress, they may cause respiratory depression, complicate weaning, and potentially contribute to adverse long-term outcomes. Midazolam, one of the few sedatives authorized for use in neonates, can improve comfort and sedation scores, but concerns persist about hypotension, altered cerebral perfusion, and a possible link to intraventricular hemorrhage (IVH). Moreover, combining benzodiazepines and opioids can prolong ventilation, increase the risk of complications, and impede timely extubation. Rationale for Dexmedetomidine (DEX) Dexmedetomidine (DEX) is a highly selective α2-adrenergic agonist that offers sedative, anxiolytic, and analgesic properties with relatively minimal respiratory depression. Unlike certain other sedatives, DEX induces a state akin to natural sleep, allowing for easier arousal and potentially better respiratory drive. Animal studies suggest that DEX might be neuroprotective, reducing inflammation, oxidative stress, and apoptotic processes that can be detrimental to the developing brain. These features make DEX a promising alternative to the commonly used benzodiazepine-opioid regimens in very preterm neonates, who remain especially vulnerable to adverse drug effects. Minimizing Invasive Mechanical Ventilation Reducing the time on IMV is crucial for preventing ventilator-induced lung injury and decreasing the likelihood of BPD. Early extubation is a central goal in this population, but sedation-related respiratory depression can thwart successful weaning and lead to reintubation. By preserving spontaneous breathing more effectively than midazolam or high-dose opioids, DEX may help neonates maintain adequate ventilation as they transition to non-invasive support. Furthermore, DEX's analgesic action could reduce the need for opioids, thereby mitigating withdrawal risks and other opioid-related complications such as feeding intolerance and extended hospital stays. Objective of the DEXPRE Trial The objective of the DEXPRE trial is to compare the efficacy of dexmedetomidine-based sedation with that of midazolam-based sedation in very preterm neonates requiring IMV. Specifically, investigators aim to determine whether DEX can facilitate more rapid extubation and better overall respiratory outcomes compared to midazolam. By systematically evaluating sedation quality, respiratory stability, and potential side effects, the trial seeks to generate evidence that will guide future sedation protocols in neonatal intensive care units.
NCT06245603
Prior to performing any study specific procedure (including screening procedures to determine eligibility), a signed consent form will be obtained for each subject. Patients will be enrolled in the study only if they meet all the inclusion criteria and none of the exclusion criteria. Prior to perform any study specific procedure (including screening procedures to determine eligibility), a signed informed consent form will be obtained for each subject. The informed consent form will describe the purpose of the study, the procedures to be followed, and the risk and benefits of participation. The investigator will conduct the informed consent discussion and will check that the subject comprehends the information provided and will answers any questions about the study. Consent will be voluntary and free from coercion. The investigator that will conduct the consent discussion will also sign the informed consent form. A copy of the informed consent form will be given to the subject and the fact that the subject has been consented to the study will be documented in the subject's record. When all the inclusion and exclusion criteria have been addressed and the eligibility of the subject confirmed, the subject may be enrolled in the study. The following activities and/or assessments will be performed during screening, prior the treatment period start: demographic, medications related to the disease or symptoms and cancer history data collection; Urine-colture; randomization; Questionnaires QoL e IPSS. BCG or MMC will be started within 1-2 weeks from randomization (within 12-14 weeks after TURB). BCG or MMC will be administered once a week by intravesical instillation: BCG will be abministered for 6 weeks and MMC for 8 weeks. (induction cycles) Before instillations a physical examination will be performed and symptoms evaluated: changes from baseline and abnormalities will be recorded in patient notes. IPSS questionnaire and QoL questionaire will be administered to the patient at week 1, 4 and 6/8 (6 for BCG and 8 for MMC) of treatment. 48 hours after post BCG or MMC intravesical instillation, patients of Arm A will undergo Hydeal Cyst intravesical instillation. BCG patiens will received 6 Hydeal Cyst intravesical instillation; MMC patiens will received 8 Hydeal Cyst intravesical instillation. After 2 weeks from BCG or MMC instillation end, IPSS e QoL questionaires will be administered and a control urino-colture will be executed. After 6 and 18 weeks from instillation therapy end, a control visit will be made. A physical examination will be performed and symptoms evaluated: changes from baseline and abnormalities will be recorded in patient notes. Control cystoscopy and urino-colture will be executed (as for clinical practice) and IPSS and quality of life evaluated.
NCT07097142
This phase III trial compares the effect of decreased number of radiation (ultra-hypofractionated) treatments to the usual radiation number of treatments (hypofractionation) with standard of care chemotherapy, with cisplatin, gemcitabine or mitomycin and 5-fluorouracil for the treatment of patients with muscle invasive bladder cancer. Hypofractionated radiation therapy delivers higher doses of radiation therapy over a short period of time. Ultra-hypofractionated radiation therapy delivers radiation over an even shorter period of time than hypofractionated radiation therapy. Cisplatin is in a class of medications known as platinum-containing compounds. It works by killing, stopping or slowing the growth of tumor cells. Gemcitabine is a chemotherapy drug that blocks the cells from making DNA and may kill tumor cells. Chemotherapy drugs, such as mitomycin-C and 5-fluorouracil (5-FU), work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Giving ultra-hypofractionated radiation may be equally effective as hypofractionated therapy for patients with muscle invasive bladder cancer.
NCT06733363
This phase II trial is being done to develop and test a healthy eating program to reduce cancer recurrence (cancer that has come back after a period of improvement) and/or progression (cancer that is growing, spreading, or getting worse) in patients with non-muscle invasive bladder cancer (NMIBC). Researchers want to better understand how incorporating more cruciferous vegetables in the diet may reduce the risk of cancer recurrence or progression in men and women who were diagnosed with early-stage bladder cancer and compare whether extending the program can further improve bladder cancer outcomes. POW-R Health is a behavioral dietary intervention designed to modestly increase cruciferous vegetable (cruciferae) intake in patients. Cruciferous vegetables, such as cabbage, kale and broccoli, arugula, contain phytochemicals known as isothiocyanates (ITCs). Dietary ITCs exert potent anticancer activities against bladder cancer and can be rapidly metabolized, delivered to the bladder, and concentrated in the urine. Participating in the healthy eating program may reduce bladder cancer recurrence or progression in NMIBC survivors.
NCT07098611
Liberation from mechanical ventilation involves three steps: weaning, readiness assessment, and extubation. Readiness is determined using clinical criteria such as improvement of the underlying condition, hemodynamic stability, and adequate respiratory effort. Successful extubation is defined as not requiring invasive support within 48 hours. Due to the complexity of ICU patients, various clinical parameters and multi-component scores have been developed to predict extubation success. This study aims to develop and evaluate a multi-component score, the Readiness for EXtubation score (REXs), to predict extubation readiness in ICU patients under invasive mechanical ventilation.