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Filter by:This phase III trial tests whether vaginal fractional CO2 laser therapy works in treating vaginal dryness in breast cancer survivors. Vaginal dryness can be commonly experienced with normal aging, with menopause, or come about from medications used to treat breast cancer such as chemotherapy or endocrine therapies like tamoxifen or aromatase inhibitors. Vaginal fractional CO2 laser therapy may help reduce vaginal dryness.
This is a Phase 3, multicenter, randomized and double-blind study assessing the interchangeability between TRS003 and China-approved Bevacizumab® (also called China-approved Avastin) for first-line treatment of patients with metastatic Colorectal Cancer (CRC), approximately 126 patients will be enrolled in this study. Patients who sign the informed consent, meet the eligibility criteria and are confirmed as non-progressors after lead-in treatment period with Bevacizumab® in combination with modified FOLFOX6 chemotherapy for 6 cycles, will be randomized (1:1) to either the non-switching arm and receive Bevacizumab® + modified FOLFOX6 for all subsequent cycles or to the switching arm and receive TRS003 alternating with Bevacizumab® in combination with mFOLFOX6 until disease progression or intolerability.
- It is to evaluate the safety and effectiveness of a lasertinib(LECLAZA) single drug in a actual medical environment for patients 1. Primary Purpose: Progression-free survival (PFS) 2. Secondary Purpose: - Objective response rate - Time to treatment failure - Adverse event (AE), serious adverse event (SAE), and adverse event of special interest (AESI) - Severity of (S)AE - duration of response (DoR) - Overall survival (OS) - Intravenous Progressive Survival Period (Intracranial PFS) - Relative dose intensity - Research Design : a Multi-Center Prospective and Restrospective Cohort Study
Stroke-associated pneumonia (SAP) is one of the important risk factors influencing poor outcomes and death in stroke patients. Over the past two decades, accumulating evidence suggests that post-stroke brain injury mobilizes the adrenergic system, which induces post-stroke immunosuppression and SAP. This study is designed to test the safety and efficacy of an adrenergic β-receptor blocker, propranolol, with or without combination of antibiotics, in reducing SAP in stroke patients. The underlying immune mechanisms will be investigated.
ARDS caused by pneumonia is one of the main reasons for ICU admission in critically ill patients, and also a common complication in patients admitted to ICU with invasive mechanical ventilation. Bronchoalveolar lavage (BAL) is the main diagnostic method for these patients, which often leads to alveolar collapse and exacerbates hypoxemia. In clinical practice, recruitment maneuver (RM) is often used immediately after BAL to prevent such a situation, but there is a lack of data on RM after BAL.
The purpose of the study is to study the outcomes of maternal and fetal patients who are undergoing fetal intervention for severe isolated lower urinary tract obstruction (LUTO) at University of Miami/Jackson Health System.
The aim of the study is to investigate the efficacy and safety of LiST retreatment for CP/CPPS patients.A total of 50 patients with CP/CPPS diagnosis who were previously treated with 6 sessions of LiST will participate in this study.The primary study parameter is the CP/CPPS-related pain complaints and it will be assessed by the NIH-CPSI
This is a Phase 1, multi-center, dose escalation study that is followed by a Phase 2 randomized, double-blind, placebo-controlled study of the safety and efficacy of WP1122 administered q12h ±1 hr PO in adult patients with COVID-19 who require hospitalization with respiratory support. The Phase 1 component will enroll COVID-19 positive patients who are symptomatic and the Phase 2 component will enroll adults with COVID-19 who require hospitalization for respiratory support and those patients requiring intubation with mechanical ventilation.
Many patients with Postural Orthostatic Tachycardia Syndrome (POTS) experience debilitating fatigue and this significantly impacts their daily lives. Unfortunately, there are no treatments to help POTS patients with their fatigue. One medication, called low dose naltrexone (LDN), has been tested as a treatment for fatigue in other medical conditions. In this other research, LDN helped patients feel less fatigue. Other research studies have shown that LDN can help reduce markers of inflammation called cytokines. Reducing these cytokines could help reduce symptoms as well. There have been no research studies testing LDN in POTS to date. We are planning to do a research study to test LDN as a treatment to see if it helps POTS patients feel less fatigue.
Mechanical ventilation (MV) is a life-saving supportive therapy and one of the most common interventions implemented in intensive care. To date, only the inspiratory phase of breathing has been extensively investigated, and new MV methods have been implemented to reduce its harmful effects. Despite this, lung injury still occurs and propagates, causing multiorgan failure and patient deaths. The expiratory phase is considered unharmful and is not monitored or assisted during MV. In animal experiments, we recently showed that the loss of diaphragmatic contraction during expiration can harm the lungs during MV. During mechanical ventilation, the expiratory phase of breathing is completely disregarded. However, in all conditions that promote lung collapse, peripheral airways gradually compress and close throughout the expiration, potentially worsening lung injury. This cyclical lung collapse and consequent air-trapping may have an impact on the Starling resistor mechanisms that regulate venous return from the brain, potentially affecting cerebral perfusion and intracranial pressure. This study will investigate the incidence and the consequences of an uncontrolled expiration and expiratory lung collapse in spontaneously breathing critically ill neurosurgical patients during mechanical ventilation. Electrical impedance tomography measurements , oesophagus and gastric pressure, electrical activity of the diaphragm and intracranial pressure will be acquired in a synchronised manner during controlled mechanical ventilation, on a daily bases during assisted mechanical ventilation.