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Filter by:Postural tachycardia syndrome (POTS) is the most common chronic cause of postural lightheadedness, and upright confusion afflicting many Americans, mostly young women. Many POTS patients hyperventilate by increasing their depth of breathing that produces tachycardia, alters blood flow and blood pooling in the body and importantly reduces brain blood flow causing "brain fog". In this proposal the investigators will demonstrate in young women that abnormal repeated brief impairment of blood pressure and brain flow just after standing sensitizes the body's oxygen sensor in POTS to respond as if it were in a low oxygen environment causing hyperventilation and its consequences. In this project the investigators will use various drugs that will help to understand the mechanisms that cause POTS in this unique subset of POTS patients who hyperventilate.
The goal of this research study is to test the efficacy of a novel immunosuppressive agent, belumosudil, in allogeneic hematopoietic stem cell transplant (HSCT) recipients who have been newly diagnosed or have developing (early stage) bronchiolitis obliterans syndrome (BOS). The name of the study drugs involved in this study are: - Belumosudil (an immunotherapy) - Fluticasone (an intranasal corticosteroid) - Azithromycin (an antibiotic) - Montelukast (a leukotriene receptor antagonist) - Prednisone (a corticosteroid)
Acute Respiratory Distress Syndrome (ARDS) is often complicated by Right Ventricular Dysfunction (RVD), and the incidence can be as high as 64%. The mechanism includes pulmonary vascular dysfunction and right heart systolic dysfunction. Pulmonary vascular dysfunction includes acute vascular inflammation, pulmonary vascular edema, thrombosis and pulmonary vascular remodeling. Alveolar collapse and over distension can also lead to increased pulmonary vascular resistance, Preventing the development of acute cor pulmonale in patients with acute respiratory distress. ARDS patients with RVD have a worse prognosis and a significantly increased risk of death, which is an independent risk factor for death in ARDS patients. Therefore, implementing a right heart-protective mechanical ventilation strategy may reduce the incidence of RVD. APRV is an inverse mechanical ventilation mode with transient pressure release under continuous positive airway pressure, which can effectively improve oxygenation and reduce ventilator-associated lung injury. However, its effect on right ventricular function is still controversial. Low tidal volume (LTV) is a mechanical ventilation strategy widely used in ARDS patients. Meta-analysis results showed that compared with LTV, APRV improved oxygenation more significantly, reduced the time of mechanical ventilation, and even had a tendency to improve the mortality of ARDS patients However, randomized controlled studies have shown that compared with LTV, APRV improves oxygenation more significantly and also increases the mean airway pressure. Therefore, some scholars speculate that APRV may increase the intrathoracic pressure, pulmonary circulatory resistance, and the risk of right heart dysfunction but this speculation is not supported by clinical research evidence. In addition, APRV may improve right ventricular function by correcting hypoxia and hypercapnia, promoting lung recruitment and reducing pulmonary circulation resistance. Therefore, it is very important to clarify this effect for whether APRV can be safely used and popularized in clinic.we aim to conduct a single-center randomized controlled study to further compare the effects of APRV and LTV on right ventricular function in patients with ARDS, pulmonary circulatory resistance (PVR) right ventricular-pulmonary artery coupling (RV-PA coupling), and pulmonary vascular resistance (PVR).
The investigators hypothesize that the association of I-ONE® therapy with standard rehabilitation treatment can optimize the clinical and functional recovery of patients with pulsed electromagnetic fields (PEMFs) (I-ONE® therapy) of the foot or ankle.
Introduction: About 50% of patients who undergo rectal resection (mostly as a treatment for rectal cancer) suffer from various and partly severe functional problems, despite the preservation of the anal fold. These complaints are summarized as low anterior resection syndrome (LARS). So far, there are no randomized clinical trials that would definitively confirm or deny the hypothesis regarding the most effective treatment for LARS. Objectives: To evaluate whether transanal irrigation improves bowel function and quality of life in patients after rectal resection compared with the best supportive care. Methods and analysis: Patients who have undergone low anterior resection will be approached for this study. During the patient's visit, we will assess their complaints regarding defecation problems, as well as any deterioration in their overall quality of life. To gather this information, we will have the patients fill out questionnaires such as the LARS (Low Anterior Resection Syndrome) and Wexner scale, along with quality of life questionnaires. Questionnaires and scales will be filled out again during the visit every 3 months for 1 year. Discussion: This multicentre, randomized controlled trial will lead to a better understanding of LARS treatment. Moreover, it will be hypothesis generating and inform areas needing future prospective studies.
A total of 93 suitable patients will be randomly allocated into three groups: Group A will receive both low-energy extracorporeal shock wave therapy and a tailored exercise program, Group B will receive only low-energy extracorporeal shock wave therapy, and Group C will receive only the tailored exercise program.
The purpose of this study will be to compare the efficacy of adding hydrocortisone phonophoresis or iontophoresis on pain, function, range of motion and shoulder external rotation isometric strength in patients with subacromial impingement syndrome.
The aim of the present pilot study is to investigate the acceptance, feasibility and implementation of the vagus nerv stimulation in Long COVID patients. Additionally, the effects on parameters of the autonomic nervous system as well as on symptoms of Long COVID will be described in a pre/post comparison. For this purpose, a total of 45 female Long COVID patients will participate in the randomized controlled pilot study. Patients will perform auricular vagus stimulation daily for 12 weeks. The patient collective will be randomized into three groups (A: 10 hertz, B: 25 hertz, C: 2 hertz=control group). If appropriate results are obtained, further adequately powered intervention studies are planned.
This is a placebo-controlled, randomized, double-blind, parallel group, phase 3 multicenter study in subjects recently hospitalized for ACS and with the appropriate genetic profile. Subjects will provide informed consent before any study-specific procedures are performed. A separate informed consent will be allowed for an initial pre-screening genetic testing. Subjects meeting the AA genotype will then consent to the full study and confirmatory genetic testing as required. Subject enrollment may begin in the hospital and will continue following release from the hospital or may begin following release from hospital. Screening procedures may be performed at the time of the index ACS event or anytime thereafter, with the condition that randomization must occur within the mandated window (up to12 weeks after the index event). Subjects will be assessed based on their medical history. Those who are likely to qualify will undergo Genotype Assay testing to evaluate genetic determination for the presence of AA genotype.
Background: Myelodysplastic syndromes (MDS) are diseases that affect the bone marrow. They can inhibit the blood formation process and reduce blood cell counts. High-risk MDS can lead to leukemia. People with high-risk MDS have a low survival rate. Better treatments are needed. Objective: To test a study drug (KPT-8602), combined with another drug (Inqovi), in people with MDS. Eligibility: Adults aged 18 years and older with high-risk MDS that did not respond to treatment. Design: Participants will be screened. They will have a physical exam. They will have blood and urine tests and tests of their heart function. They may have a bone marrow biopsy: Their hip will be numbed; then a needle will be inserted to draw out a sample of soft tissue from inside the bone. They will answer questions about their quality of life. Genetic tests may be performed. KPT-8602 and Inqovi are both tablets taken by mouth. Participants will take these drugs at home on a 28-day cycle. They will take Inqovi once a day on days 1 to 5. They will take KPT-8602 on a schedule assigned by the researcher. Participants will be given a drug diary to record each dose. Participants will visit the clinic for an exam at least once in each cycle. Some tests, including the bone marrow biopsy, may be repeated. Participant will continue treatment for at least 6 cycles. If their disease improves, they may continue taking the drugs after 6 cycles. Participants will have follow-up visits at the clinic for about 8 years.