View clinical trials related to Hypertrophy.
Filter by:Pathological-anatomical changes in the nasal cavity (nasal septum/perforation, mucosal hypertrophy) negatively affect nasal airflow, increase resistance - cause nasal obstruction and are often an indication for surgery. The aim of the study is to examine nasal airflow parameters after septoplasty and turbinoplasty .
This study is being performed to understand the effect of different doses of CK-3773274 on patients with hypertrophic cardiomyopathy (HCM).
The present project aims to investigate the effects of high-quality protein (whey protein) vs. low-quality protein (collagen) on muscle mass and function (e.g., strength and power) during a 10-wk resistance training program in young adults. It will be tested the hypothesis that leucine-matched collagen should promote similar gains on muscle function and mass compared to whey protein supplementation.
This study aimed to detect tongue edema induced by the pressure exerted by tonsillar retractor; edema detection was made through tongue area measurement using ultrasonography (USG) in pediatric patients who underwent tonsillectomy surgeries.
Evaluation the Neurocognitive Functions Among Children With Enlargement Adenoid and Tonsils, Before and After Tonsillectomy or Adenotonsillectomy
Right ventricular (RV) physiological remodeling in response to prolonged strength exercise remains poorly studied. This prospective, non-randomized, single-center study, proposes to follow 24 healthy sedentary volunteers who will benefit from a high-intensity pure resistance training program over a 6-month period. The volunteers, aged between 18 and 40 years old and male, will be recruited and evaluated at the University Hospital center of Caen Normandy. Cardiac remodeling in response to physical exercise will be analyzed by trans-thoracic echocardiography repeated during the follow-up. The physical impact of the training program will be assessed by a treadmill exercise test predicting maximal oxygen consumption (VO2max) before and after completing the training, and an isokinetic muscular test repeated every 3 months. Participants rest/activity cycles will be monitor before and after 3 months of training. The aim of the study is to demonstrate the existence of a physiologic RV remodeling in response to pure high-load resistance chronic exercise. The results will help to improve the understanding of the physiological RV response expected in strength athletes.
A Phase II prospective, randomized, double-blind, placebo controlled and comparative clinical study evaluating hydrogel scar-management modalities for effective management of hyperproliferative scars and keloids. This is a double-blinded study, which means that neither the evaluating physician nor the subject will know which treatment is administered. Group selection and assignment will be made at random, with a 2 in 5 chance of receiving a market-approved therapy, and 1 in 5 chance of receiving the placebo. Subjects assigned the placebo-moisturizer will receive a standard hypoallergenic dermatological hydrating cream base. Subjects assigned the silicone gel, will receive a commercially available, active comparator.
The purpose of this study is to determine if LCZ696 is safe, tolerable and can improve exercise capacity (via improved peak VO2) in non-obstructive HCM patient population over the course of 50 weeks of treatment.
Hypertrophic Cardiomyopathy (HCM) is an inherited heart condition. Most people who have it are unaware of any problems relating to it. Unfortunately, a small number of people with the condition can suddenly develop a dangerous fast heart beat that can lead to death. There is no cure, but implanting a cardioverter-defibrillator (ICD), which is like a pacemaker can save the life of affected individuals. However, ICD implantation has its own problems, so choosing who gets an ICD is a very important decision. The current approach for recommending people for an ICD has limitations and a better method is needed. Investigators have developed a new technique called the 'Ventricular Conduction Stability' (V-CoS). This involves wearing a special vest which records electrical signals from the heart, and then running on a treadmill. Investigators have used it to identify abnormalities in the hearts of people with (HCM) who have also survived a life-threatening event. This project aims to test new tool against current methods to ascertain which is better at identifying patients who should have an ICD.
Hypertrophic cardiomyopathy (HCM) is a common disease of the heart which causes thickening of the heart muscle. HCM primarily affects the muscle of the main pumping chamber of the heart (the left ventricle) and particularly the septum (this is the muscular wall which separates the right and left side of the heart). In a subgroup of patients, the thickened heart muscle at the septum prevents blood from leaving the heart during contraction (this is called obstruction). This form of the disease is called hypertrophic obstructive cardiomyopathy (HOCM). HOCM is a common cause of shortness of breath, chest pain and dizzy spells. These symptoms are treated with tablets and if symptoms are uncontrolled, patients are often offered invasive treatment to get rid of some of the thick heart muscle and reduce obstruction. This is achieved either by: 1. open heart surgery (myectomy) where a surgeon cuts out the thick muscle 2. injection of alcohol to the thick heart muscle via a tube in the wrist or groin (alcohol septal ablation). The alcohol thins the heart muscle at the point of obstruction, mimicking the effects of myectomy. Unfortunately, some patients are not suitable for both these procedures. This study will test whether radiotherapy, usually used for the treatment of tumours, can be used to destroy the thick heart muscle at the point of obstruction safely and effectively. Study patients will be monitored following the procedure and the investigators plan to measure the levels of heart muscle thinning, reduction of obstruction and improvement in symptoms and importantly document any side effects. Radiotherapy works by precisely targeting high energy X-rays (ionising radiation) at a specific area of the body with the aim of destroying abnormal tissue. CyberKnife is one of the latest radiotherapy delivery systems, which will deliver highly focussed and accurate radiotherapy.