View clinical trials related to Congenital Abnormalities.
Filter by:This is a First-in-Human (FIH), 2-part, Phase 1/2, open-label, multicenter study design to evaluate the safety, tolerability, PK, pharmacodynamics, PGx, and efficacy of TAS0728. This study consists of Phase 1 and Phase 2 components in subjects with advanced solid tumors with HER2 or HER3 overexpression, amplification, or mutation who have progressed despite standard therapy or for which no standard therapy exists, particularly urothelial cancer, biliary tract cancer, metastatic breast cancer, non-small cell lung cancer and colorectal cancer.
The primary objective of this study is to assess the efficacy and safety of PHIL® liquid embolic agent in endovascular embolization of cerebral arteriovenous malformations.
The impact of treatment for GSM on the quality of life will be examined for postmenopausal women (defined as last menstrual period > 1 year ago or 6 months ago with FSH >40) who have been diagnosed with breast cancer.
This research will lead to the first evaluation of intrinsic and dynamic joint and muscle mechanics of equinus in cerebral palsy. It would provide a direct cause and effect relationship between equinus and bone deformity. Mechanical insights to the pathophysiology of the targeted muscles will lead to better understanding and, thus, to a better medical and surgical management of equinus deformity. Secondary aim will provide an important insight whether key gait parameters can be exclusively relied upon for surgical treatment planning and evaluation. In a medium-term perspective, depending upon the results of this study, dynamic MRI of the ankle joint may serve as a guiding tool for fixed equinus surgery in case of cerebral palsy.
Capillary Malformations (CM) affect a significant proportion of otherwise healthy children and may lead to psychological discomfort if left untreated. A significant proportion of untreated lesions undergo soft tissue thickening and darker discoloration later in life due to progressive ectasia of the affected vessels. While laser treatment is available, its use may be limited due to need for repeated sedation/general anesthetic use, partial response and cost. The investigators propose to conduct an open-label, prospective, cohort study using Onreltea ( Brimonidine) gel for treatment of facial capillary malformations in children. The study medication will be applied topically on affected area of the skin daily for 12 weeks. Follow up visits will occur at at Week 1,4,8,12, and 16 to assess the efficacy and safety of the proposed treatment. The study second aim is to explore the feasibility of conducting a multicenter placebo controlled study.
Cardiopulmonary bypass and arrest of the heart during cardiac surgery are necessary to allow the surgeon to perform heart operations. However, these processes can cause injury to the heart which may worsen post-operative outcomes. In fact, the effects of these injuries may continue after surgery, and lead to a long-term decrease in heart function. Neonates and young infants are at particular risk for this occurrence. While much research has been done in adults looking for medicines that might protect the heart during surgery, few studies have been conducted in neonates and young infants. The investigators are testing Dexrazoxane, which has proven to be cardio-protective in pediatric cancer patients, in the hope that it may lessen cardiac injury during and after congenital heart surgery, and thereby improve outcomes in the neonatal and young infant population. In order to accomplish this, the investigators must first determine how Dexrazoxane can be safely administered to young children with congenital heart disease. Therefore, the investigators are performing a pilot study of 12 children to assess: 1. how Dexrazoxane at 3 different doses is metabolized in the body of a child age 0-6 months during and after congenital heart surgery, and 2. the safety of Dexrazoxane use in the neonatal and young infant population undergoing cardiac surgery.
Prospective, non-randomized, multicenter post-approval study to collect long term clinical and echographic data on Mitroflow DL patients.
To establish an observational registry for systematic collection of clinical data from Renaissance-guided spine surgeries.
Adolescent idiopathic scoliosis (AIS) is a common disorder of unknown etiology in which the vertebrae and discs gradually develop a curvature that is first detected in patients between 11 and 20 years of age. The deformity is 3-dimensional, with a coronal curve measured from radiographs by the Cobb angle . The Cobb angle measurement of scoliosis represents the sum of the angular wedging of each vertebra and disc between the superior and inferior end vertebrae . Although a small curve is well tolerated and does not require treatment, a large curve can progress to the point that it is cosmetically unacceptable, interferes with chest wall mechanics, and produces cardiac and pulmonary compromises. The natural history of AIS apparently includes 2 stages: the initiation of the curve and its subsequent progression. The factors responsible for the initiation of the curve are unknown, but the subsequent progression of the curve is clearly associated with the adolescent growth spurt . The primary risk factors for progression include age at onset and the magnitude of the curve; young patients with large curves are at the highest risk . Although numerous treatment methods have been recommended for patients with AIS, the only accepted treatment includes bracing for skeletally immature patients with curves between 25 and 40 degrees and operative correction with spinal fusion for patients with curves greater than 45 degrees. For many teenagers, the cosmetic and social concerns associated with bracing has caused compliance problems with wearing the brace and many patients only wear the brace at home . While operative intervention completely corrects the scoliosis or rib hump, it eliminates segmental spinal motion, and concentrates stresses at the ends of the fusion potentially leading to disc degeneration and back pain. Despite satisfactory short-term results of operative instrumentation and fusion, a less invasive technique preserving more motion with a smaller scar represents a major improvement. Realizing this goal is contingent on treating curves early, before they progress to an irreversible deformity, and when there is still enough residual growth and remodeling potential. ApiFix Ltd has developed a novel implant for less invasive treatment of AIS. The MID-C system is designed to correct the deformity step by step along a period of time, giving the skeletal and soft tissues time to accommodate any incremental correction. The MID-C System inherent benefits are: - Only two screws are used - Incision size is much smaller - Simpler operation with shorter operative time - Less complications (attributed to the three points above). - Minimal spinal mobility loss. All the device components are made of materials well accepted in the orthopedic field and are fully biocompatible (see Investigator Brochure). The unique concept of the system and the materials used may provide favorable results as follows: Smaller scare, quicker healing period and better spine mobility over the years. This study is designed to demonstrate that the MID-C System is safe and effective.
This postmarket surveillance study is being conducted to evaluate the TRANSITION Stabilization System as an adjunct to fusion in the treatment of acute or chronic instabilities or deformities of the thoracic, lumbar and sacral spine. The study will involve up to 360 subjects at no more than 20 sites, to be treated with the TRANSITION Stabilization System. The data from this postmarket surveillance study will be provided to FDA in accordance with the 522 order.