Active clinical trials for "Congenital Abnormalities"

The purpose of this study was to determine the pattern of congenital anomalies associated with maternal diabetes mellitus in newborns attending Assiut University children's Hospital.

The purpose of this study is to investigate the additional effects of Short Foot Exercises on pain, biomechanical characteristics and functionality of lower extremity in patients with patellofemoral pain.

Bevacizumab Therapy for brain arteriovenous malformation that is not amenable to surgical intervention.

Cerebral cavernous malformations (CCMs) are clusters of abnormal blood vessels in the brain and spine. CCMs can bleed and cause strokes, seizures, and headaches. In some patients, CCMs affect the blood brain barrier (BBB). The BBB is the body's separation of blood and its contents in the brain from the brain tissue itself. Abnormal leakiness or permeability of this barrier can cause disease. We will measure the permeability (leakiness) of the BBB using a magnetic resonance imaging (MRI) technique called dynamic contrast-enhanced MRI (DCEMRI). The purpose of this study is to look at whether statin medications change the permeability (leakiness) of the blood brain barrier in CCM patients. Statin medications are used to lower cholesterol levels and prevent heart attack and stroke. In addition, this medication may decrease the risk of brain hemorrhage or bleeding in patients with CCM. This study will examine whether the permeability of the BBB changes following the administration of simvastatin for three months.

To purpose of this feasibility study is to demonstrate the safety and efficacy of the Nucleus 24 Multichannel Auditory Brainstem Implant (ABI, Cochlear Corp, Sydney, AUS) in children without the diagnosis of neurofibromatosis type II (NFII) that have either experienced failed cochlear implantation (CI) or have been unable to receive a CI secondary to cochlear or cochlear nerve disorders. These conditions can include: developmental or acquired cochlear nerve deficiency (CND), cochlear aplasia (Michel), post-meningitic cochlear ossification or cochlear malformation. This study proposes to implant up to 10 young children (<5 yrs. of age) with the Nucleus 24 Multichannel ABI (Sydney, AUS) in an attempt to demonstrate safety of the surgical procedure, tolerance of device stimulation, and the potential for auditory benefit beyond that experienced with their CI. This study will provide the preliminary experience for a larger scale clinical trial. Aim 1: Demonstrate the safety of ABI surgery in children. Aim 2: Demonstrate the development of sound awareness and improved speech understanding among children implanted with the ABI when compared to their baseline skills. Aim 3: Demonstrate the development of oral language skills following the use of the ABI that were not evident prior to its use.

The most recent classification, adopted by International Society for the Study of Vascular Anomalies (ISSVA) in 1996, and updated in Melbourne in 2014, divides these lesions into two broad categories: vascular tumors and vascular malformations. Vascular malformations (VMs) are subdivided into high-flow VM and slow-flow VM. Slow-flow VMs consist of congenital anomalies which may involve abnormal capillaries vessels, venous vessels, lymphatic vessels or combination of several of them. They can be superficial (involving cutaneous and subcutaneous tissues) and/or may have visceral involvement. They can be limited or diffuse, and are sometimes components of genetic hypertrophic syndromes. The diagnosis of slow-flow VMs is performed on physical examination (biopsy may be required for confirmation), and is completed with imaging (ultrasonography and magnetic resonance imaging (MRI)). Slow-flow VMs may be particularly voluminous; associated with underlying hypertrophy responsible for functional impairment; painful; associated with seepage or continuous cutaneous bleeding; complicated with visceral signs or hematologic disturbances (anemia, thrombopenia). Management requires dedicated multispecialty care. There are no guidelines for treatment, and management may include no intervention - but natural history of these VMs is progressive worsening -, compression by physical bandage, sclerotherapy, resection (when feasible),anti-inflammatory or anti-coagulation drugs. Case reports and series have provided evidence for supporting the need for a clinical trial of sirolimus by reporting successful treatment on several children with complicated vascular anomalies. The choice of sirolimus is rational. Mammalian target of rapamycin (mTOR) is a serine/threonine kinase regulated by phosphoinositide-3-kinase involved in cell mobility, cell growth and angiogenesis. Sirolimus inhibits mTOR, which induces inhibition of angiogenesis, in particular lymphangiogenesis, which has been demonstrated in several models.

Face transplantation surgery is the transfer of face tissue from a deceased human donor to a patient with a severe facial deformity. Face transplantation is an innovative reconstructive procedure that has the potential to significantly improve the lives of patients with severe facial injuries. The purpose of this study is to develop the best practices for facial transplantation that will improve the outcomes of future face transplant recipients.

There is an unsatisfied medical need for a first-line treatment of lymphatic malformations with a good benefit/risk profile. Based on a patient experience in the institution, the investigators plan to verify whether or not the medication sildenafil has a beneficial effect on lymphatic malformations. The investigators plan to do this by treating patients with lymphatic malformations with the medication sildenafil for a 20 week period. This is an investigator initiated study funded by an Innovations in Patient Care grant and a SPARK grant.

The purpose of this study is to determine the safety and efficacy of citrate to provide anticoagulation of an ECMO circuit without patient anticoagulation. The standard method of providing ECMO circuit anticoagulation is the use of heparin which also anticoagulates the patient and increases the risk of patient bleeding.

The study looks at a new treatment for wrist and finger contractures -- a condition where the affected hand is in a "closed" position, with the wrist and fingers stiff and difficult to move from that position. We want to study if stimulation of wrist and finger muscles using an implanted neuromuscular stimulator (BION) will be more or less effective than doing passive exercises of the affected hand to improve the range of movement at wrist and finger joints. Subjects of this study will be randomized into one of three groups: one doing passive movement therapy; one receiving surface stimulation (electrical stimulation with electrodes on the skin of the arm) and one doing BION® therapy. The passive movement group will do therapy for 12 weeks. Subjects in either stimulation group will receive stimulation for 6 weeks and then only passive therapy for 6 weeks.