View clinical trials related to Vascular Malformations.
Filter by:In some cases the standard J-tip guidewire cannot deliver the catheter into the aortic root, because of arterial loops or spasm. In these cases a hydrophilic guidewire (Terumo) gives the right lubricity and good shape retention to guide the catheter through the artery. However, the Terumo wire does not give much torque and could therefore easily penetrate side branches and cause dissection or perforation. The latest Silverway guidewire has some new advantages which is easier to guide and could cause less complications while faster delivery of catheters to the aortic valve. The investigators aim to compare both guide wires.
Laser treatment (LT) is the first-line treatment for Vascular Pathology. However even when LT is based on the selective photothermolysis it causes the first-degree burns. While being typically benign by affecting only the epidermis, or outer layer of skin, the burn site is remaining red, dry, and very painful. As Haemoblock contains nanoparticles of silver and is known for both bactericidal and bacteriostatic effects, it likely decreases the potential for infection postoperatively. Furthermore, after fibrin replaces the superficial structure "Hemoblock-albumin", the polyacrylate matrix is plasmolyzed which initiates the cascade of signals required for the tissue regeneration processes. Objective of the study was to examine the effect of the Regenerative Solution "Hemoblock" in lowering postoperative complications in children diagnosed with Vascular Pathology undergoing a laser surgery if delivered with transdermal patches.
The purpose of this research is to gather information on the safety and effectiveness of core biopsy of vascular anomalies for clinical pathology and clinical genomics studies.
Diseases with vascular malformations are rare and often congenital, affecting patients of all ages. Depending on their extent and localization, they can cause discomfort and, especially if activity is restricted, lead to loss or reduced quality of life. The therapy is usually reserved for a few specialized centers and includes interventional sclerotherapy as well as conservative therapy by compression with appropriate compression stockings. However, there are currently no study-based recommendations for this approach. The aim of this study is to prove a therapeutic effect of compression therapy using flat-knitted compression stockings on venous malformations of the extremities and to derive from this a therapy recommendation in connection with an improvement in the health status and quality of life. For this purpose, patients with a confirmed venous malformation of the upper or lower extremity independent of previous therapy will be included. We will investigate patients with epi- and/or subfascial localization of the venous malformation independent of the local extent (cross-articular or not).
To evaluate the safety and efficacy of Sirolimus in complicated vascular anomalies in Chinese children
A Prospective, Randomized, Controlled, Single Blinded, Study to Evaluate the Safety and Effectiveness of Bioseal as an Adjunct to Sutured Dural Repair
Treatment of vascular malformations requires the placement of a needle within anatomically non well defined, pathological vessels, which may be as small as 1 mm, with the current state of the art relying exclusively on two dimensional fluoroscopy images for guidance. The investigators hypothesize that the combination of stereotactic image guidance with existing targeting methods will result in faster and more reproducible needle placements.
Gastrointestinal vascular malformation (GIVM), which is an important cause of acute or chronic gastrointestinal bleeding, currently lacks of effective treatment. The investigators' previous study first confirmed thalidomide treatment of GIVM bleeding was safe and effective. This prospective multi-center randomized controlled clinical trial intends to investigate the efficacy of thalidomide to the recurrent small intestinal hemorrhage due to GIVM.
The goal of this study is to determine whether or not patients with overgrowth syndromes have decreased bone density.
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.