View clinical trials related to Arteriovenous Malformations.
Filter by:Cutaneous Arteriovenous malformations (AVM's) rare congenital high-flow vascular malformations in which arteries and veins are directly connected through a complex web of abnormal arteries and veins instead of a normal capillary network. Arterial feeders and enlarged draining veins directly connect through arteriovenous fistulas that create the "nidus". The natural history of AVMs is organized into a clinical staging system: during the first phase of quiescence, the arteriovenous malformation mimics a capillary malformation. After many years, the AVM may enlarge with loco-regional expansion and tissular destruction. At the ultimate stage, AVM may impact the heart function. They are considered non malignant but can expand and become a significant clinical risk when extensive. The management of these high flow AVM remains often problematic. Complete and large surgical excision of the nidus after hyperselective embolization is the only potential therapeutic solution but this, is often difficult if not impossible. There is no pathogenetic hypothesis for the development of these malformations. Histopathological examination (performed only on surgical resection specimen) is poor and does not provide sufficient evidence to assess the evolutivity or the severity of the MAV. Recent data hypothesize that these vascular malformations are associated with alterations of the vascular endothelium caused by genetic abnormalities involved in the control of angiogenesis and vascular homeostasis. The detection of these anomalies allows the search for cellular and genetic markers that might be useful to optimize the clinical classification, staging, predicting the evolution of these defects and some understanding of its pathophysiological mechanisms. To our knowledge, no studies to identify cellular markers / genetic and endothelial associated with the development of cutaneous AVMs have been published to date.
Little is known about the effect of fMRI navigation in the intracranial arteriovenous malformation surgery. The investigators aim to perform a multicenter prospective randomized single -blind clinical trial to assess the effect and safety of fMRI navigation in the brain arteriovenous malformation surgery.
What happens in the borderzone of a cerebral hemorrhage remains widely onknown and furhter the best timing for doing MR to look for vascular pathology in cerebral hemorrhage has not yet been determined. In this study we do acute MRS, a non-invasive imaging mathod to detemine the biochemsty in the border zone and structural MRI for vascular malformation. We repeat structural MRI after 8 weeks.
To evaluate the efficacy and safety of transcatheter arterial embolization with E7040 in Japanese subjects with hypervascular tumor or arteriovenous malformation
ClarityIQ is a novel X-ray imaging technology, that combines advanced real-time image noise reduction algorithms, with state-of-the-art hardware to reduce patient entrance dose significantly. This is realized by anatomy-specific optimization of the full acquisition chain (grid switch, beam filtering, pulse width, spot size, detector and image processing engine) for every clinical task individually. Furthermore, smaller focal spot sizes and shorter pulses are used, which are known to positively influence image quality . The final effect on the clinical image quality is investigated in this study.
This study will evaluate the local control rate as well as acute and late toxicity rates of stereotactic body radiotherapy (SBRT) for the treatment of spine metastases and benign spine tumors.
The objective of this study is to demonstrate that scalp nerve blocks ("scalp freezing"), performed at the end of supratentorial brain surgery, will reduce post-operative pain, opioids side effects, and the time required for post-anaesthesia care unit (PACU)/Intensive Care Unit (ICU) and hospital discharge.
Test whether AVMs treated with Onyx is equivalent to treatment with n-BCA. Success is defined as an AVM size reduction greater than 50%
Brain vascular malformations, including arteriovenous malformations (AVM), cavernous malformations (CVM) and aneurysms, are a source of life-threatening risk of intracranial hemorrhage. The etiology and pathogenesis are unknown. There is no medical therapy presently available. Prevention of spontaneous intracerebral hemorrhage (ICH) is the primary reason to treat brain vascular malformations. The goal of this study is to: begin pilot studies to lay the groundwork for future clinical trials to develop medical therapy to decrease ICH risk. Matrix metalloproteinases (MMPs) regulate the extracellular matrix in association with various hemorrhagic brain disorders. MMP-9 has been most consistently associated with vascular wall instability and hemorrhagic brain disorders. Doxycycline, a non-specific MMP inhibitor, may enhance vascular stability, thus reducing the risk of spontaneous hemorrhage in brain vascular malformations by decreasing MMP-9 activity.
Pulmonary arteriovenous malformations (PAVMs) are thin-walled abnormal vessels which provide direct capillary-free communications between the pulmonary and systemic circulations. Patients with PAVMs have usually have low blood oxygen levels and are at risk of other complications including strokes, brain abscesses, pregnancy-related complications and haemorrhage. We hypothesise that the complications of PAVM patients arise from their PAVMs and not the more recognised intracardiac forms of shunting. We propose to perform echocardiograms to enable assessment of the presence of other causes of capillary-free communications between the pulmonary and systemic circulations.