View clinical trials related to Telangiectasis.
Filter by:The recognized manifestations of HHT are all due to abnormalities of vascular structure. Epistaxis and digestive arteriovenous malformations may be responsible for severe hemorrhages in 5% of HHT patients, requiring repeated blood transfusions and are associated with high morbidity. There is currently no standard and efficient management of this severe symptom. It is also well known that HHT-associated hemorrhages have the greatest negative impact on quality of life among HHT patients, and is responsible for anemia, blood transfusions, hospitalizations, depressive syndrome and a high psycho-social impact. Since 2006, it has been suggested by animal models and then by clinical reports that anti-VEGF therapy may be useful to treat HHT. 4 case reports have been published on efficacy of intravenous bevacizumab, a humanized monoclonal antibody in HHT on severe hemorrhages. Intravenous bevacizumab has been used in a previous clinical trial to measure efficacy and tolerance of this drug in HHT patients with severe liver involvement. Furthermore, a reduction was observed in the duration of the nosebleeds after treatment and was encouraging to treat bleeding. We completed this study by a pharmacokinetic-pharmacodynamic (PK-PD) model in order to assess the individual concentration-effect relationship of bevacizumab. However, no randomized prospective study has been performed and published to evaluate the efficacy in this indication. A total of 24 patients will be randomized versus placebo in a multicenter phase III trial. The Avastin or placebo will be infused at 5mg/kg every 14 days with a total of 6 cures with a 3 months following period.
The recognized manifestations of HHT are all due to abnormalities in vascular structure. Epistaxis due to telangiectases formation is spontaneous, very variable, recurrent in 90% of patients, and associated with severe anemia in 2-10%. They also significantly reduce quality of life. Improvement in epistaxis has been shown in HHT patients after a liver transplantation. It was hypothesized that the immunosuppressive treatment (FK506) used to prevent rejection may have an anti-angiogenic effect. The results of Albiñana et al suggest that the mechanism of action of FK506 involves a partial correction of endoglin and ALK1 haplosufficiency, genes responsible for 90% of HHT case. Tacrolimus ointment is available on the market for the treatment of eczema and can therefore readily be used as it is for nasal administration. Topical nasal administration of tacrolimus may be an easy local ENT treatment that is non-aggressive and results in little trauma for the patient in relation to other first line treatment possibilities. The main objective of this trial is to evaluate, at 6 weeks after the end of the treatment, the efficacy on the duration of nosebleeds, of 6 weeks tacrolimus nasal ointment application, in patients with HHT complicated by nosebleeds (30 min/6 weeks). Secondary objectives are to evaluate the tolerance throughout the study, the efficacy on anemia and on clinical parameters (nosebleeds, quality of life, epistaxis severity score questionnaire and blood transfusions) and the systemic absorption of nasal administration. This is a multicenter prospective and double blinded phase I/II trial. A total of 48 patients will be randomized versus placebo using an allocation ratio of 1:1. The ointment (Protopic® at 0.1% or placebo) will be self-administered by the patient with one administration in each nostril twice a day for 6 consecutive weeks.
This study is a prospective, phase 2 extension study of participants previously enrolled in NTMT-01 and NTMT-02. This study is designed to evaluate long term safety and efficacy of the NT-501 implant in participants previously enrolled in the NTMT-01 and NTMT-02 protocols.
Hereditary haemorrhagic telangiectasia (HHT), also known as Rendu-Osler-Weber syndrome, is an inherited multisystemic disorder. Literature suggests that HHT is often associated with higher frequency of infectious diseases. The purpose of this study is to evaluate a variety of immunologic parameters in the blood serum of HHT patients in comparison to probands.
Magnetic resonance (MR) imaging is performed with contrast agents to highlight the blood vessels and allow interpretation and diagnosis of blood vessel abnormalities. HHT (Hereditary Hemorrhagic Telangiectasia) is a disease of blood vessels, and can suffer fatal bleeding if abnormal blood vessels are not detected and treated early. Patients with HHT also require many imaging studies through their lifetimes for surveillance of blood vessels. Many HHT patients also have co-existing iron deficiency anemia from bleeding in their nose and gastrointestinal tract, and receive daily iron therapy. Ferumoxytol is an alternative MR contrast agent, which is FDA (Food and Drug Administration) approved for the treatment of iron deficiency anemia. In addition, it is not associated with the risks to the kidneys of the other agents. The use of ferumoxytol for MR imaging may benefit the patients who do not currently receive imaging due to the contraindications of the conventional contrast agents. It avoids the use of ionizing radiation. Also, the conventional contrast agents are associated with risks. Iodinated contrast in CT is associated with significant risks of kidney damage. Another imaging technique, MR, uses gadolinium based contrast agents. Gadolinium, if used in patients with pre existing kidney dysfunction (defined as GFR < 30ml/min) is associated with the development of another devastating disease called nephrogenic systemic fibrosis. As HHT patients will require repeated scans throughout their lifetimes, this study will provide them a safer alternative. Ten patients from the HHT clinic in whom the use of ferumoxytol as an MR agent is clinically indicated will be invited to participate in this study, which will determine if MR with ferumoxytol is able to detect and characterize vascular malformations in HHT.
Current HHT guidelines recommend CT scan to detect new or recurrent PAVMs after embolotherapy. Recent studies using transthoracic contrast echocardiography (TTCE) shunt grade for PAVM screening suggest that graded TTCE can accurately predict the size of PAVMs on chest CT and their amenability to embolization. This study's purpose is to evaluate whether TTCE shunt grade can also accurately predict PAVM size and amenability to treatment in patients who are post-embolization.
Objectives: The objective of study was to evaluate the safety and the efficacy of EryDex (Dexamethasone sodium phosphate encapsulated in autologous erythrocytes, using the EryDex System - EDS) at two dose levels (low dose and high dose DSP/infusion), compared to placebo, on Neurological Symptoms in Patients With Ataxia Telangiectasia. Initial Double-Blind Treatment Period (0 to 6 Months) Primary Efficacy Objective: • Evaluate the effect of EryDex at two dose levels (low dose and high dose DSP/infusion), compared to placebo, on central nervous system (CNS) symptoms measured by the change in the Modified International Cooperative Ataxia Rating Scale (mICARS) from baseline to Month 6 (Visit 9) in patients with ataxia telangiectasia (A-T). Secondary Efficacy Objectives: - Evaluate the effect of EryDex, compared to placebo, on the Clinical Global Impression of Change (CGI-C) in patients with A-T from baseline to Month 6 (Visit 9). - Evaluate the effect of EryDex, compared to placebo, on measures of Clinical Global Impression of Severity (CGI-S; structured) in patients with A-T from baseline to Month 6 (Visit 9) - Evaluate the effect of EryDex, compared to placebo, on measures of Adaptive behavior measures in patients with A-T by the Vineland Adaptive Behavior Scales (VABS) from baseline to Month 6 (Visit 9). Safety Objectives: • Evaluate the safety and tolerability of two non-overlapping doses of EryDex, compared to placebo, in patients with A-T over the 12-month double-blind study duration. Extension Treatment Period (6-12 Months): Primary Objective: • Evaluate the efficacy of EryDex at two dose levels (low dose and high dose DSP/infusion) compared to placebo, in treating CNS symptoms in A-T patients during longer-term treatment (up to 12 months), as measured by the mICARS. Secondary Objectives: - Evaluate the longer-term (up to 12 months) safety and tolerability of EryDex in A-T patients. - Compare the effects of EryDex on the CGI-C and CGI-S (structured), VABS, and QoL using the EQ-5D-5L scale.
The aim of the study is to investigate whether brimonidine cream can reduce IPL-induced inflammation in terms of redness, swelling and pain in patients with facial vascular lesions (telangiectasias). Furthermore, the effect of brimonidine cream on IPL-efficacy is evaluated one month after final IPL-treatment. The hypothesis is that brimonidine, which has been proved effective in reduction of symptomatic erythema in patients with rosacea, also may have the ability to reduce IPL-induced erythema. Since the potential reduction in erythema is caused by vasoconstriction, brimonidine may further reduce IPL-induced oedema and pain.
To evaluate the safety and effectiveness of the Excel V system for the treatment of lower extremity spider veins on the ankles.
This study aims to investigate the link between the Ataxia Telangiectasia Mutated (ATM) gene and metformin response. This link has been identified from large studies of the human genome, and this study aims to confirm this link in a clinical study. The ATM gene is involved in DNA repair - if a person inherits a "faulty" copy of this gene from both their parents, they have a genetic condition called Ataxia-telangiectasia (A-T). A-T is associated with, among other things, a resistance to insulin, which causes fatty liver and diabetes. This study will recruit people who have A-T, but have not developed diabetes, and compare this group to "healthy" controls, i.e. people who do not have A-T or diabetes. The study will compare how the groups respond to two drugs used to treat diabetes (metformin and pioglitazone), with the intention that this will guide the management of diabetes in A-T. This is an, open label unblinded study recruiting 15 people with A-T and 15 age and gender matched controls. Each participant will have three study visits to the Clinical Research Centre at Ninewells hospital in Dundee - one at baseline, a second after 8 weeks of metformin and the final visit after eight weeks of pioglitazone. During each visit we will carry out a number of investigations to study the insulin resistance of A-T and how it responds to metformin and pioglitazone.