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NCT06563895
Transthyretin amyloidosis (ATTR) is a disease where the normally occurring transthyretin (TTR) protein falls apart and forms amyloid, a sticky plaque-like substance that accumulates in different organs in the body and can cause damage to the organ. There are two ways that the TTR protein can fall apart. One way occurs as a person ages, where the normal TTR protein can fall apart and form amyloid that may no longer be sufficiently cleared by the body. This type of ATTR is known as wild-type ATTR (ATTRwt). The other way occurs when a person inherits a defective TTR gene that causes the TTR protein to spontaneously fall apart. This form of the disease is known as variant ATTR (ATTRv) and can be detected in adults by a genetic test of their TTR gene before they age. Amyloid build-up in the heart causes the heart wall to become thick and stiff and can result in heart failure and even death. Accumulation of TTR amyloid in the heart is known as transthyretin amyloid cardiomyopathy or ATTR-CM. Amyloid can also deposit in the nerve tissues leading to nerve problems. Accumulation of TTR in the nerves is known as transthyretin amyloid polyneuropathy or ATTR-PN. Acoramidis is an experimental drug designed to bind tightly to TTR in the blood and stabilize its structure, so it does not form the harmful amyloid plaques that can cause damage to organs. This study is intended to determine if treatment with acoramidis in participants with ATTRv who have not yet developed any symptoms of disease can prevent or delay the development of ATTR-CM or ATTR-PN disease. If adults with an inherited defective TTR gene are treated early before any of the symptoms of disease have developed, it may be possible to delay the onset or prevent the disease entirely.
NCT06465810
The MaesTTRo study aims to enroll a global cohort of patients with transthyretin (ATTR) amyloidosis to longitudinally observe the natural course of the disease and describe real-world treatment patterns and outcomes. In addition, information on the effectiveness of ATTR amyloidosis treatments, including eplontersen, which is a ligand-conjugated antisense oligonucleotide gene silencing treatment targeting activity against both the mutant and wild-type TTR protein, will be collected.
NCT07358078
The purpose of this study is to: * Describe the clinical characteristics of adult patients with transthyretin-mediated amyloidosis with cardiomyopathy (ATTR-CM) treated with vutrisiran in routine clinical care * Describe treatment patterns of adult patients with ATTR-CM treated with vutrisiran in routine clinical care * Assess health-related quality of life (HRQOL) in adult patients with ATTR-CM treated with vutrisiran in routine clinical care * Assess healthcare resource use (HCRU) in adult patients with ATTR-CM treated with vutrisiran in routine clinical care Compare the long-term effectiveness of vutrisiran versus other approved ATTR-CM treatments in routine clinical care
NCT07052903
The purpose of this study is to: * Evaluate the efficacy of nucresiran compared to placebo on reducing all-cause mortality and cardiovascular (CV) events * Evaluate the efficacy of nucresiran compared to placebo on additional assessments of CV events and/or death * Evaluate the efficacy of nucresiran compared to placebo on patient-reported health status and health-related quality of life
NCT05758493
This is a single center prospective study evaluating 124I-evuzumitide in patients with systemic amyloidosis. The purpose of this study is to 1) Establish the diagnostic accuracy of 124I-evuzumitide in cardiac amyloidosis 2) Evaluate extracardiac uptake 3) identify and characterize the distribution and uptake of 124I-evuzumitide in patients with transthyretin amyloid cardiomyopathy (ATTR-CM) and 4) Correlate the uptake with the structure and function of different organs, including the heart. To achieve these goals, eligible patients will undergo primarily hybrid positron emission tomography and magnetic resonance imaging (PET/MRI). In a subgroup of patients who are unable to undergo PET/MR, computed tomography will be used instead of MRI (i.e. PET/CT). In a subgroup of patients, repeat imaging with the same modality will be done at a interval of 6-12 months. Clinically available data (demographics, phenotype, imaging, laboratory) will also be collected to characterize the disease in each patient.
NCT06393465
This study will examine the clinical effectiveness of Tafamidis in patients with Mixed Phenotype Transthyretin Amyloidosis using data that already exist in patients' medical records
NCT04153149
This study will evaluate the efficacy and safety of vutrisiran 25 mg administered subcutaneously (SC) once every 3 months (q3M) compared to placebo in participants with ATTR amyloidosis with cardiomyopathy.
NCT06338839
A multicenter observational retrospective-prospective study of prevalence and clinical characteristics of transthyretin amyloidosis (ATTR) cardiomyopathy (CM) in Russian patients with heart failure with preserved ejection fraction (HFpEF) in real clinical practice. The retrospective phase will entail secondary data collection from electronic or paper medical records of patients who are participating/participated in the PRIORITY-CHF study and have HFpEF. Those patients who have a high suspicion of having ATTR-CM and provided informed consent will be invited to participate in the prospective phase. The prospective phase will consist of three visits, during which a routine comprehensive cardiologic evaluation in order to confirm or exclude ATTR-CM diagnosis will be performed. In patients with confirmed ATTR-CM the material for genetic testing will be collected in order to specify the type of ATTR-amyloidosis
NCT06291805
Descriptive cross-sectional study on 100 consecutive ATTRwt-CM patients reflecting all NAC stages aiming primarily to investigate ATTRwt-CM patient's quality of life (QoL) measures and their relation to ATTRwt-CM severity. Secondarily aiming to investigate the possibility to measure misTTR and fragTTR in plasma and urine and to detect fragTTR in endomyocardial biopsies from ATTRwt-CM patients. To investigate whether misTTR and fragTTR levels are correlated with ATTRwt-CM severity.
NCT05635045
This was a single center, prospective cohort study that is evaluating the ability of 124I-evuzamitide PET scanning to detect potential therapeutic changes in subjects under treatment for ATTR after one year had elapsed since their original 124I-evuzamitide PET scan. Ten previously scanned subjects re-consented to undergo another 124I-evuzamitide PET scan. Demographic, clinical and phenotypic data were collected to characterize potential changes since their previous scans.
NCT04306510
The objective of the study was to characterize adverse events (AEs) occurring within one day of TEGSEDI administration to adult participants with hATTR-PN overall and in individual participants with respect to time course of AE onset, vital sign changes, preventive measures, treatment required, risk factors, and subsequent adverse outcomes.
NCT06712030
Prospective, randomized, multicenter, open-label clinical trial to evaluate the safety and efficacy of Sacubitril/Valsartan (Sac/Vals) compared to no initiation of the drug in patients with transthyretin cardiac amyloidosis (ATTR) and heart failure with reduced ejection fraction (LVEF ≤40%). The primary objective is to determine the impact of Sac/Vals treatment on systolic function by assessing the change in LVEF on echocardiogram at 12-month follow-up.
NCT03860935
Phase 3 efficacy and safety study to evaluate acoramidis (AG10) HCl 800 mg administered orally twice a day compared to placebo in subjects with symptomatic Transthyretin Amyloid Cardiomyopathy (ATTR-CM).
NCT03352089
Aortic stenosis is the most common valve disease requiring surgery in the Western world. It is defined by progressive calcification and fibrosis of the valve leaflets and restricted valve opening. This in turn exposes the heart muscle (left ventricle) to increasing pressure leading to heart muscle thickening (left ventricular hypertrophy, LVH) to normalise wall stress and maintain heart output (stroke volume). The only treatment available is relief of pressure overload by surgical or minimally invasive valve replacement (TAVI). Transthyretin (TTR) amyloidosis is a condition characterised by deposition of insoluble transthyretin protein (a small protein tetramer produced in the liver) in various tissues, predominantly in the heart. Although there are inherited forms caused by specific TTR gene mutations, most cases occur in older individuals with non-mutated TTR (wild-type). The finding of TTR plaques in elderly individuals is relatively common; in a post-mortem study 22-25% of patients over the age of 80 had evidence of cardiac amyloid deposition. However, there is significant progressive amyloid accumulation in a small percentage of individuals leading to heart muscle thickening and heart failure. No medical treatments are currently licensed although several agents are at advanced stages of clinical trials. As both the above conditions are increasingly common in the elderly population and characterised by increased heart muscle thickening, there is the potential for them to coexist unrecognised in individual patients. The prevalence of cardiac amyloidosis in clinical populations with significant aortic stenosis is not known however small series have estimated somewhere in the region of 6-29%. Other data have suggested that patients with aortic stenosis and concurrent cardiac amyloidosis have an adverse prognosis even despite AVR. It is therefore important to identify aortic stenosis patients with coexistent amyloidosis both in terms of predicting prognosis and because it may influence decisions about whether to proceed to valve intervention. PET/MR is an emerging technique, which combines the excellent temporal and spatial resolution of MRI with the sensitive molecular imaging of PET. PET/MR has significant advantages over PET/CT (the currently more widely used approach) in that it offers superior tissue characterisation, improved correction for cardiac and respiratory motion and major reductions in radiation exposure. Whilst there are concerns about its ability to provide reliable attenuation correction of the PET data, these issues appear to have been largely overcome with recent techniques proposed by our group. MR is also more naturally suited to the imaging of certain tissues in the body compared to CT including the left ventricular myocardium. In aortic stenosis, MRI has become the gold-standard technique for examining the heart muscle (myocardium) with the unique ability to assess its tissue composition. In particular both late gadolinium enhancement (LGE) and T1 mapping based techniques are able to detect heart scarring (fibrosis) which act as biomarkers of left ventricular decompensation and are strongly associated with poor patient outcomes. CMR is also the gold-standard non-invasive technique for detecting cardiac amyloid, which is associated with both a characteristic pattern of LGE and high native T1 values. However it is not currently able to differentiate between the two different types of cardiac amyloid TTR and AL amyloidosis, which have different prognoses and treatments. Preliminary studies conducted by our group have suggested that 18F-NaF PET when added to CMR can make this distinction on the basis that this tracer binds to TTR deposits but not AL deposits, may be able to differentiate between the two. Importantly we have also used the same PET tracer as a marker of calcification activity in the aortic valve, demonstrating its ability to predict disease progression and cardiac events. In this study, we will investigate whether PET/MR could be used as "one-stop" imaging in aortic stenosis in whom valve intervention is being considered to assess in detail functional and structural properties of both the valve and myocardium and identify cases of significant cardiac TTR amyloid deposition.
NCT06345235
The development of cardiac amyloidosis is caused by the deposition of misfolded, insoluble proteins in the extracellular matrix of tissues. An important element of the clinical picture of the disease is the increased risk of thromboembolic complications, independent of the occurrence of atrial fibrillation, and the presence of intracardiac thrombi. The pathomechanism may be related to an increase in filling pressure or amyloid infiltration leading to myocardial damage and endothelial dysfunction, which may activate the prothrombotic inflammatory cascade, resulting in increased thrombogenic potential. Currently, there is limited published data on the potential role of new heart failure biomarkers in the assessment of ATTR cardiomyopathy, particularly in the assessment of asymptomatic carriers of pathogenic TTR variants. Moreover, there are few literature reports on the direct assessment of the coagulation system in this group of patients, and the pathomechanism of the increased thromboembolic risk is unexplored. Purpose of the study: To assess the diagnostic value of biomarkers related to heart failure (growth differentiation factor-15 (GDF15), soluble suppression of tumorigenicity-2 (ST2), galectin-3), amyloidosis ( TTR, tissue inhibitor of metalloproteinase-1 (TIMP-1), matrix metalloproteinase-9 (MMP-9, matrix metalloproteinase-9), neurofilament light chain (NfL)) and the generation potential thrombin as a marker of the prothrombotic state in the course of ATTR. Methods: This prospective, single-center study will include consecutive patients diagnosed with ATTR cardiomyopathy (GROUP 1, n=30), asymptomatic carriers of pathogenic TTR variants (GROUP 2, n=30), and a matched control group of healthy volunteers (GROUP 3 , n=20). Material for research was collected and secured from all study participants. After giving informed consent, all patients will be tested using the ELISA method from peripheral blood (enzyme-linked immunosorbent assay) GDF15, ST2, TTR, TIMP-1, MMP-9, galectin-3, NfL. The values of these biomarkers will be compared in subgroups and correlated with clinical data, laboratory test results, echocardiography including analysis of left ventricular global strain (GLS), and scintigraphy. Additionally, the prothrombotic potential of plasma will be tested in both groups of patients using the calibrated automatic thrombogram (CAT) method, in accordance with the protocol previously used in the laboratory Expected results: The project will provide information on the value of biomarkers in the assessment of ATTR cardiomyopathy, especially in the assessment of asymptomatic carriers of pathogenic TTR variants, which may translate into the creation of a diagnostic algorithm for early identification of the development of the disease. Moreover, it will allow us to determine whether patients with cardiac ATTR are characterized by a prothrombotic state, which has not yet been described in the literature and may have potential clinical implications.
NCT05409833
Systemic transthyretin amyloidosis is an aging-related disorder. It is usually associated with cardiac disease but also extends to other organs. Recent studies found that idiopathic carpal tunnel syndrome patients may have amyloid deposition in tenosynovial tissue. The main aims of this project are the characterization of the association between idiopathic carpal tunnel syndrome and transthyretin amyloidosis and its evaluation as a predictive factor of cardiac amyloidosis
NCT02713880
International, multicenter, observational, longitudinal study to identify biomarker/s for the development of a new MS-based biomarker for the early and sensitive diagnosis of Transthyretin-Related Familial Amyloidotic Polyneuropathy from blood and number of correctly identified patients with Transthyretin-Related Familial Amyloidotic Polyneuropathy
NCT03588468
Familial amyloid neuropathies (FAP) are hereditary disease due to a mutation of the tranthyretin gene (TTR). These neuropathies are severe and life frightening. Asymptomatic carrier of TTR mutation are now detected in large TTR-FAP family. However, it is very hard to detect the moment where a TTR mutation carrier become symptomatic: too early diagnosis exposes the patients to side effect of the treatment and too late diagnosis exposes the patient to disease progression and clinical sequels. Neurological monitoring comprises clinical examination, electrophysiology and imaging. Sensitivity and specificity of these tools are not sufficient and we have to develop new biomarkers sensitive enough to detect modifications under treatment and the moment where a TTR mutation carrier become symptomatic Magnetic resonance imaging (MRI) can well evaluate neuromuscular diseases. Electrophysiological examination is also a good tool to evaluate NAF. MUNIX is a technique that permits to estimate the number of motor unit in one muscl. MUNIX is related to the disability in chronic inflammatory neuropathies and could be more sensitive than clinical scales and other electrophysiological data to detect modification of the disease in TTR-FAP. The objective of this exploratory study is to test the applicability of MUNIX and MRI as early measures for detecting the transition from asymptomatic to symptomatic TTR-FAP. In symptomatic TTR-FAP we will determine if MUNIX and MRI data are related to clinical deficiency and disability of the patients. This is a transversal exploratory study. If we manage to demonstrate that MRI and MUNIX can segregate symptomatic versus asymptomatic TTR mutation gene carriers, we will propose a longitudinal study with a follow up of more asymptomatic gene carriers.
NCT05075798
Transthyretin amyloidosis (aTTR) initially described as a rare disease, became the most serious hereditary polyneuropathy of adult onset and family screening has made it possible to identify and follow up many asymptomatic patients and carriers of the mutation in the TTR gene. Considered as a systemic disease with involvement of target organs (the heart, the eye, the kidney and peripheral nervous system), it seems to be more complex for neurologists according to recent publications raising the issue of central nervous system involvement. Indeed, TTR amyloid deposits seem to be correlated with the duration of the disease. These deposits can cause cortical damage by different mechanisms: direct TTR toxicity or as a result of pathology related to cerebral amyloid angiopathy (intraparenchymal or subarachnoid hematomas, small infarcts, hemosiderin). A small number of mutations in the TTR gene cause a rare phenotype of systemic amyloidosis, the oculoleptomeningeal form, characterized by clinical neurological symptoms: progressive dementia, epilepsy, ataxia, spastic paraparesis, stroke-like episodes. Hypothesis of the work: the central nervous system involvement is probably underestimated on the radiological description in patients with TTR mutation.
NCT03886155
The investigators will prospectively evaluate for the presence of amyloid deposits in soft tissue samples obtained from patients undergoing trigger finger release surgery. Patients who have tissue that stains positive for amyloid will be referred to an amyloidosis specialist.