13 Clinical Trials for Various Conditions
Study CTQJ230A12303 is a randomized, double-blind placebo-controlled, Phase IIIb study to evaluate the efficacy, safety and tolerability of pelacarsen (TQJ230) 80 mg s.c. QM compared with placebo s.c. QM in US Black/African American and Hispanic participants with established ASCVD and elevated levels of Lp(a) who are treated for cardiovascular (CV) risk factors according to local practice/guidelines for the reduction of cardiovascular risk.
The purpose of this study is to evaluate the efficacy of lepodisiran in reducing cardiovascular risk in participants with high lipoprotein(a) who have cardiovascular disease or are at risk of a heart attack or stroke. The study drug will be administered subcutaneously (SC) (under the skin).
This study will investigate the safety and tolerability of SLN360 in patients with elevated Lp(a).
The purpose of the study is to evaluate the safety, tolerability, pharmacokinetics (PK), and pharmacodynamics (PD) of single and multiple ascending doses of AZD4954 in healthy participants with or without elevated Lipoprotein(a) (Lp\[a\]) levels.
The main purpose of this study is to determine the efficacy and safety of LY3819469 in adults with elevated lipoprotein(a). The study will lasts about 20 months.
A study to assess the effects of proprotein convertase subtilisin/ kexin type 9 (PCSK9) inhibition on the arterial wall inflammation in patients with elevated lipoprotein(a).
The primary objective will be to demonstrate the manufacturing feasibility and safety, and to determine the maximum tolerated dose (MTD) of RNA-LP vaccines in (Stratum 1) adult patients with newly diagnosed GBM (MGMT low level or unmethylated in adults only) and (Stratum 2) in pediatric patients with newly diagnosed HGG (pHGG). Funding Source - FDA OOPD
The main purpose of this study is to evaluate the efficacy and safety of LY3473329 in adult participants with elevated Lp(a) at high risk for cardiovascular events.
To demonstrate that that the device is safe and potentially efficacious for use as a left ventricular cardiac assist device for postcardiotomy patients who require hemodynamic support post weaning from cardiopulmonary bypass.
The objective of this feasibility study is to demonstrate that the device is safe and potentially efficacious for use in patients undergoing high risk Percutaneous Coronary Interventions(PCI).Patients will be enrolled if they meet inclusion \& exclusion criteria.
This is a multicenter, randomized, double-blind, placebo-controlled, dose-ranging study to evaluate the safety, including tolerability, of ISIS 681257 and to assess the efficacy of different doses and dosing regimens of ISIS 681257 for reduction of plasma Lipoprotein(a) \[Lp(a)\] levels in participants with hyperlipoproteinemia(a) and established cardiovascular disease (CVD).
Hypercholesterolemia is recognized as the major driver for cardiovascular morbidity and mortality. To help address this in our community, Atlantic Medical Group (AMG) formed a lipid workgroup chaired by Robert D. Fishberg, MD, and Jeffrey N. Feldman, MD. The overarching goal of the lipid workgroup is to enhance the treatment of lipid disorders in those patients with abnormal lipid levels by improving access to resources at the primary care practice level and specialty level. We aim to develop a model for primary and secondary prevention that integrates guidelines for treatment at the practice level. Our primary objective is to identify high-risk patients by utilizing the electronic health record and partnering with patients' primary care providers to provide comprehensive medical management.
The Investigators have demonstrated in preclinical studies that RNA liposomes activate APCs, induce antigen-specific T cell immunity, and can supplant DCs in a cell therapy model for HGG and have shown feasibility and activity of this approach in preclinical models and in canine patients with a spontaneous malignant glioma. In one arm of this study, we will investigate the safety and immunologic activity of RNA-LP vaccines in pediatric patients with recurrent pHGG. The investigators have also shown that intravenous administration of tumor mRNA loaded lipid particles (LPs) localizes primarily to lung, transfect antigen presenting cells (APCs) and lead to an activated T cell response for induction of anti-tumor immunity. In contrast to other formulations, RNA-LPs recruit multiple arms of the immune system (i.e. innate/adaptive), and remodel the systemic/intratumoral immune milieu, which remain potent barriers for vaccine, cellular, and checkpoint inhibiting immunotherapies. After only a single RNA-LP vaccine, the bulk of systemic and intratumoral dendritic cells (DCs) in mice display an activated phenotype; these activated DCs (harvested from tumors) expand antigen specific T cell immunity. In immunologically resistant pulmonary osteosacroma murine tumor models (i.e. K7M2), RNA-LPs induce robust anti-tumor efficacy in settings where immune checkpoint inhibitors (i.e. anti-PD-L1 therapy) do not confer therapeutic benefit. The investigators have already demonstrated safety of RNA-LPs in acute/chronic murine toxicity studies, and in client-owned canine trial. In this study, we will investigate the manufacturing feasibility, safety and immunologic activity of RNA-LP vaccine in patients with recurrent pulmonary or unresectable osteosarcoma and recurrent pHGG.