View clinical trials related to ALS.
Filter by:The purpose of this study is to investigate the safety, pharmacokinetics (PK), and pharmacodynamics (PD) of TCD601 (siplizumab) in newly diagnosed adult ALS patients.
Given the expansion of indications for genetic testing and our understanding of conditions for which the results change medical management, it is imperative to consider novel ways to deliver care beyond the traditional genetic counseling visit, which are both amenable to large-scale implementation and sustainable. The investigators propose an entirely new approach for the implementation of genomic medicine, supported by the leadership of Penn Medicine, investigating the use of non-geneticist clinician and patient nudges in the delivery of genomic medicine through a pragmatic randomized clinical trial, addressing NHGRI priorities. Our application is highly conceptually and technically innovative, building upon expertise and infrastructure already in place. Innovative qualities of our proposal include: 1) Cutting edge EHR infrastructure already built to support genomic medicine (e.g., partnering with multiple commercial genetic testing laboratories for direct test ordering and results reporting in the EHR); 2) Automated EHR-based direct ordering or referring by specialist clinicians (i.e., use of replicable modules that enable specialist clinicians to order genetic testing through Epic Smartsets, including all needed components, such as populated gene lists, smartphrases, genetic testing, informational websites and acknowledgement e-forms for patient signature); 3) EHR algorithms for accurate patient identification (i.e., electronic phenotype algorithms to identify eligible patients, none of which currently have phenotype algorithms present in PheKB; 4) Behavioral economics-informed implementation science methods: This trial will be the first to evaluate implementation strategies informed by behavioral economics, directed at clinicians and/or patients, for increasing the use of genetic testing; further it will be the first study in this area to test two forms of defaults as a potential local adaptation to facilitate implementation (ordering vs. referring); and 5) Dissemination: In addition to standard dissemination modalities,PheKB95, GitHub and Epic Community Library, the investigators propose to disseminate via AnVIL (NHGRI's Genomic Data Science Analysis, Visualization, and Informatics Lab-Space). Our results will represent an entirely new paradigm for the provision of genomic medicine for patients in whom the results of genetic testing change medical management.
This research will study whether noninvasive ventilation (NIV) used to treat chronic respiratory insufficiency in patients with amyotrophic lateral sclerosis (ALS) can be initiated as successfully in the outpatient setting as in the conventional inpatient setting, and what the costs of these alternative initiation methods are.
In non-invasive mechanical ventilation (NIMV), the interface is the primary determinant of success, as adherence and quality of therapy mainly depend on it. The aim of this study is to investigate the usefulness of a customised mask approach to minimise leakage and upper airway obstruction. It will focus on ventilator registries and changes in the way they can be corrected with these customised masks. The process involves 3D face scanning and dedicated computer-aided design. The processing and manufacturing of the masks is based on additive manufacturing through 3D printing.
The New York Stem Cell Foundation (NYSCF) Research Institute is performing this research to accelerate diverse disease research using cells from the body (such as skin or blood cells) to make stem cells and other types of cells, conduct research on the samples, perform genetic testing, and store the samples for future use. Through this research, researchers hope to identify future treatments or even cures for the major diseases of our time.
This is a data repository for multi-site multi-protocol clinic-based Natural History Study of ALS and Other Motor Neuron Disorders (MND). All people living with ALS or other MNDs who attend clinics at the Study hospitals (sites) are offered to participate in the Study. The Sites collect so-called Baseline information including demographics, disease history and diagnosis, family history, etc. At each visit, the Sites also collect multiple disease-specific outcome measures and events. The information is captured in NeuroBANK, a patient-centric clinical research platform. The Sites have an option to choose to collect data into 20+ additional forms capturing biomarkers and outcome measures. Captured data after its curation are anonymized (all personal identifiers and dates are being removed), and the anonymized dataset is shared with medical researchers via a non-exclusive revocable license.
The goal of this interventional trial is to learn about lung volume recruitment (LVR) and expiratory muscle strength training (EMST) in a total of up to 39 patients diagnosed with ALS. The following aims will be addressed: 1. Determine the impact of combined LVR and EMST on cough strength and respiratory function in individuals with ALS. 2. Determine the impact of combined LVR and EMST on patient-reported dyspnea and bulbar impairment. 3. Describe the effect of combined LVR and EMST on patient- and caregiver reported burden and quality of life.
To collect, preserve, and/or distribute annotated biospecimens and associated medical data to institutionally approved, investigator-directed biomedical research to discover and develop new treatments, diagnostics, and preventative methods for specific and complex conditions.
The purpose of this research study is to determine the effects of a medication, istradefylline, in conjunction with breathing air with reduced oxygen for short periods of time (called acute intermittent hypoxia, or AIH), on breathing. This project will study breathing in people with amyotrophic lateral sclerosis (ALS) and unaffected, age-matched adults. Istradefylline is prescribed to increase movement in people with other neuromuscular conditions. A recently completed study found that people with ALS took deeper breaths, 60 minutes after using AIH.
This is a 48-week single arm study that incorporates digital tools for assessing motor function as part of an ALS telemonitoring program. During the study, neck- and wrist-worn "activity sensors" (PAMSys, BioSensics, Newton, MA) that will be worn by subjects while performing tasks of daily living. Subjects will also complete a motor, speech, and handwriting assessment during site visits. Subjects will complete a digital home assessments of speech, handwriting, and pattern tracing tasks throughout the study, and report any falls which occur on the study tablet. The investigators will explore whether functional changes are sensitive to self-reported changes on the ALS Functional Rating Scale - Revised (ALFRS-R) over the length of the study.