Image

B3 for NMD: Bench to Bedside and Back

Recruiting
18 years of age
Both
Phase N/A

Powered by AI

Overview

Background: Neuromuscular diseases (NMD) represent a broad group of rare genetic and acquired disorders, affecting over 300,000 people in Canada. Given the multiple different NMD subtypes, almost half of patients with NMD remain undiagnosed.

Objective: The purpose of this study is to identify genetic or other markers in patient biosamples (e.g. blood, muscle, skin samples), electrodiagnostic studies or imaging that may help physicians and scientists provide faster ways to diagnose patients with NMD, study disease progression, and discover underlying disease mechanisms that may lead to future NMD therapies.

Eligibility: Adults with NMD

Design: Participants will have blood and/or tissue samples, and data from clinical information, imaging, and electrodiagnostic studies collected. Sample and data collection at the Neuromuscular Center, The Ottawa Hospital may include blood, DNA, saliva, cerebrospinal fluid, urine and stool samples, skin or muscle biopsy, and routine diagnostic imaging studies such as electrodiagnostic studies, ultrasound, and magnetic resonance imaging.

Description

The B3 for NMD creates a streamlined approach to develop the Bench (preclinical and laboratory characterization) to Bedside (clinical and imaging assessment) and Back (biomarker, diagnostics and therapy development) approach to develop transformative therapies for patients with rare NMDs. This study focuses on assessing current diagnostic techniques and disease characterization of difficult-to-diagnose NMDs including Motor Neuron Disease (e.g. ALS), Neuromuscular Junction Disorders, Neuropathies, Myopathies.

Activity 1: Improve Diagnosis: Identification of rare and novel genes causing NMD with next generation sequencing and develop imaging modalities and biomarkers to aid in diagnosis.

A collaborative research team of clinicians, informaticians, and scientists has been formed to rapidly identify the genes and the autoimmune antibodies responsible for a wide spectrum of NMD present in the Canadian population, as well as to explore mechanisms causing these disorders. In addition, novel genetic and biomarker approaches are needed to facilitate diagnosis and permit the identification of mutations in novel genes, leading to discovery of the molecular mechanisms underlying the NMD disease state. Novel diagnostic techniques that examine thousands of genes (e.g. exome/genome sequencing), protein expression (e.g. RNA sequencing) and/or serum biomarkers (e.g. exosomes) will be assessed to provide a more rapid diagnosis for patients with NMD. In addition, imaging characteristics for these rare diseases (MRI, Muscle/Nerve Ultrasound/nerve conduction studies) need to be assessed and compared in order to provide an efficient, effective and cost-savings approach to diagnosis for patients with inherited or sporadic NMD.

Activity 2. Disease Characterization: Identifying pathophysiological mechanisms in NMD

Preclinical research provides the foundation for discoveries that improve lives for patients with NMD. The identification of cellular and molecular events that govern normal muscle and nerve differentiation drives the development of regenerative-based therapies, whereas the characterization of the disease state uncovers new therapeutic targets for disease intervention. Although many NMDs were previously incurable, recent breakthroughs in the molecular pathogenesis of monogenic and acquired disorders are now revealing potential targeted disease-modifying therapies that may improve muscle health and prevent disability. The goal is to assess clinical samples such as blood, skin/muscle biopsies, cerebrospinal fluid obtained through collaboration with NMC clinicians and researchers to help develop effective novel/known drug compounds that may act as promising therapies that, in the future, can be rapidly moved into local and multicenter clinical trials.

Eligibility

Inclusion Criteria:

        Patients or blood relatives of patients classified as having a neuromuscular disease from
        the following categories:
          -  Motor Neuron Disease (Amyotrophic Lateral Sclerosis/Spinal Muscular Atrophy)
          -  Neuropathies
          -  Neuromuscular Junction Disorders
          -  Myopathies.
        Exclusion Criteria:
        Patients referred to the neurology clinic without a neuromuscular disorder:
          -  Central nervous system disorders such as Stroke
          -  Multiple Sclerosis
          -  Parkinson's disease

Study details

Neuromuscular Disease

NCT04417023

Ottawa Hospital Research Institute

25 January 2024

Step 1 Get in touch with the nearest study center
What happens next?
  • You can expect the study team to contact you via email or phone in the next few days.
  • Sign up as volunteer  to help accelerate the development of new treatments and to get notified about similar trials.

You are contacting

Investigator Avatar

Primary Contact

site

FAQs

Learn more about clinical trials

What is a clinical trial?

A clinical trial is a study designed to test specific interventions or treatments' effectiveness and safety, paving the way for new, innovative healthcare solutions.

Why should I take part in a clinical trial?

Participating in a clinical trial provides early access to potentially effective treatments and directly contributes to the healthcare advancements that benefit us all.

How long does a clinical trial take place?

The duration of clinical trials varies. Some trials last weeks, some years, depending on the phase and intention of the trial.

Do I get compensated for taking part in clinical trials?

Compensation varies per trial. Some offer payment or reimbursement for time and travel, while others may not.

How safe are clinical trials?

Clinical trials follow strict ethical guidelines and protocols to safeguard participants' health. They are closely monitored and safety reviewed regularly.
Add a private note
  • abc Select a piece of text.
  • Add notes visible only to you.
  • Send it to people through a passcode protected link.