Genetics of Pediatric-Onset Motor Neuron and Neuromuscular Diseases
Status: | Recruiting |
---|---|
Conditions: | Other Indications, Neurology, Neurology, Neurology, Neurology, Neurology, Neurology, Neurology, Orthopedic, Dental |
Therapuetic Areas: | Dental / Maxillofacial Surgery, Neurology, Orthopedics / Podiatry, Other |
Healthy: | No |
Age Range: | Any |
Updated: | 4/21/2016 |
Start Date: | June 2015 |
End Date: | December 2022 |
Contact: | Matthew ER Butchbach, Ph.D. |
Email: | butchbach@nemoursresearch.org |
Phone: | 302-298-7366 |
The goal of this study is to establish a genetic registry of patients with early-onset motor
neuron and neuromuscular diseases. The investigators will collect samples from patients with
a motor neuron or a neuromuscular disorder and their family members. The samples to be
collected will be obtained using either non-invasive (saliva and buccal swabs) or minimally
invasive (whole blood) means. The research team will then extract high quality genomic DNA
from these samples and use it to identify and confirm novel gene mutations and to identify
genes which regulate the severity of motor neuron/neuromuscular diseases.
neuron and neuromuscular diseases. The investigators will collect samples from patients with
a motor neuron or a neuromuscular disorder and their family members. The samples to be
collected will be obtained using either non-invasive (saliva and buccal swabs) or minimally
invasive (whole blood) means. The research team will then extract high quality genomic DNA
from these samples and use it to identify and confirm novel gene mutations and to identify
genes which regulate the severity of motor neuron/neuromuscular diseases.
Diseases affecting the motor unit--which is composed of the motor neuron, its myelin sheath
and its innervated muscle fibers--are a diverse, heterogeneous group having heterogeneous
clinical presentations and genetic causes. Many of these disorders have a inherited
component. In some cases, the genetics underlying a given neuromuscular/motor neuron
disease, like spinal muscular atrophy (SMA) or Duchenne muscular dystrophy, are well
characterized. There are, however, disorders whose genetic basis has yet to be determined or
genetically characterized diseases which harbor novel mutations. The purpose of this genetic
registry is to catalogue early-onset motor neuron and neuromuscular disorders and to
determine their genetic bases. With samples obtained from this registry, the investigators
will be able to provide a genetic diagnosis for a specific neuromuscular/motor neuron
disease which will lead to better care for those patients affected by these diseases.
Many of these disorders have a wide spectrum of phenotypic variability. For example, the
severity of SMA is quite variable even though it is caused by the loss of a single gene,
i.e. survival motor neuron 1 (SMN1). The number of copies of the duplicated gene survival
motor neuron 2 (SMN2) dictates phenotypic severity in SMA. In this study, the research team
will also identify potential modifiers of phenotypic severity for specific disorders like
SMA and Charcot-Marie-Tooth (CMT) disease. With the identification of novel modifier genes,
the investigators will be able to more accurately predict disease outcomes and the
investigators will also have novel targets for the development of therapeutic agents for
these diseases.
and its innervated muscle fibers--are a diverse, heterogeneous group having heterogeneous
clinical presentations and genetic causes. Many of these disorders have a inherited
component. In some cases, the genetics underlying a given neuromuscular/motor neuron
disease, like spinal muscular atrophy (SMA) or Duchenne muscular dystrophy, are well
characterized. There are, however, disorders whose genetic basis has yet to be determined or
genetically characterized diseases which harbor novel mutations. The purpose of this genetic
registry is to catalogue early-onset motor neuron and neuromuscular disorders and to
determine their genetic bases. With samples obtained from this registry, the investigators
will be able to provide a genetic diagnosis for a specific neuromuscular/motor neuron
disease which will lead to better care for those patients affected by these diseases.
Many of these disorders have a wide spectrum of phenotypic variability. For example, the
severity of SMA is quite variable even though it is caused by the loss of a single gene,
i.e. survival motor neuron 1 (SMN1). The number of copies of the duplicated gene survival
motor neuron 2 (SMN2) dictates phenotypic severity in SMA. In this study, the research team
will also identify potential modifiers of phenotypic severity for specific disorders like
SMA and Charcot-Marie-Tooth (CMT) disease. With the identification of novel modifier genes,
the investigators will be able to more accurately predict disease outcomes and the
investigators will also have novel targets for the development of therapeutic agents for
these diseases.
Inclusion Criteria:
- Diagnosis of motor neuron/neuromuscular disease confirmed by neurologist
Exclusion Criteria:
- not seen by one of the study investigators
We found this trial at
3
sites
13535 Nemours Parkway
Orlando, Florida 32827
Orlando, Florida 32827
(407) 567-4000
Phone: 407-650-7250
Nemours Children's Hospital Nemours Children's Hospital in Orlando brings pediatric specialty care never before offered...
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1600 Rockland Road
Wilmington, Delaware 19803
Wilmington, Delaware 19803
(302) 651-4200
Phone: 302-298-7366
Alfred I. duPont Hospital for Children Nemours began more than 70 years ago with the...
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