Natural History Study of Synucleinopathies
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|ClinicalTrials.gov Identifier: NCT01799915|
Recruitment Status : Recruiting
First Posted : February 27, 2013
Last Update Posted : January 25, 2018
Synucleinopathies are a group of rare diseases associated with worsening neurological deficits and the abnormal accumulation of the protein α-synuclein in the nervous system. Onset is usually in late adulthood at age 50 or older. Usually, synucleinopathies present clinically with slowness of movement, coordination difficulties or mild cognitive impairment. Development of these features indicates that abnormal alpha-synuclein deposits have destroyed key areas of the brain involved in the control of movement or cognition. Patients with synucleinopathies and signs of CNS-deficits are frequently diagnosed with Parkinson disease (PD), dementia with Lewy bodies (DLB) or multiple system atrophy (MSA).
However, accumulation of alpha-synuclein and death of nerve cells can also begin outside the brain in the autonomic nerves. In such cases, syncucleinopathies present first with symptoms of autonomic impairment (unexplained constipation, urinary difficulties, and sexual dysfunction). In rare cases, hypotension on standing (a disorder known as orthostatic hypotension) may be the only clinical finding. This "pre-motor" autonomic stage suggests that the disease process may not yet have spread to the brain.
After a variable period of time, but usually within 5-years, most patients with abnormally low blood pressure on standing develop cognitive or motor abnormalities. This stepwise evolution indicates that the disease spreads from the body to the brain. Another indication of this spread is that acting out dreams (i.e., REM sleep behavior disorder, RBD) a problem that occurs when the lower part of the brain is affected, may also be the first noticeable sign of Parkinson disease.
The purpose of this study is to document the clinical features and biological markers of patients with synucleinopathies and better understand how these disorders evolve over time. The study will involve following patients diagnosed with a synucleinopathy (PD/DLB and MSA) and those believed to be in the "pre-motor" stage (with isolated autonomic impairment and/or RBD). Through a careful series of follow-up visits to participating Centers, we will focus on finding biological clues that predict which patients will develop motor/cognitive problems and which ones have the resilience to keep the disease at bay preventing spread to the brain. We will also define the natural history of MSA - the most aggressive of the synucleinopathies.
|Condition or disease|
|Patients With Synucleinopathies Neurogenic Orthostatic Hypotension Pure Autonomic Failure REM Sleep Behavior Disorder Parkinson Disease Dementia With Lewy Bodies Multiple System Atrophy Shy-Drager Disease|
α-synuclein is a small protein of 140 amino acids that is highly expressed in the brain. It's function remains poorly understood.10 Synucleinopathies are a group of neurodegenerative diseases associated with the abnormal accumulation of α-synuclein within cytoplasmic inclusions in neurons or oligodendroglia. These α-synuclein containing cytoplasmic aggregates occur throughout the brain, producing cell death and specific motor, autonomic and cognitive dysfunction in four phenotypically distinct synucleinopathies. When α-synuclein deposition occurs in neurons it aggregates into Lewy bodies, producing Parkinson disease (PD), dementia with Lewy bodies (DLB) or pure autonomic failure (PAF). Whereas in multiple system atrophy (MSA) neuronal death probably occurs as a consequence of α-synuclein aggregation in oligodendroglia.
A characteristic feature of the synucleinopathies is that they can all begin with varying degrees of autonomic dysfunction as the sole clinical feature - implying an initial diagnosis of isolated (pure) autonomic failure 11. After a variable period of time, but usually less than 5 years, only a small number of patients remain with a pure autonomic failure phenotype, but careful follow-up is lacking 11. Most patients develop cognitive or motor abnormalities (or both) and the patient is then diagnosed with PD, DLB or MSA.
This stepwise clinical progression suggests that the neurodegenerative process can in rare cases remain confined to autonomic neurons12, but more frequently spreads to affect additional areas of the central nervous system (CNS). This unique feature of the synucleinopathies poses diagnostic challenges and potential therapeutic opportunities.
The challenges are first, to determine whether PAF is a distinct disease or is always a prodromal phase of PD, DLB or MSA and second, to discover biomarkers that predict spread to motor and cognitive neurons. Such biomarkers would allow testing of disease-modifying strategies to delay or stop the neurodegenerative process in the pre-motor or pre-dementia phase. Aim 2 will focus on defining the natural history of MSA, the most aggressive of the synucleinopathies. This prospective observational study will establish disease-specific milestones for use in future clinical trials.
Obstacles to identifying biomarkers predicting further CNS involvement are that most medical centers only see patients with synucleinopathies when they already have developed motor and cognitive involvement, and that PAF and MSA are rare disorders. In this context the Autonomic Disorders Consortium (ADC) within the Rare Diseases Clinical Research Network (RDCRN) of the National Institutes of Health (NIH) was created with the objective of providing a better understanding of the variability, progression, and natural history of neurodegenerative synucleinopathies. Continuing this observational study, and increasing its power by including additional academic centers from the U.S., South America, and Europe, will allow us to define the natural history of these diseases and establish the sensitivity and specificity of the proposed biomarkers.
|Study Type :||Observational|
|Estimated Enrollment :||800 participants|
|Official Title:||Natural History Study of Synucleinopathies|
|Study Start Date :||June 2011|
|Estimated Primary Completion Date :||July 2020|
|Estimated Study Completion Date :||July 2020|
REM sleep behavior disorder, RBD
Patients that have rapid eye movement sleep behavior disorder.
multiple system atrophy
is a neurodegenerative disorder charaterized by abnormal alpha-synuclein deposition in the cytoplasm of oligodendroglial cells in the CNS, and typically sparing peripheral autonomic nerves.
Pure Autonomic failure
A neurodegenerative disorder characterized by loss of peripheral noradrenergic fibers, with low levels of plasma norepinephine.
A degenerative disorder of the central nervous system that leads to termors, difficulty walking, movement and coordination.
Dementia with Lewy bodies
A neurodegenerative disorder similar to PAF and PD with the accumulation of Alpha-synuclein in the CNS however DLB patients develop dementia.
- To create a database of primary autonomic disorders that will serve as a phenotyping core. [ Time Frame: 5 years ]We will create an enrollment database of patients with primary autonomic disorders. All patients will have standardized phenotyping evaluations that will combine clinical, physiological and biochemical strategies to characterize complex autonomic phenotypes, both known and still undiscovered.
- To define the natural history of neurogenic orthostatic hypotension and identify predictive biomarkers of autonomic disorders [ Time Frame: 5 years ]We will map the natural history of primary autonomic failure and test the hypothesis that pure autonomic failure (PAF) is a neurodegenerative synucleinopathy that remains confined to the autonomic nervous system. We will also identify biomarkers that can distinguish patients with PAF from those with early (i.e., "pre-motor") MSA, PD, DLB or autonomic failure as a result of another disorder.
Biospecimen Retention: Samples With DNA
Please refer to this study by its ClinicalTrials.gov identifier (NCT number): NCT01799915
|United States, Massachusetts|
|Beth Israel Deaconess Medical Center||Recruiting|
|Boston, Massachusetts, United States|
|Contact: Sharika Rajan 617-632-0864 email@example.com|
|United States, Michigan|
|University of Michigan||Recruiting|
|Ann Arbor, Michigan, United States|
|Contact: Arijit Bhaumik, BA 734-936-8281 firstname.lastname@example.org|
|United States, Minnesota|
|Rochester, Minnesota, United States|
|Contact: Tonette Gehrking 507-284-0336 email@example.com|
|United States, New York|
|NYU Medical Center||Recruiting|
|New York, New York, United States, 10016|
|Contact: Jose Martinez, MA 212-263-7225 firstname.lastname@example.org|
|Principal Investigator: Horacio Kaufmann, MD|
|United States, Tennessee|
|Nashville, Tennessee, United States|
|Contact: Emily Garland, PhD 615-936-1748 emily.garland@Vanderbilt.Edu|
|FLENI - Fundación para la Lucha contras las Enfermedades Neurológicas||Recruiting|
|Buenos Aires, Argentina|
|Contact: Malco Rossi email@example.com|
|Principal Investigator: Marcelo Merello, MD|
|Korea, Republic of|
|Seoul National University Hospital||Recruiting|
|Seoul, Korea, Republic of|
|Contact: Han-Joon Kim, MD firstname.lastname@example.org|
|Principal Investigator: Han-Joon Kim, MD|
|BioCruces Research Institute - Hospital Universitario de Cruces||Recruiting|
|Contact: Juan Carlos Gomez-Esteban, MD JUANCARLOS.GOMEZESTEBAN@osakidetza.eus|
|Principal Investigator: Juan Carlos Gomez-Esteban, MD|
|Principal Investigator:||Horacio C Kaufmann, MD||NYU MEDICAL CENTER|