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Hereditary Parkinson and dystonia syndromes are rare, as are people who carry the predisposition for Parkinson or dystonia but do not have symptoms. It is particularly important to study these people because they are a good model for understanding the development of common non-hereditary Parkinson's and dystonia. To do this, the investigators want to look at how the brain works and how different areas of the brain communicate with each other. The investigators want to identify differences in brain regions connecting perception and action between mutation carriers that develop clinical symptoms and those who stay healthy in different subgroups of inherited Parkinson-dystonia syndromes. Mutation carriers with and without symptoms of three different inherited Parkinson-dystonia syndromes will be investigated at their homes with the help of a mobile examination unit. To detect even subtle signs, which the mutation carriers might not even be aware of, the investigators will use a detailed video-based and -documented movement examination and a non-invasive magnetic stimulation technique that investigates how a sensory, i.e., electrical stimulus can influence the motor response in a hand muscle. Our study will allow the investigators, on the one hand, to define specific markers that protect some mutation carriers from having clinical symptoms and, on the other hand, to identify neurophysiological characteristics that all mutation carriers share whether or not they have clinical symptoms. These are important information for a better understanding of the basis of these disorders and for the development of new treatment strategies, which can also be transferred to genetically-undefined Parkinson's and dystonia syndromes. Through this study, large groups of mutation carriers that have received an in-depth clinical and neurophysiological examination and can be investigated longitudinally in future studies will be build up.
Full description
Monogenic Parkinson-dystonia syndromes are rare but very valuable model disorders for genetically undefined syndromes, as their genetic cause, i.e., pathogenic gene variants, have been identified. For certain subtypes, even the neuroanatomical basis was discovered. Despite the different genetic and anatomical characteristics, a strong clinical overlap was reported between PARK-Parkin/PARK-PINK1, DYT/PARK-GCH1, and DYT/PARK-TAF1.
Interestingly, previous research in these different Parkinson-dystonia syndromes suggests a distinct pattern of neurophysiological alterations within the primary motor and premotor-motor network for each syndrome. Even asymptomatic, heterozygous mutation carriers, show abnormalities within neurophysiological and in addition, functional, metabolic, and structural imaging studies.
In general, a better clinical and neurophysiological evaluation of asymptomatic compared to symptomatic mutation carriers and healthy controls across subgroups is warranted. However, the number of mutation carriers per subgroup is limited and some are unable to travel to Lübeck to participate in research. To increase the participant size, in addition to the examination in our neurophysiological laboratory, the investigators want to visit and investigate some mutation carriers in their home environment with a mobile examination unit. In this regard, the transcranial magnetic stimulation paradigm of short-latency afferent inhibition (SAI) is of great interest as it can reliably capture the effects of sensory input (median nerve stimulation) on motor output (MEP amplitude) without complex neuronavigation. Additionally, a video-based clinical examination will be performed, which will be rated offline in a blinded fashion by movement disorder specialists to correlate SAI with symptom severity.
Therefore, the proposed project will, for the first time, allow a direct comparison of sensorimotor integration deficits in correlation to clinical signs between three different monogenic Parkinson-dystonia syndromes. Furthermore, contrasting the findings between asymptomatic and symptomatic mutation carriers will help, on the one hand, to draw conclusions on potential protective markers, and on the other hand, to identify neurophysiological endophenotypes. Furthermore, successful completion of the project will generate clinically well-defined monogenic subgroups with particular sensorimotor abnormalities, who can serve as model disorders in further research projects that aim to characterize sensorimotor deficit in a cognitive framework and in a longitudinal fashion.
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Inclusion criteria for mutation carriers:
Inclusion criteria for healthy control participants:
Exclusion Criteria:
120 participants in 7 patient groups
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Central trial contact
Feline Hamami, M. Sc.; Anne Weissbach, MD
Data sourced from clinicaltrials.gov
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