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Journal of Alzheimers Disease & Parkinsonism | ISSN: 2161-0460 | Volume: 8

October 19-20, 2018 | New York, USA

5

th

International Conference on

Parkinson’s disease and Movement Disorders

Differentiating Parkinson’s dementia from other types of dementia

D

iagnosis of Parkinson’s dementia is mostly clinical. However, there are many forms of demetia. Treatment approach of

some forms of demetia is different from those of the Parkinson’s type. For example dementia due to Alzheimer’s disease are

dependent on acetyl choline neurotransmission while Parkinson’s demetia is due to dysregulated dopamine neurotransmission.

Because of subjective nature of clinical diagnosis, many patients are misdiagnosed with a different type of dementia, resulting

in patients receiving wrong treatment. It is therefore important to have a diagnostic method that allows us to differentiate

dopamine and acetyl choline dependent dementia. A novel neuroimaging technique that we recently developed could be

useful in this context. The technique called single scan dynamic molecular imaging technique (SDMIT) uses positron emission

tomography (PET) to detect, map and measure dopamine released acutely during cognitive or behavioral processing. It exploits

the competition between a neurotransmitter and its receptor ligand for occupancy of the same receptor site. In this technique

after patients are positioned in the PET camera, a radio-labeled neurotransmitter ligand is injected intravenously and the PET

data acquisition started. These data are used by a receptor kinetic model to detect, map and measure neurotransmitter released

dynamically in different brain areas. Patients are asked to perform a cognitive task while in the scanner and the amount of

neurotransmitter released in different brain areas measured. By comparing it with the data acquired in age-matched healthy

volunteers during performance of a similar task, it is possible to determine which neurotransmitter release is dysregulated

in the patients and whether the dysregulation is responsible for clinical symptoms. Finding of a significant dysregulation

of dopaminergic neurotransmission would indicate a diagnosis of Parkinson’s dementia while dysregulated acetyl choline

neurotransmission would suggest dementia of Alzheimer’s type.

Biography

Rajendra D Badgaiyan, MD, is a psychiatrist and cognitive neuroscientist. He is Chairman of the Department of Psychiatry and Behavioral Sciences at Richmond

University Medical Center, and Professor of Psychiatry at Icahn School of Medicine at Mount Sinai in New York. He received formal training in psychiatry, psychology,

cognitive neuroscience, molecular imaging and neuroimaging. He was awarded the prestigious BK Anand National Research Prize in India and Solomon Award of

Harvard Medical School. His research is focused on the study of neural and neurochemical mechanisms that control human brain functions. He developed the single

scan dynamic molecular imaging technique (SDMIT) to detect, map, and measure neurotransmitters released acutely in the human brain during task performance.

This technique is now used in laboratories all over the world. Using this technique, he studies dopaminergic control of human cognition and behavior. He is also

interested in learning the nature of dysregulated dopamine neurotransmission in psychiatric and neuropsychiatric conditions. His research is funded by NIMH,

NINDS, VA, and various foundations. Previously he served in the faculty of Harvard Medical School, SUNY Buffalo and University of Minnesota. He has published

extensively in peer-reviewed journals.

sbadgaiyan@gmail.com

Rajendra D Badgaiyan

Icahn School of Medicine at Mt Sinai, USA

Rajendra D Badgaiyan, J Alzheimers Dis Parkinsonism 2018, Volume 8

DOI: 10.4172/2161-0460-C6-050