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Cyclic voltammetry as a measuring tool in Parkinson’s disease and associated psychiatric commorbidities

Published online by Cambridge University Press:  19 July 2023

C. A. Ciobanu
Affiliation:
Faculty of Medicine, “Titu Maiorescu” University, Bucharest
I. Ionita*
Affiliation:
Faculty of Medicine, “Carol Davila” University of Medicine and Pharmacy
A.-I. Mihailescu
Affiliation:
Faculty of Medicine, “Carol Davila” University of Medicine and Pharmacy Ist Department, “Prof. Dr. Alex Obregia” Hospital, Bucharest, Romania
A.-M. Ciobanu
Affiliation:
Faculty of Medicine, “Carol Davila” University of Medicine and Pharmacy Ist Department, “Prof. Dr. Alex Obregia” Hospital, Bucharest, Romania
*
*Corresponding author.

Abstract

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Introduction

Despite the rapid increase in disability and death due to Parkinson’s disease and associated psychiatric comorbidities (psychosis, depression, cognitive impairment, anxiety), the quest for a clear pathophysiological mechanism and treatment remains elusive. Numerous studies aim to identify a metabolomic fingerprint for PD and new, promising biomarkers are discovered with implications beyond neurodegenerative diseases, such as novel markers as predictors of bipolar type in depressed patients.Changes in neuronal microenvironment employ electrochemical techniques, such as cyclic voltammetry, used in both animal and human models of PD to monitor dopamine (DA) alterations in vivo, with high spatial and temporal resolution.

Objectives

Our aim is to investigate the latest scientific literature on PD and associated neuropsychiatric disorders and review the applications cyclic voltammetry has in recent technological advances in the field.

Methods

To gain a broad understanding of the subject, we have consulted multiple scientific literature databases (PubMed, Google Academic, Science Direct) using the keywords “cyclic voltammetry, Parkinson’s disease, psychiatric disorders, dopamine” and included original research articles published in the last 10 years

Results

The first in situ measurement of DA release in the human brain has been demonstrated in a sequential investment task, with implications for future research in decision-making behavior.

One study combines cyclic voltammetry and wireless telemetry for in vivo recording of changes in extracellular levels of DA, with high temporal and spatial resolution.

Disulfide nanorod-graphene-β-cyclodextrin nanocomposites biosensors have been succesfully used in detecting DA in rodent brain and human blood serum samples, with implications for minimally invasive measuring techniques.

Animal studies use cyclic voltammetry to monitor changes in DA levels in cerebrospinal fluid and plasma of mouse models of PD and investigate DA metabolism, release, uptake and receptor sensitivity in Knock-out mice, with implications for the diurnal variation of extracellular DA tone and release.Furthermore, a human alpha-synuclein-expressing mouse model of PD exhibited increased extracellular DA concentrations, decreased DA uptake and relieved paired-stimulus depression.

Conclusions

Cyclic voltammetry is a powerful tool in the expansion to humans of electrochemical recording techniques in PD. The final aim is to investigate DA neuron physiology before neurodegeneration onset and to measure neurotransmitter release in real time.

Disclosure of Interest

None Declared

Type
Abstract
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of the European Psychiatric Association
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