Imagem da capa

Implante neural controlado em malha fechada

One of the challenges to biomedical engineers proposed by researchers in neuroscience is brain machine interaction. The nervous system communicates by interpreting electrochemical signals, and implantable circuits make decisions in order to interact with the biological environment. It is well known...

ver descrição completa

Autor principal: Araujo, Carlos Eduardo de
Formato: Tese
Idioma: Português
Publicado em: Universidade Tecnológica Federal do Paraná 2016
Assuntos:
Prótese
Dopamina
Estimulação neural
Interface cérebro-computador
Controle automático
Software - Desenvolvimento
Simulação (Computadores)
Engenharia biomédica
Engenharia elétrica
Prosthesis
Dopamine
Neural stimulation
Brain-computer interfaces
Automatic control
Computer software - Development
Computer simulation
Biomedical engineering
Electric engineering
CNPQ::ENGENHARIAS::ENGENHARIA BIOMEDICA
Acesso em linha: http://repositorio.utfpr.edu.br/jspui/handle/1/1687
Tags: Adicionar Tag
Sem tags, seja o primeiro a adicionar uma tag!
Resumo: One of the challenges to biomedical engineers proposed by researchers in neuroscience is brain machine interaction. The nervous system communicates by interpreting electrochemical signals, and implantable circuits make decisions in order to interact with the biological environment. It is well known that Parkinson’s disease is related to a deficit of dopamine (DA). Different methods has been employed to control dopamine concentration like magnetic or electrical stimulators or drugs. In this work was automatically controlled the neurotransmitter concentration since this is not currently employed. To do that, four systems were designed and developed: deep brain stimulation (DBS), transmagnetic stimulation (TMS), Infusion Pump Control (IPC) for drug delivery, and fast scan cyclic voltammetry (FSCV) (sensing circuits which detect varying concentrations of neurotransmitters like dopamine caused by these stimulations). Some softwares also were developed for data display and analysis in synchronously with current events in the experiments. This allowed the use of infusion pumps and their flexibility is such that DBS or TMS can be used in single mode and other stimulation techniques and combinations like lights, sounds, etc. The developed system allows to control automatically the concentration of DA. The resolution of the system is around 0.4 µmol/L with time correction of concentration adjustable between 1 and 90 seconds. The system allows controlling DA concentrations between 1 and 10 µmol/L, with an error about +/- 0.8 µmol/L. Although designed to control DA concentration, the system can be used to control, the concentration of other substances. It is proposed to continue the closed loop development with FSCV and DBS (or TMS, or infusion) using parkinsonian animals models.

Registros relacionados