An integrated real-time system for multimodal monitoring of Traumatic Brain Injury (TBI)

Ramaswamy, Bharat Ram

11 October 2012

No description available.

Electrical Engineering

Traumatic Brain Injury (TBI)

multimodal monitoring

LabVIEW

Lab-on-a-tube catheter

real-time

Monitoring nervového systému u pacientů s kraniocerebrálním poraněním - role sestry / Monitoring of the nervous system of patients with craniocerebral injury - Nurse's role

VANIŠOVÁ, Štěpánka

January 2019

This theoretical thesis focuses on monitoring of nervous system of patients with craniocerebral injury and the nurse´s role in the problem. Its aim was to provide a general and comprehensive overview of craniocerebral injury and also the monitoring options of nervous system of patients with this particular injury, and to map out the nurse´s role in monitoring of nervous system of patients with craniocerebral injury. In order to achieve the objectives, the method of review and data synthesis was employed. The sources for the thesis were sought out through professional foreign databases, internet browsers and with the help of catalogues and databases of libraries. It was drawn from professional literature, both domestic and foreign, in electronic and printed form. Owing to the development of technologies, new monitoring techniques of nervous system appear in clinical practice. Such techniques are somewhere considered standard, elsewhere they are only being introduced or there has been no experience with such techniques at all. The nurses working with patients with craniocerebral injury should have sufficient information on this problem. Unfortunately, literature dealing with this issue and intended for nurses is scarce in domestic sources. Thus the theses might at least partially serve as a study material both for nurses and students. In the thesis, patophysiology of craniocerebral disease is clarified as well as current most often applied methods of monitoring of nervous system of patients with craniocerebral injury, both abroad and in our country. In the next part of the thesis, the individual monitoring methods are supplemented by information used especially by the nurses working with patients with craniocerebral injury in Intensive Care Units.

Multimodal assessment of Parkinson's disease using electrophysiology and automated motor scoring

Sanders, Teresa H.

05 April 2014

A suite of signal processing algorithms designed for extracting information from brain electrophysiology and movement signals, along with new insights gained by applying these tools to understanding parkinsonism, were presented in this dissertation. The approach taken does not assume any particular stimulus, underlying activity, or synchronizing event, nor does it assume any particular encoding scheme. Instead, novel signal processing applications of complex continuous wavelet transforms, cross-frequency-coupling, feature selection, and canonical correlation were developed to discover the most significant electrophysiologic changes in the basal ganglia and cortex of parkinsonian rhesus monkeys and how these changes are related to the motor signs of parkinsonism. The resulting algorithms effectively characterize the severity of parkinsonism and, when combined with motor signal decoding algorithms, allow technology-assisted multi-modal grading of the primary pathological signs. Based on these results, parallel data collection algorithms were implemented in real-time embedded software and off-the-shelf hardware to develop a new system to facilitate monitoring of the severity of Parkinson's disease signs and symptoms in human patients. Off -line analysis of data collected with the system was subsequently shown to allow discrimination between normal and simulated parkinsonian conditions. The main contributions of the work were in three areas: 1) Evidence of the importance of optimally selecting multiple, non-redundant features for understanding neural information, 2) Discovery of signi ficant correlations between certain pathological motor signs and brain electrophysiology in different brain regions, and 3) Implementation and human subject testing of multi-modal monitoring technology.

Electrophysiology

Parkinson's disease

Multimodal monitoring

Signal processing

Cross-frequency-coupling

Optimal feature selection

Parkinson's disease

Electrophysiology

Signal processing

Motion detectors

Algorithms

Avaliação da autorregulação cerebral dinâmica através da reatividade cerebrovascular em suíno com volume expansivo por balão simulando aumento de hematoma intracerebral / Evaluation of dynamic cerebral autoregulation through cerebrovascular reactivity in a swine model with expansive volume of a balloon simulating an increase of a intracerebral hematoma

Patriota, Gustavo Cartaxo

15 September 2017

INTRODUÇÃO: A autorregulação cerebral representa um dos mecanismos fisiopatológicos incertos na hemorragia intracerebral espontânea, cujo comprometimento pode influenciar no resultado prognóstico e terapêutico. O objetivo deste trabalho é avaliar a autorregulação cerebral dinâmica em modelo suíno de hemorragia intracerebral espontânea através do índice de reatividade pressórica cerebrovascular e determinar a eficácia das intervenções clínicas e cirúrgicas. MÉTODOS: Foram estudados 21 suínos híbridos machos com idade de 3 meses. O modelo experimental simulou o efeito expansivo de uma hemorragia intracerebral espontânea de grande volume quando comparado ao cérebro humano. Foram avaliados volumes de expansão diferentes, distribuídos em três grupos com sete suínos cada. O protocolo anestésico incluiu uma monitoração hemodinâmica invasiva associada a preservação da autorregulação cerebral. Os experimentos foram submetidos a monitoração neurológica multimodal e divididos em 5 fases. O índice de reatividade pressórica cerebrovascular estimou a autorregulacão cerebral durante todas as fases, sendo as três primeiras sem intervenções terapêuticas e as duas últimas para avaliar a eficácia das intervenções salina hipertônica e cirurgia. RESULTADOS: Os grupos avaliados foram homogêneos e sem diferença estatística quanto ao comprometimento da autorregulação cerebral comparando os diferentes volumes e tempos de compressão durante as duas primeiras horas da expansão do volume intracraniano. O comprometimento do índice de reatividade pressórica cerebrovascular ocorreu em alguns experimentos influenciando nas fases de tratamento subsequentes, salina hipertônica e cirurgia. CONCLUSÕES: Volumes expansivos elevados podem comprometer a autorregulação cerebral dinâmica e apresentar desfecho terapêutico desfavorável. A intervenção clínica e cirúrgica tem benefício nos experimentos com preservação do índice de reatividade pressórica cerebrovascular / INTRODUCTION: Cerebral autoregulation represents one of the uncertain pathophysiological mechanisms in spontaneous intracerebral hemorrhage, whose impairment may influence prognostic and therapeutic outcome. The aim of this study was to evaluate the dynamic cerebral autoregulation in the swine model of spontaneous intracerebral hemorrhage through the cerebrovascular reactivity index and to determine the efficacy of clinical and surgical interventions. METHODS: Twenty-one male hybrid pigs aged 3 months were studied. The experimental model simulated the expansive effect of a large intracerebral hemorrhage when compared to the human brain. Different volumes were evaluated, distributed in three groups with seven pigs each. Each experiment was divided in five phases. The anesthetic protocol included invasive hemodynamic monitoring associated with the preservation of cerebral autoregulation. Multimodallity monitoring was realised in all experiments. The cerebrovascular reactivity index estimated the cerebral autoregulation during all phases. The first three phases were without therapeutic interventions, and the last two phases were with therapeutic intervention of hypertonic saline solution and neurosurgery respectively. RESULTS: The evaluated groups were homogeneous and without statistical difference regarding the impairment of the cerebral autoregulation comparing different volumes and compression times during the first two hours of the intracranial volume expansion. CONCLUSIONS: Elevated expansive volumes may compromise dynamic cerebral autoregulation and have unfavorable therapeutic outcome. Clinical and surgical intervention had benefit in the experiments with preservation of cerebrovascular reactivity index

Autorregulação cerebral

Hemorragia intracerebral espontânea

Hipertensão intracraniana

Intracranial hypertension

Monitoração multimodal

Neurocirurgia

Neurosurgical procedures

Reatividade cerebrovascular

Solução salina hipertônica

Spontaneous intracranial hemorrhage

Avaliação da autorregulação cerebral dinâmica através da reatividade cerebrovascular em suíno com volume expansivo por balão simulando aumento de hematoma intracerebral / Evaluation of dynamic cerebral autoregulation through cerebrovascular reactivity in a swine model with expansive volume of a balloon simulating an increase of a intracerebral hematoma

Gustavo Cartaxo Patriota

15 September 2017

INTRODUÇÃO: A autorregulação cerebral representa um dos mecanismos fisiopatológicos incertos na hemorragia intracerebral espontânea, cujo comprometimento pode influenciar no resultado prognóstico e terapêutico. O objetivo deste trabalho é avaliar a autorregulação cerebral dinâmica em modelo suíno de hemorragia intracerebral espontânea através do índice de reatividade pressórica cerebrovascular e determinar a eficácia das intervenções clínicas e cirúrgicas. MÉTODOS: Foram estudados 21 suínos híbridos machos com idade de 3 meses. O modelo experimental simulou o efeito expansivo de uma hemorragia intracerebral espontânea de grande volume quando comparado ao cérebro humano. Foram avaliados volumes de expansão diferentes, distribuídos em três grupos com sete suínos cada. O protocolo anestésico incluiu uma monitoração hemodinâmica invasiva associada a preservação da autorregulação cerebral. Os experimentos foram submetidos a monitoração neurológica multimodal e divididos em 5 fases. O índice de reatividade pressórica cerebrovascular estimou a autorregulacão cerebral durante todas as fases, sendo as três primeiras sem intervenções terapêuticas e as duas últimas para avaliar a eficácia das intervenções salina hipertônica e cirurgia. RESULTADOS: Os grupos avaliados foram homogêneos e sem diferença estatística quanto ao comprometimento da autorregulação cerebral comparando os diferentes volumes e tempos de compressão durante as duas primeiras horas da expansão do volume intracraniano. O comprometimento do índice de reatividade pressórica cerebrovascular ocorreu em alguns experimentos influenciando nas fases de tratamento subsequentes, salina hipertônica e cirurgia. CONCLUSÕES: Volumes expansivos elevados podem comprometer a autorregulação cerebral dinâmica e apresentar desfecho terapêutico desfavorável. A intervenção clínica e cirúrgica tem benefício nos experimentos com preservação do índice de reatividade pressórica cerebrovascular / INTRODUCTION: Cerebral autoregulation represents one of the uncertain pathophysiological mechanisms in spontaneous intracerebral hemorrhage, whose impairment may influence prognostic and therapeutic outcome. The aim of this study was to evaluate the dynamic cerebral autoregulation in the swine model of spontaneous intracerebral hemorrhage through the cerebrovascular reactivity index and to determine the efficacy of clinical and surgical interventions. METHODS: Twenty-one male hybrid pigs aged 3 months were studied. The experimental model simulated the expansive effect of a large intracerebral hemorrhage when compared to the human brain. Different volumes were evaluated, distributed in three groups with seven pigs each. Each experiment was divided in five phases. The anesthetic protocol included invasive hemodynamic monitoring associated with the preservation of cerebral autoregulation. Multimodallity monitoring was realised in all experiments. The cerebrovascular reactivity index estimated the cerebral autoregulation during all phases. The first three phases were without therapeutic interventions, and the last two phases were with therapeutic intervention of hypertonic saline solution and neurosurgery respectively. RESULTS: The evaluated groups were homogeneous and without statistical difference regarding the impairment of the cerebral autoregulation comparing different volumes and compression times during the first two hours of the intracranial volume expansion. CONCLUSIONS: Elevated expansive volumes may compromise dynamic cerebral autoregulation and have unfavorable therapeutic outcome. Clinical and surgical intervention had benefit in the experiments with preservation of cerebrovascular reactivity index

Autorregulação cerebral

Hemorragia intracerebral espontânea

Hipertensão intracraniana

Monitoração multimodal

Neurocirurgia

Reatividade cerebrovascular

Solução salina hipertônica

Intracranial hypertension

Neurosurgical procedures

Spontaneous intracranial hemorrhage