Klidový energetický výdej a nutriční příjem pacientů s karcinomem pankreatu před elektivní pankreatektomií / Resting energy expenditure and nutritional intake in patients with pancreatic cancer before elective pancreatectomy

Heniková, Marina

January 2020

Aims: The aim of this work was to determine whether a increased resting energy expenditure contributes to the nutritional risk for patients with pancreatic cancer. What the variability of resting energy expenditure is and whether it predicts weight loss. Another aim was to verify that lower protein-energy intake also has an impact on weight loss. Methods: Data for the diploma thesis were obtained from the project "Pancreatic Cancer: Metabolic Derangements Associated With Insulin Resistance", which takes place at the Department of Clinical Physiology of Metabolism at 2nd Department of internal medicine in the University Hospital Královské Vinohrady. The project includes 40 - 50 patients with pancreatic tumor resection per year. Data were collected from the beginning of December 2019 until the end of April 2020. The project is funded by the grant AZV NV19-01-00101. 10 consecutive patients (4 women and 6 men) with pancreatic cancer who had a complete dataset for analysis were selected for the research set for the diploma thesis. The patients underwent anthropometric examination, blood tests were taken, and indirect calorimetry was performed. Results: The first part of the research was focused on anthropometric parameters, parameters of nutritional status and the presence of cancer cachexia. The second...

Modelo neurocomputacional dos estágios iniciais da doença de Alzheimer / Neurocomputational model of the initial phases of Alzheimer\'s disease

Furucho, Mariana Antonia Aguiar

27 November 2017

Há evidências convincentes de que o início da doença de Alzheimer é precedido por uma redução de estímulos sensoriais, como ocorre durante a aposentadoria, catarata, surdez e degeneração macular, em um cérebro idoso que apresenta deficiência de receptores tipo GABAA. Neste trabalho foi utilizado um modelo computacional fenomenológico do koniocortex, que é a primeira camada cortical que recebe estímulos sensoriais, adaptado para simular as fases iniciais da doença de Alzheimer. A arquitetura e as propriedades dos neurônios do modelo computacional do koniocortex se assemelham as do cérebro, sendo também capaz de aprender, permitindo com isso que a memória de curto prazo seja testada em qualquer momento. Usando o modelo computacional é possível também analisar as fases iniciais da doença de Alzheimer simulando o \"envelhecimento\" do koniocortex artificial através de um conjunto de parâmetros referentes à plasticidade intrínseca, à acetilcolina, aos estímulos sensoriais, ao pruning sináptico, entre outros. O modelo computacional revela que, quando o envelhecimento afeta os neurônios que expressam receptores GABA-A ocorrendo na sequência uma redução dos estímulos sensoriais, o resultado dessa cascata de eventos leva ao hipermetabolismo e ao início da fase de deposição excessiva das placas -amiloide / There is compelling evidence that Alzheimers disease onset is preceded by a reduction of sensory stimuli like during job retirement, cataract, deafness or even macular degeneration, over an aged brain with impaired GABA-A receptor inhibitions. In this paper, was adapted a phenomenological computational model of the koniocortex which is the first cortical layer that receives sensory stimuli to simulate the initial phases of Alzheimers disease. The architecture and neurons properties of the modeled koniocortex resemble those of the brain, so that the model is also able to learn, thereby allowing the assessment of short-term memory at any moment. By using the computational model, it is possible to analyze the initial phases of Alzheimers disease by aging the artificial koniocortex through a set of parameters related to intrinsic plasticity, acetylcholine, sensory stimuli, synaptic pruning, among others. The computational model shows that when aging occurs in such way that GABA-A receptor expressing neurons are affected, and, in the sequence, a reduction of sensory stimuli takes place, the result of this cascade of events leads to hypermetabolism and to the initial phase excessive deposition of beta-amyloid plaques

Alzheimers disease

Computational model

Doença de Alzheimer

GABA-A

GABA-A

Hipermetabolismo

Hypermetabolism

Intrinsic plasticity

Koniocortex

Koniocortex

Modelo computacional

Normalização

Normalization

Plasticidade intrínseca

Redução de estímulos sensoriais

Reduction of sensory stimuli

Modelo neurocomputacional dos estágios iniciais da doença de Alzheimer / Neurocomputational model of the initial phases of Alzheimer\'s disease

Mariana Antonia Aguiar Furucho

27 November 2017

Há evidências convincentes de que o início da doença de Alzheimer é precedido por uma redução de estímulos sensoriais, como ocorre durante a aposentadoria, catarata, surdez e degeneração macular, em um cérebro idoso que apresenta deficiência de receptores tipo GABAA. Neste trabalho foi utilizado um modelo computacional fenomenológico do koniocortex, que é a primeira camada cortical que recebe estímulos sensoriais, adaptado para simular as fases iniciais da doença de Alzheimer. A arquitetura e as propriedades dos neurônios do modelo computacional do koniocortex se assemelham as do cérebro, sendo também capaz de aprender, permitindo com isso que a memória de curto prazo seja testada em qualquer momento. Usando o modelo computacional é possível também analisar as fases iniciais da doença de Alzheimer simulando o \"envelhecimento\" do koniocortex artificial através de um conjunto de parâmetros referentes à plasticidade intrínseca, à acetilcolina, aos estímulos sensoriais, ao pruning sináptico, entre outros. O modelo computacional revela que, quando o envelhecimento afeta os neurônios que expressam receptores GABA-A ocorrendo na sequência uma redução dos estímulos sensoriais, o resultado dessa cascata de eventos leva ao hipermetabolismo e ao início da fase de deposição excessiva das placas -amiloide / There is compelling evidence that Alzheimers disease onset is preceded by a reduction of sensory stimuli like during job retirement, cataract, deafness or even macular degeneration, over an aged brain with impaired GABA-A receptor inhibitions. In this paper, was adapted a phenomenological computational model of the koniocortex which is the first cortical layer that receives sensory stimuli to simulate the initial phases of Alzheimers disease. The architecture and neurons properties of the modeled koniocortex resemble those of the brain, so that the model is also able to learn, thereby allowing the assessment of short-term memory at any moment. By using the computational model, it is possible to analyze the initial phases of Alzheimers disease by aging the artificial koniocortex through a set of parameters related to intrinsic plasticity, acetylcholine, sensory stimuli, synaptic pruning, among others. The computational model shows that when aging occurs in such way that GABA-A receptor expressing neurons are affected, and, in the sequence, a reduction of sensory stimuli takes place, the result of this cascade of events leads to hypermetabolism and to the initial phase excessive deposition of beta-amyloid plaques

Doença de Alzheimer

GABA-A

Hipermetabolismo

Koniocortex

Modelo computacional

Normalização

Plasticidade intrínseca

Redução de estímulos sensoriais

Alzheimers disease

Computational model

GABA-A

Hypermetabolism

Intrinsic plasticity

Koniocortex

Normalization

Reduction of sensory stimuli