Analytic Model of fMRI BOLD Signals for Separable Metrics of Neural and Metabolic Activity

Schaper, Charles

doi:10.1101/573006

Cited by 2 publications

(5 citation statements)

References 30 publications

(23 reference statements)

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“…The rationale for incorporating the rate of change as a signal of the internal controller, which is first described in earlier work of this lab [19], is that the concentration gradient at the synaptic cleft or within the cytoplasm will define the speed and amplitude of the internal responses, such as temperature and fatigue. The concentration gradient is associated with an open system and subject to second order partial differential equations of a flow fields.…”

Section: Feedback Controlmentioning

confidence: 99%

Identifying Integrative Molecular Pathways for Predictive Modeling of Infectious Disease

Schaper

2019

Preprint

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The signs and symptoms of infectious disease are similar in presentation, such as fever and fatigue, but differ in magnitude, duration, and sequence. Although observable responses of dysfunction are well characterized, the integrative system mechanisms driving such trajectories are poorly known, even during normative circumstances. Here, molecular pathways are presented that enable predictive modeling of autonomic dysfunction due to infectious agents, and that illustrate a coordinating integration of body system dynamics. To arrive at this result, a molecular model is presented which shows, for the first time, that the hormone cortisol (CORT) and prostaglandin E2 (PGE2) have approximately equivalent chemical affinity, as indicated by the positioning of functional groups in hydrogen bonding and hydrophobicity, with the ligand binding domain of the glucocorticoid receptor (GR). A mathematical model is developed to predict that the signs and symptoms of illnesses are associated with the competitive inhibition at the GR of CORT and PGE2 within the hypothalamus that prevents normal gene expression during DNA transcription. To validate the pathways and model, a case study is presented to analyze the cause and presentation of fever and fatigue over multiple days due to the injection of a pneumococcal vaccine as influenced by physical activity. The research provides quantitative understanding of the root causes of signs and symptoms of infectious disease, which for example can offer a quantitative explanation of common symptomatic concerns of illness, such as fever, and can result in optimal drug treatment plans to minimize the effects of ailments. * charlesschaper@comcast.net Graphical Abstract

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Section: Feedback Controlmentioning

confidence: 99%

Identifying Integrative Molecular Pathways for Predictive Modeling of Infectious Disease

Schaper

2019

Preprint

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“…The key “players” of the system are neuroactivating ion-conducting systems. As in most neurodynamic processes, the final stage of a nerve impulse is the inclusion of Ca 2+ ions in the process. , In the case of neurovascular coupling, the key role of the calcium ions is the activation of two fundamentally important participants in the processphospholipase A 2 and NO synthase. Calcium ions activate phospholipase A 2 , which is a product of arachidonic acid, and ultimately activate the synthesis of a vasodilator prostaglandin (PG) producer.…”

Section: Resultsmentioning

confidence: 99%

“…Dynamics of Ca 2+ ions and R changes in system (1) over time. (a) The results of the calculations of system (1) are normalized by the amplitude of the variables; (b) data from ref .…”

Section: Resultsmentioning

confidence: 99%

“…When the parameters ( k ′ = 0.5 s –1 , σ 1 = 0.25 s –1 , and σ 2 = 0.56 s –1 ) are chosen, the theoretical dynamics of the neuronal and metabolic responses of the system effectively describe the “classical” ratio of dynamic responses at neuronal and biochemical stages (Figure ). For comparison, the data from ref are shown in Figure . An adequate agreement of the results is observed.…”

Section: Resultsmentioning

confidence: 99%

“…The neurovasodilator effect can be reasonably classified into two stages: neuronal and metabolic. A formal cybernetic analysis was given in ref 21.…”

Section: ■ Introductionmentioning

confidence: 99%

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Dynamics of the Multipathway Regulation of the Vasodilator Bold Effect Induced by a Nerve Impulse: A Kinetic Model of the Neurovascular Coupling Process

Варфоломеев

Bykov

Семенова

et al. 2021

ACS Chem. Neurosci.

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A kinetic model of the dynamics of a multipathway mechanism of neurovascular coupling induced by nerve impulses was constructed. The model calculations were compared with experimental data on the changes in the blood oxygen level dependent signal during sensory-motor and visual excitation before and after the use of the nonsteroidal anti-inflammatory drug indomethacin. The influence of the catalytic activity of key enzymes on the dynamics of the neurovascular response in the proposed model is shown. The multipathway mechanism of the biochemical reactions provides stability of the neurovascular coupling during various possible catalytic activities of the key enzymes in the process.

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Analytic Model of fMRI BOLD Signals for Separable Metrics of Neural and Metabolic Activity

Cited by 2 publications

References 30 publications

Identifying Integrative Molecular Pathways for Predictive Modeling of Infectious Disease

Identifying Integrative Molecular Pathways for Predictive Modeling of Infectious Disease

Dynamics of the Multipathway Regulation of the Vasodilator Bold Effect Induced by a Nerve Impulse: A Kinetic Model of the Neurovascular Coupling Process

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