Difference between revisions of "BiologicalArchitectureModulation"
From aHuman Wiki
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* mind contains components which affect large mind areas at once | * mind contains components which affect large mind areas at once | ||
| − | * these components are affected by quite specific circuits and change the mode in which brain is operating | + | ** these components are affected by quite specific circuits and change the mode in which brain is operating |
| − | * components are utilizing specific neurotransmitters - DA, 5HT, ACh, NE for its efferent connections | + | ** components are utilizing specific neurotransmitters - DA, 5HT, ACh, NE for its efferent connections |
| − | * non-specific modulators allow the mind to work as a single unit, by means of coordinating | + | ** non-specific modulators allow the mind to work as a single unit, by means of coordinating internal parts |
* sample behavior of modulators: | * sample behavior of modulators: | ||
** DA circuit to speed up execution: habenula -> SNc -> striatum (D1+,D2-) -> ventroanterior thalamus (reduce inhibition) -> M1 (increased activity) -> motoneuron | ** DA circuit to speed up execution: habenula -> SNc -> striatum (D1+,D2-) -> ventroanterior thalamus (reduce inhibition) -> M1 (increased activity) -> motoneuron | ||
Latest revision as of 22:18, 7 December 2015
Biological Life Research
Home -> BiologicalLifeResearch -> BiologicalArchitecture -> BiologicalArchitectureModulation
This page covers biological principles of non-specific modulation.
Overview
- mind contains components which affect large mind areas at once
- these components are affected by quite specific circuits and change the mode in which brain is operating
- components are utilizing specific neurotransmitters - DA, 5HT, ACh, NE for its efferent connections
- non-specific modulators allow the mind to work as a single unit, by means of coordinating internal parts
- sample behavior of modulators:
- DA circuit to speed up execution: habenula -> SNc -> striatum (D1+,D2-) -> ventroanterior thalamus (reduce inhibition) -> M1 (increased activity) -> motoneuron
- 5HT circuit to go asleep: habenula -> dorsal raphe nucleus -> paraventricular thalamus -> hypothalamus -> body
- ACh circuit to control perception vs imaginaton: amygdala -> basal nucleus of Meynert -> prefrontal cortex (-feedforward,+feedback)
- NE circuit to adopt to pain: spinal cord substantia gelatinosa -> lateral spinal nucleus -> hypothalamus -> locus coeruleus -> spinal cord substantia gelatinosa (inhibit)
