Defence from Invertebrates to Mammals: Focus on Tonic Immobility
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Defence from Invertebrates to Mammals: Focus on Tonic Immobility
Carli, Giancarlo; Farabollini, Francesca
Elsevier - Health Sciences Division
03/2022
358
Dura
Inglês
9780323999731
15 a 20 dias
1000
Descrição não disponível.
1. Defensive responses in invertebrates
2. Introduction to defensive behavior in vertebrates
3. Neural circuits of fear and defensive behavior
4. Fear-associated factors modulating TI
5. Environmental, ecological and methodological factors of TI Modulation
6. The neuroethological approach to defense in rabbits
7. Neurophysiological mechanisms of TI
8. Neuromediators, brain areas and circuits involved in defense responses
9. Autonomic correlates of defense responses
10. Neuroendocrine correlates of stress and TI
11. Pain control during TI and other immobility models
12. TI as an adaptive response and a recovery mechanism promoting survival
2. Introduction to defensive behavior in vertebrates
3. Neural circuits of fear and defensive behavior
4. Fear-associated factors modulating TI
5. Environmental, ecological and methodological factors of TI Modulation
6. The neuroethological approach to defense in rabbits
7. Neurophysiological mechanisms of TI
8. Neuromediators, brain areas and circuits involved in defense responses
9. Autonomic correlates of defense responses
10. Neuroendocrine correlates of stress and TI
11. Pain control during TI and other immobility models
12. TI as an adaptive response and a recovery mechanism promoting survival
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Acetylcholine; Aggressive conspecific; Amygdala; Analgesia; Autonomic correlates; Autotomy; Behavioral flexibility; Behavioral phenotypes; Biology of defense; Body temperature; Bradycardia; Brain ablations; Brain metabolism; Cataplexy; Chickens; Chromosome 1; Coping style; Corticosteroids reactivity; Daily rhythm; Defense responses; Ecological factors; Electroencephalogram; Experimenter effect; Familiarity; Fear; Fear circuits; Fitness; Flexibility of defense responses; Freezing; GABA; Genetic correlation with behavior; Habituation; High voltage slow waves; Hippocampal activity; HPA axis; HPG axis; Hypertension; Hypothalamus; Immobility responses; Imprinting; Inescapability; Intruder test; Learning; Mobile predators; Morphological defense; Neural organization; Nuclei segregation; Ontogeny; Opioid analgesia; Opioids; Orexin; PAG; Predator; Prey/predator context; Rabbit; Rearing conditions; Recovery condition; Restraint; Restraint-sustained immobility; Seminatural setting; Sensorial input; Serotonin; Sexual conflict; Specificity prey-predator; Spinal reflexes; Static stimuli; Stress; Submissive posture; Survival; Survival response; Tachycardia; Thalamic gate; Threatening stimuli; TI adaptation; TI as a personality trait; TI correlates; TI development; TI duration; TI induction; TI models in higher invertebrates; TI modulation; TI neuro-immune mechanisms; Tonic immobility; Tonic immobility (TI); Total fitness
1. Defensive responses in invertebrates
2. Introduction to defensive behavior in vertebrates
3. Neural circuits of fear and defensive behavior
4. Fear-associated factors modulating TI
5. Environmental, ecological and methodological factors of TI Modulation
6. The neuroethological approach to defense in rabbits
7. Neurophysiological mechanisms of TI
8. Neuromediators, brain areas and circuits involved in defense responses
9. Autonomic correlates of defense responses
10. Neuroendocrine correlates of stress and TI
11. Pain control during TI and other immobility models
12. TI as an adaptive response and a recovery mechanism promoting survival
2. Introduction to defensive behavior in vertebrates
3. Neural circuits of fear and defensive behavior
4. Fear-associated factors modulating TI
5. Environmental, ecological and methodological factors of TI Modulation
6. The neuroethological approach to defense in rabbits
7. Neurophysiological mechanisms of TI
8. Neuromediators, brain areas and circuits involved in defense responses
9. Autonomic correlates of defense responses
10. Neuroendocrine correlates of stress and TI
11. Pain control during TI and other immobility models
12. TI as an adaptive response and a recovery mechanism promoting survival
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Acetylcholine; Aggressive conspecific; Amygdala; Analgesia; Autonomic correlates; Autotomy; Behavioral flexibility; Behavioral phenotypes; Biology of defense; Body temperature; Bradycardia; Brain ablations; Brain metabolism; Cataplexy; Chickens; Chromosome 1; Coping style; Corticosteroids reactivity; Daily rhythm; Defense responses; Ecological factors; Electroencephalogram; Experimenter effect; Familiarity; Fear; Fear circuits; Fitness; Flexibility of defense responses; Freezing; GABA; Genetic correlation with behavior; Habituation; High voltage slow waves; Hippocampal activity; HPA axis; HPG axis; Hypertension; Hypothalamus; Immobility responses; Imprinting; Inescapability; Intruder test; Learning; Mobile predators; Morphological defense; Neural organization; Nuclei segregation; Ontogeny; Opioid analgesia; Opioids; Orexin; PAG; Predator; Prey/predator context; Rabbit; Rearing conditions; Recovery condition; Restraint; Restraint-sustained immobility; Seminatural setting; Sensorial input; Serotonin; Sexual conflict; Specificity prey-predator; Spinal reflexes; Static stimuli; Stress; Submissive posture; Survival; Survival response; Tachycardia; Thalamic gate; Threatening stimuli; TI adaptation; TI as a personality trait; TI correlates; TI development; TI duration; TI induction; TI models in higher invertebrates; TI modulation; TI neuro-immune mechanisms; Tonic immobility; Tonic immobility (TI); Total fitness
