A behavioral analysis of the impact of voluntary physical activity on hippocampus-dependent contextual conditioning.
about
All about running: synaptic plasticity, growth factors and adult hippocampal neurogenesisNeurobiological mechanisms supporting experience-dependent resistance to social stressLong term running biphasically improves methylglyoxal-related metabolism, redox homeostasis and neurotrophic support within adult mouse brain cortexVoluntary exercise during extinction of auditory fear conditioning reduces the relapse of fear associated with potentiated activity of striatal direct pathway neuronsExercise offers anxiolytic potential: a role for stress and brain noradrenergic-galaninergic mechanisms.Interpreting the effects of exercise on fear conditioning: the influence of time of day.Effects of voluntary wheel running on heart rate, body temperature, and locomotor activity in response to acute and repeated stressor exposures in rats.Voluntary exercise offers anxiolytic potential and amplifies galanin gene expression in the locus coeruleus of the rat.Glutamate transporters are differentially expressed in the hippocampus during the early stages of one-day spatial learning task.Maintenance of dominance status is necessary for resistance to social defeat stress in Syrian hamstersAge-specific effects of voluntary exercise on memory and the older brainExercise moderates age-related atrophy of the medial temporal lobe.BDNF expression in perirhinal cortex is associated with exercise-induced improvement in object recognition memoryMemory impairments in healthy aging: Role of aging-induced microglial sensitization.Rationale for Using Exercise in the Treatment of Stimulant Use Disorders.Physiological consequences of repeated exposures to conditioned fear.The effects of two forms of physical activity on eyeblink classical conditioning.Bidirectional metabolic regulation of neurocognitive function.Voluntary running in young adult mice reduces anxiety-like behavior and increases the accumulation of bioactive lipids in the cerebral cortex.Little exercise, big effects: reversing aging and infection-induced memory deficits, and underlying processesStimulant reduction intervention using dosed exercise (STRIDE) - CTN 0037: study protocol for a randomized controlled trialPhysical exercise enhances cognitive flexibility as well as astrocytic and synaptic markers in the medial prefrontal cortexThe moderating role of exercise on stress-related effects on the hippocampus and memory in later adulthood.Developmental trajectory of contextual learning and 24-h acetylcholine release in the hippocampus.A bout of voluntary running enhances context conditioned fear, its extinction, and its reconsolidationStress-protective neural circuits: not all roads lead through the prefrontal cortex.Acute exercise enhances the consolidation of fear extinction memory and reduces conditioned fear relapse in a sex-dependent manner.Voluntary wheel running enhances contextual but not trace fear conditioning.Winning agonistic encounters increases testosterone and androgen receptor expression in Syrian hamsters.Changes in mRNA levels for brain-derived neurotrophic factor after wheel running in rats selectively bred for high- and low-aerobic capacityEffects of Environmental Enrichment on Doublecortin and BDNF Expression along the Dorso-Ventral Axis of the Dentate Gyrus.A single bout of resistance exercise improves memory consolidation and increases the expression of synaptic proteins in the hippocampus.The 5-HT3 receptor is essential for exercise-induced hippocampal neurogenesis and antidepressant effects.Exercise and Implicit Memory: A Brief Systematic Review.Central monoaminergic systems are a site of convergence of signals conveying the experience of exercise to brain circuits involved in cognition and emotional behavior.Voluntary exercise does not ameliorate context memory and hyperarousal in a mouse model for post-traumatic stress disorder (PTSD).Emotional consequences of wheel running in mice: which is the appropriate control?The Benefits of Exercise on Structural and Functional Plasticity in the Rodent Hippocampus of Different Disease Models.A Larger Social Network Enhances Novel Object Location Memory and Reduces Hippocampal Microgliosis in Aged Mice.
P2860
Q27011760-5EB670A8-584C-42DE-AE39-C83C52FF8C2DQ28082484-3D20FC90-D135-4C3E-AC2F-A7C9B0AEDBE6Q28480569-C4BDDD3B-92B6-4C14-AC56-320C73E92608Q30371197-4F4DF05A-74BA-4333-B6D0-E517D76EEADCQ30387419-2D3CEB98-2FC5-4AC3-93F9-7BDCC9ACADE8Q30408795-86AD6CD9-7627-408E-B594-AF16E4379D39Q30409224-C440F37D-3A58-445C-B9F9-E908D45E7111Q30452222-4623489D-574E-44DD-96B7-DBA6142CB40FQ33783285-3F2AA076-1A69-4AA9-85D6-F9BD688C44B3Q33850277-51B522E7-6590-4803-B577-898D1F056F36Q33926236-7F43F670-093C-4055-9D4D-523BB9E48604Q33940161-71A6DF19-FC93-4B4D-8129-B7F60283B036Q34095501-8AAE2175-2330-4F5B-BE81-3A233B88E196Q34368916-62098F36-33BD-40E2-B46C-148220C7AD7BQ34427065-C536415E-969C-42A7-93FD-0EB087C83757Q34443051-06157F1B-25DE-4FE9-9421-025CF79593CFQ34708999-B29F686E-9700-4B70-8A51-B24B1CF9D583Q34884241-E6263A9E-5439-4BAF-A27A-10DCD6D65564Q35069599-054DFD76-A81E-4799-81A2-C1F2692206BEQ35208481-AE060301-E964-47E7-9F41-E1FAACE788F0Q35318875-03E703E5-7C1C-40FB-883D-9B59BC6BEE19Q35566025-3D656CBB-EE94-4D85-AB4B-83412E4327ADQ35809683-987530B0-5211-42BC-911E-EBB750128696Q37489245-703DE9E8-6D86-47B2-9025-B876F11E7240Q37491511-B4D23AC2-1486-4597-9ABF-442DAFB8DFACQ38097890-77544E7C-7E97-4CC5-9BBE-283833F58AEFQ38674849-F35BE32A-0A87-48B5-9753-D7DC3852A213Q38769133-F1F2073A-7A6A-40A3-87A8-418C1379049BQ38807409-015B6CBB-746A-4E26-9122-41C3EE192FB4Q41778852-DCA84D21-D9E9-4234-84BF-D0645851B62AQ42173293-2DE87310-CF09-40E5-A182-3C441C04E6AAQ47447679-1FDB0731-0EBC-480E-A804-A06536240DA1Q47709435-9F3345B2-705E-4602-BE4D-BCC6A5AA2A02Q48315233-77C9C0FC-4AE9-4B1F-8C3E-229E19374B9BQ50318790-EC204474-3557-4F9E-89E4-86EB7BCEAF6CQ50620451-DC983951-9DDA-421A-A0D2-0D0CE444424AQ50702475-C36FCD38-FC5B-4E97-86F6-33A91D76BB1BQ54945662-4C16E547-04D5-4BFA-8396-7882EFB94809Q55341873-52EDE5AE-DC62-4088-A996-8A99390810CE
P2860
A behavioral analysis of the impact of voluntary physical activity on hippocampus-dependent contextual conditioning.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
2009年论文
@zh
2009年论文
@zh-cn
name
A behavioral analysis of the i ...... ndent contextual conditioning.
@ast
A behavioral analysis of the i ...... ndent contextual conditioning.
@en
type
label
A behavioral analysis of the i ...... ndent contextual conditioning.
@ast
A behavioral analysis of the i ...... ndent contextual conditioning.
@en
prefLabel
A behavioral analysis of the i ...... ndent contextual conditioning.
@ast
A behavioral analysis of the i ...... ndent contextual conditioning.
@en
P2093
P2860
P356
P1433
P1476
A behavioral analysis of the i ...... ndent contextual conditioning.
@en
P2093
Benjamin N Greenwood
Paul V Strong
Teresa E Foley
P2860
P304
P356
10.1002/HIPO.20534
P577
2009-10-01T00:00:00Z