The impact of diabetes on cognition: what can be learned from rodent models?
about
Insulin in central nervous system: more than just a peripheral hormoneEnergy Metabolism of the Brain, Including the Cooperation between Astrocytes and Neurons, Especially in the Context of Glycogen MetabolismRole of neuroinflammation in the emotional and cognitive alterations displayed by animal models of obesityReduced gap junctional communication among astrocytes in experimental diabetes: contributions of altered connexin protein levels and oxidative-nitrosative modifications.Sex effects of interleukin-6 deficiency on neuroinflammation in aged C57Bl/6 mice.Human cerebral neuropathology of Type 2 diabetes mellitusHyperglycaemia and diabetes impair gap junctional communication among astrocytes.Short-term environmental enrichment enhances adult neurogenesis, vascular network and dendritic complexity in the hippocampus of type 1 diabetic mice.Ameliorative effect of saffron aqueous extract on hyperglycemia, hyperlipidemia, and oxidative stress on diabetic encephalopathy in streptozotocin induced experimental diabetes mellitus.Neuroinflammation and neurologic deficits in diabetes linked to brain accumulation of amylin.Caffeine consumption prevents diabetes-induced memory impairment and synaptotoxicity in the hippocampus of NONcZNO10/LTJ mice.Cognitive function in adult offspring of women with gestational diabetes--the role of glucose and other factorsCorrelations between hippocampal neurogenesis and metabolic indices in adult nonhuman primates.Diabetes and insulin in regulation of brain cholesterol metabolismCan Tea Consumption be a Safe and Effective Therapy Against Diabetes Mellitus-Induced Neurodegeneration?Avocado Oil Improves Mitochondrial Function and Decreases Oxidative Stress in Brain of Diabetic Rats.Tangzhining exhibits a protective effect against cognitive dysfunction in diabetic rats.Increased oxidative stress and imbalance in antioxidant enzymes in the brains of alloxan-induced diabetic rats.Concurrent activation of the somatosensory forebrain and deactivation of periaqueductal gray associated with diabetes-induced neuropathic painA potential role for the hippocampus in energy intake and body weight regulationHyperamylinemia as a risk factor for accelerated cognitive decline in diabetesIntraneuronal Amylin Deposition, Peroxidative Membrane Injury and Increased IL-1β Synthesis in Brains of Alzheimer's Disease Patients with Type-2 Diabetes and in Diabetic HIP Rats.IGF-IR in neuroprotection and brain tumors.Effects of diabetes on brain metabolism--is brain glycogen a significant player?Insulin as a Bridge between Type 2 Diabetes and Alzheimer Disease - How Anti-Diabetics Could be a Solution for Dementia.Changes in Synaptic Plasticity and Glutamate Receptors in Type 2 Diabetic KK-Ay Mice.High-glucose and S100B stimulate glutamate uptake in C6 glioma cells.Forebrain-Specific Transgene Rescue of 11β-HSD1 Associates with Impaired Spatial Memory and Reduced Hippocampal Brain-Derived Neurotrophic Factor mRNA Levels in Aged 11β-HSD1 Deficient Mice.Diabetes and stem cell function.Effect of pregabalin on contextual memory deficits and inflammatory state-related protein expression in streptozotocin-induced diabetic mice.Insulin-like growth factor-I-forkhead box O transcription factor 3a counteracts high glucose/tumor necrosis factor-α-mediated neuronal damage: implications for human immunodeficiency virus encephalitis.Obesity and type 2 diabetes in rats are associated with altered brain glycogen and amino-acid homeostasis.Stem cell factor protects against neuronal apoptosis by activating AKT/ERK in diabetic mice.Aminoguanidine changes hippocampal expression of apoptosis-related genes, improves passive avoidance learning and memory in streptozotocin-induced diabetic rats.Beneficial effects of Brassica juncea on cognitive functions in rats.Pyrroloquinoline quinone ameliorates oxidative stress and lipid peroxidation in the brain of streptozotocin-induced diabetic mice.Diabetes-Induced Dysfunction of Mitochondria and Stem Cells in Skeletal Muscle and the Nervous System.Impairment of amyloid precursor protein alpha-processing in cerebral microvessels of type 1 diabetic mice.Improvement of spatial learning and memory, cortical gyrification patterns and brain oxidative stress markers in diabetic rats treated with Ficus deltoidea leaf extract and vitexin.Effect of streptozotocin-induced diabetes on performance on a progressive ratio schedule.
P2860
Q21296648-CF4CC159-396E-4214-B5D5-1E55AFCE3D98Q26777075-91B2ADD6-50D8-47ED-BBF6-F3D6A70A7CBCQ26802171-68301AD9-5EE3-42FD-86D6-60FBDC7ABDB1Q28564310-E32E5E17-D4D7-4188-95EC-2D96EF98EB29Q33678988-48B7D093-D199-43F6-8D2A-BEAC1CE2F31FQ33710643-D3982BCC-C473-477B-A073-49A744303B0DQ33731300-57A52160-32DA-4120-84E9-93DD993F7074Q33749947-0507ED2B-54B6-4AC4-9A61-6714C13946F6Q33994002-C60E6C12-AB9E-4DB5-ABA3-04823CB7BFEAQ34089002-31C56787-DD80-489B-9200-8BCD6DA3C5E1Q34238362-EF8A0A9E-1172-40D4-805D-BCEF2CF1EDE2Q34806467-DBD83D4F-F984-4021-B102-D69B34725F5CQ35151617-2F354424-5C43-440B-A910-2DF3A6E2FD5AQ35499561-8C7425D0-541F-45D4-971B-A9AD86B86D48Q35595418-9154C600-7C72-46A7-A10A-7CFDAEC02F10Q35768737-E651F07F-8502-444F-AF6A-3768C35F5F61Q35958912-022743E3-4BEE-4F32-9391-F7FD62252229Q35975176-BA710BA1-4B71-43EC-9606-D50696D1FDB5Q36334332-5BE72ADD-E08D-49C9-A214-99A9A189A6F2Q36420777-F45A87E1-1B90-484B-AEAD-F820A2967D5EQ37019858-57B77FCB-4AB8-4B02-8070-1CA02C104664Q37037394-8CF1C5A7-3143-42F9-8237-B3925DAB6255Q37409955-DD4B2553-DC29-4368-99D3-D2E9FF92648CQ38207528-7E92C22B-82A0-4518-BFF4-1FF2A5E32576Q38234927-30A05642-6051-4AA4-903B-119E19359E2CQ38901575-3B33AB76-DA38-4280-B054-164C2D5972DDQ39391777-1D113A3C-BC63-4B8F-8C3B-FC69205FF06DQ40469920-A706930C-962A-4BE3-A4E4-BD51CECD8C57Q41443846-205A043E-5527-4E05-A59E-E2BB1DE44C7DQ41568885-C029BC15-7397-4581-B065-C870C8527805Q41821482-2E8C769A-B242-4751-AC06-9A33037EA693Q42062215-6459DCB2-14A9-4D19-987A-FCB65F23CCDEQ43267365-A877CFE7-FA74-47EB-AA1E-246197FEC6F4Q45784169-75DC50AC-B54A-4699-BA65-FD33E5289DDDQ46241212-6BBC9CCE-8D15-45D0-94DC-EAC9BDF8B9C0Q46802926-F30E8447-C1E5-4E44-96BF-5D8651710E1EQ47130139-C5940FF4-A8B7-4525-AAA9-DFFF843B7933Q47282106-3F522FD6-FE70-4E25-9BCB-D484A7B7A9EAQ47722159-D8C6EC72-18DF-42EA-8B1C-D89E770325FFQ47812135-26911833-E799-4BB8-B8A8-9B2E2067F8B8
P2860
The impact of diabetes on cognition: what can be learned from rodent models?
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
The impact of diabetes on cognition: what can be learned from rodent models?
@ast
The impact of diabetes on cognition: what can be learned from rodent models?
@en
type
label
The impact of diabetes on cognition: what can be learned from rodent models?
@ast
The impact of diabetes on cognition: what can be learned from rodent models?
@en
prefLabel
The impact of diabetes on cognition: what can be learned from rodent models?
@ast
The impact of diabetes on cognition: what can be learned from rodent models?
@en
P1476
The impact of diabetes on cognition: what can be learned from rodent models?
@en
P2093
Geert Jan Biessels
Willem Hendrik Gispen
P356
10.1016/J.NEUROBIOLAGING.2005.08.015
P478
26 Suppl 1
P577
2005-10-11T00:00:00Z