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1 y improves the resistance of MILS neurons to glutamate toxicity.
2 lpha inhibitors as potent protectors against glutamate toxicity.
3 abilities to protect retinal neurons against glutamate toxicity.
4 in turn heightens neuronal vulnerability to glutamate toxicity.
5 osure to oxygen-glucose deprivation (OGD) or glutamate toxicity.
6 n in rat primary cortical neurons exposed to glutamate toxicity.
7 preconditioning of neurons against Abeta and glutamate toxicity.
8 I; blocking IL-1beta may usefully counteract glutamate toxicity.
9 val and protection of glial progenitors from glutamate toxicity.
10 r neuron degeneration, both based in part on glutamate toxicity.
11 tase inhibitors, 17beta-estradiol attenuated glutamate toxicity.
12 ceptors protected motor neurons from chronic glutamate toxicity.
13 ns from hydrogen peroxide and nonexcitotoxic glutamate toxicity.
14 tor and markedly increases susceptibility to glutamate toxicity.
15 of the hippocampal slice preparation against glutamate toxicity.
16 neuropathological conditions associated with glutamate toxicity.
17 tive oxygen species from mitochondria during glutamate toxicity.
18 y a variety of reagents that block oxidative glutamate toxicity.
19 ed excitotoxicity can be caused by oxidative glutamate toxicity.
20 e and a form of cell injury called oxidative glutamate toxicity.
21 mature primary cortical neuron cultures from glutamate toxicity.
22 tion and impaired [Ca2+]c homeostasis during glutamate toxicity.
23 ured primary neurons were also salvaged from glutamate toxicity.
24 the deregulation of [Ca2+]i associated with glutamate toxicity.
25 -derived neurotrophic factor (BDNF) prevents glutamate toxicity.
26 e toxicity, and exogenous PC-PLC potentiates glutamate toxicity.
27 , memantine was partially protective against glutamate toxicity.
28 tecting ganglion cells from chronic low-dose glutamate toxicity.
29 agents that block monoamine uptake inhibits glutamate toxicity.
33 fficient strategy to prevent the detrimental glutamate toxicity and further studies are warranted to
34 aying a role in the subsequent inducement of glutamate toxicity and loss of proline neuroprotective e
36 impulse transmission include nodal widening, glutamate toxicity, and disturbances of both the blood-b
38 heir ability to protect cells from oxidative glutamate toxicity, and protection appears to take place
39 d mitochondrial potential (DeltaPsim) during glutamate toxicity, and to define the mechanisms underly
40 eath following BDNF withdrawal may be due to glutamate toxicity, as the N-methyl-d-aspartate (NMDA) r
41 and mature cells (5+ days in vitro) against glutamate toxicity, but its precise mechanism is still u
42 eurons and spinal cord motor neurons against glutamate toxicity, but the protection was lost in neuro
45 chniques, we examined whether IL-10 prevents glutamate toxicity by blocking the function of NMDA chan
51 e neurotrophin-mediated neuroprotection from glutamate toxicity in cultured neurons at 2 weeks in vit
52 articles containing TRH was assessed against glutamate toxicity in cultured rat fetal hippocampal neu
53 lar signal-regulated kinases-1/2 (ERK1/2) in glutamate toxicity in HT22 cells and immature embryonic
55 Understanding of the mechanisms underlying glutamate toxicity in multiple sclerosis could help in t
57 europrotective effect of TRH/analogs against glutamate toxicity in primary hippocampal neuronal cultu
58 brinal, induces resistance against oxidative glutamate toxicity in the hippocampal cell line HT22 and
59 However, haloperidol effectively blocked glutamate toxicity in the same cultures, suggesting that
60 also protected mitochondrial function under glutamate toxicity, including maintaining mitochondrial
67 rs expressed on axons, or indirectly through glutamate toxicity of myelin or neighboring glial cells.
68 ns that were subjected to potassium removal, glutamate toxicity, or 6-hydroxydopamine treatment and f
69 es caspase-independent cell death induced by glutamate toxicity, oxidative stress, hypoxia, or ischem
70 neuron cultures subjected to AMPA-R-mediated glutamate toxicity suffered up to 40% less damage than u
71 ic nerve, elevated intraocular pressure, and glutamate toxicity, the immune modulator glatiramer acet
73 ovide evidence that in a neuronal cell line, glutamate toxicity via the oxidative pathway requires mo
75 erability of cultured hippocampal neurons to glutamate toxicity was greater in cells lacking gelsolin
80 ole of ROS in cell death caused by oxidative glutamate toxicity was studied in an immortalized mouse
81 Using a spinal cord culture model of chronic glutamate toxicity, we show herein that a synthetic 44 m
82 s of PEDF against both induced apoptosis and glutamate toxicity were blocked by the addition of eithe
83 f ROS production and protect HT22 cells from glutamate toxicity when added early in the death program
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