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Results:
1-13
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Results: 13
Authors:
Lievre, V
Becuwe, P
Bianchi, A
Bossenmeyer-Pourie, C
Koziel, V
Franck, P
Nicolas, MB
Dauca, M
Vert, P
Daval, JL
Citation: V. Lievre et al., Intracellular generation of free radicals and modifications of detoxifyingenzymes in cultured neurons from the developing rat forebrain in response to transient hypoxia, NEUROSCIENC, 105(2), 2001, pp. 287-297
Authors:
El-Bacha, RDS
Daval, JL
Netter, P
Minn, A
Citation: Rds. El-bacha et al., Is apomorphine neurotoxic?, BIOG AMINE, 16(4-5), 2001, pp. 463-471
Authors:
Grojean, S
Lievre, V
Koziel, V
Vert, P
Daval, JL
Citation: S. Grojean et al., Bilirubin exerts additional toxic effects in hypoxic cultured neurons fromthe developing rat brain by the recruitment of glutamate neurotoxicity, PEDIAT RES, 49(4), 2001, pp. 507-513
Authors:
El-Bacha, RD
Daval, JL
Koziel, V
Netter, P
Minn, A
Citation: Rd. El-bacha et al., Toxic effects of apomorphine on rat cultured neurons and glial C6 cells, and protection with antioxidants, BIOCH PHARM, 61(1), 2001, pp. 73-85
Authors:
Lievre, V
Becuwe, P
Bianchi, A
Koziel, V
Franck, P
Schroeder, H
Nabet, P
Dauca, M
Daval, JL
Citation: V. Lievre et al., Free radical production and changes in superoxide dismutases associated with hypoxia/reoxygenation-induced apoptosis of embryonic rat forebrain neurons in culture, FREE RAD B, 29(12), 2000, pp. 1291-1301
Authors:
Bossenmeyer-Pourie, C
Koziel, V
Daval, JL
Citation: C. Bossenmeyer-pourie et al., Involvement of caspase-1 proteases in hypoxic brain injury. Effects of their inhibitors in developing neurons, NEUROSCIENC, 95(4), 2000, pp. 1157-1165
Authors:
Bayol-Denizot, C
Daval, JL
Netter, P
Minn, A
Citation: C. Bayol-denizot et al., Xenobiotic-mediated production of superoxide by primary cultures of rat cerebral endothelial cells, astrocytes, and neurones, BBA-MOL CEL, 1497(1), 2000, pp. 115-126
Authors:
Bossenmeyer-Pourie, C
Koziel, V
Daval, JL
Citation: C. Bossenmeyer-pourie et al., Effects of hypothermia on hypoxia-induced apoptosis in cultured neurons from developing rat forebrain: Comparison with preconditioning, PEDIAT RES, 47(3), 2000, pp. 385-391
Authors:
Grojean, S
Koziel, V
Vert, P
Daval, JL
Citation: S. Grojean et al., Bilirubin induces apoptosis via activation of NMDA receptors in developingrat brain neurons, EXP NEUROL, 166(2), 2000, pp. 334-341
Authors:
Doriat, JF
Koziel, V
Humbert, AC
Daval, JL
Citation: Jf. Doriat et al., Repeated seizure-associated long-lasting changes of N-methyl-D-aspartate receptor properties in the developing rat brain, INT J DEV N, 17(4), 1999, pp. 369-376
Authors:
Bossenmeyer-Pourie, C
Chihab, R
Schroeder, H
Daval, JL
Citation: C. Bossenmeyer-pourie et al., Transient hypoxia may lead to neuronal proliferation in the developing mammalian brain: From apoptosis to cell cycle completion, NEUROSCIENC, 91(1), 1999, pp. 221-231
Authors:
Bossenmeyer-Pourie, C
Koziel, V
Daval, JL
Citation: C. Bossenmeyer-pourie et al., CPP32/CASPASE-3-like proteases in hypoxia-induced apoptosis in developing brain neurons, MOL BRAIN R, 71(2), 1999, pp. 225-237
Authors:
Chihab, R
Ferry, C
Koziel, V
Monin, P
Daval, JL
Citation: R. Chihab et al., Sequential activation of activator protein-1-related transcription factorsand JNK protein kinases may contribute to apoptotic death induced by transient hypoxia in developing brain neurons, MOL BRAIN R, 63(1), 1998, pp. 105-120
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1-13
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