Number of items: 6.
Ghosh, J and Swarup, V and Saxena, A and Das, S and Hazra, A and Paira, P and Banerjee, S and Mondal, NB and Basu, A
(2008)
Therapeutic effect of a novel anilidoquinoline derivative, 2-(2-methyl-quinoline-4ylamino)-N-(2-chlorophenyl)-acetamide, in Japanese encephalitis: correlation with in vitro neuroprotection.
Int J Antimicrob Agents, 32 (4).
pp. 349-354.
Swarup, V and Ghosh, J and Das, S and Basu, A
(2008)
Tumor necrosis factor receptor-associated death domain mediated neuronal death contributes to the glial activation and subsequent neuroinflammation in Japanese encephalitis.
Neurochemistry International, 52 (7).
pp. 1310-1321.
Das, S and Mishra, MK and Ghosh, J and Basu, A
(2008)
Japanese Encephalitis Virus Infection Induce Il-18 and Il-1b in Microglia and Astrocytes: Correlation with in Vitro Cytokine Responsiveness of Glial Cells and Subsequent Neuronal Death.
Journal of Neuroimmunology, 195.
pp. 60-72.
Swarup, V and Ghosh, J and Mishra, MK and Basu, A
(2008)
Novel strategy for treatment of Japanese encephalitis using arctigenin, a plant lignan.
Jorn Antimicrob Chemotherapy, 61 (3).
pp. 679-688.
Swarup, V and Ghosh, J and Ghosh, S and Sexena, A and Basu, A
(2007)
Anti-viral and anti inflammatory effect of rosmarinic acid in an experimental murine model of Japanese encephalitis.
ANTIMICROBIAL AGENTS AND CHEMOTHERAPY, 51 (9).
pp. 3367-3370.
Swarup, V and Ghosh, J and Duseja, R and Ghosh, S and Basu, A
(2007)
Japanese encephalitis virus infection decrease endogenous IL-10 production: correlation with microglial activation and neuronal death.
Neuroscience Letters, 420 (2).
pp. 144-149.
This list was generated on Wed Dec 8 14:26:48 2021 IST.