Okuno S, Sakurada K, Ohta H, Ikegaya H, Kazui Y, Akutsu T, Takatori T, Iwadate K (2008)
Blood-brain barrier penetration of novel pyridinealdoxime methiodide (PAM)-type oximes examined by brain microdialysis with LC-MS/MS
Toxicol Appl Pharmacol 227: 8

Ohta H, Ohmori T, Suzuki S, Ikegaya H, Sakurada K, Takatori T (2006)
New safe method for preparation of sarin-exposed human erythrocytes acetylcholinesterase using non-toxic and stable sarin analogue isopropyl p-nitrophenyl methylphosphonate and its application to evaluation of nerve agent antidotes
Pharm Res 23: 2827

Sakurada K, Ikegaya H, Ohta H, Akutsu T, Takatori T (2006)
Hydrolysis of an acetylthiocholine by pralidoxime iodide (2-PAM)
Toxicol Lett 166: 255

Nagao M, Takatori T, Maeno Y, Isobe I, Koyama H, Tsuchimochi T (2003)
Development of forensic diagnosis of acute sarin poisoning
Leg Med (Tokyo) 5 Suppl 1: S34

Sakurada K, Matsubara K, Shimizu K, Shiono H, Seto Y, Tsuge K, Yoshino M, Sakai I, Mukoyama H, Takatori T (2003)
Pralidoxime iodide (2-pAM) penetrates across the blood-brain barrier
Neurochem Res 28: 1401

Niijima H, Nagao M, Nakajima M, Takatori T, Matsuda Y, Iwase H, Kobayashi M (1999)
Sarin-like and soman-like organophosphorous agents activate PLCgamma in rat brains
Toxicol Appl Pharmacol 156: 64

Matsuda Y, Nagao M, Takatori T, Niijima H, Nakajima M, Iwase H, Kobayashi M, Iwadate K (1998)
Detection of the sarin hydrolysis product in formalin-fixed brain tissues of victims of the Tokyo subway terrorist attack
Toxicol Appl Pharmacol 150: 310

Nagao M, Takatori T, Matsuda Y, Nakajima M, Iwase H, Iwadate K (1997)
Definitive evidence for the acute sarin poisoning diagnosis in the Tokyo subway
Toxicol Appl Pharmacol 144: 198

Nagao M, Takatori T, Matsuda Y, Nakajima M, Niijima H, Iwase H, Iwadate K, Amano T (1997)
Detection of sarin hydrolysis products from sarin-like organophosphorus agent-exposed human erythrocytes
Journal of Chromatography B Biomed Sci Appl 701: 9