BACKGROUND: The volatile anesthetics desflurane, isoflurane, and sevoflurane have been found to produce neuroprotection in various paradigms. The authors used these agents in a delayed preconditioning model to test the hypothesis that they could provide neuroprotection against neonatal hypoxia-ischemia as assessed by a battery of behavioral tests. METHODS: Institutional Animal Care and Use Committee approval was obtained. A total of 140, C57-129T2 F1 hybrid 9-day-old mice were randomized to 3 h of preconditioning with room air (Group Sham and Group HI), 8.4% desflurane in 40% oxygen (Group D), 1.8% isoflurane (Group I), or 3.1% sevoflurane (Group S). Twenty-four hours later, the Group HI, D, I, and S mice had 60 min of hypoxia-ischemia, and Group Sham had 60 min of sham HI. Surviving animals had behavioral testing, including open field activity, acoustic startle, prepulse inhibition, rotorod, novel object recognition, water mazes, and apomorphine challenge. Histologic analysis was also performed. RESULTS: Mice in Groups D, I, and S performed better than Group HI and similarly to Group Sham on novel object recognition and apomorphine challenge and better than Group HI but not as well as Group Sham on cued maze testing. All mice exposed to hypoxia-ischemia performed worse than Group Sham on the spatially oriented water mazes with no difference among groups. Histologic sections did not show any significant effect of preconditioning on injury scores. CONCLUSIONS: Volatile agent preconditioning partially protects perirhinal cortex and striatal dependent functions against moderate to severe neonatal hypoxia-ischemia.
BACKGROUND: The volatile anesthetics desflurane, isoflurane, and sevoflurane have been found to produce neuroprotection in various paradigms. The authors used these agents in a delayed preconditioning model to test the hypothesis that they could provide neuroprotection against neonatal hypoxia-ischemia as assessed by a battery of behavioral tests. METHODS: Institutional Animal Care and Use Committee approval was obtained. A total of 140, C57-129T2 F1 hybrid 9-day-old mice were randomized to 3 h of preconditioning with room air (Group Sham and Group HI), 8.4% desflurane in 40% oxygen (Group D), 1.8% isoflurane (Group I), or 3.1% sevoflurane (Group S). Twenty-four hours later, the Group HI, D, I, and S mice had 60 min of hypoxia-ischemia, and Group Sham had 60 min of sham HI. Surviving animals had behavioral testing, including open field activity, acoustic startle, prepulse inhibition, rotorod, novel object recognition, water mazes, and apomorphine challenge. Histologic analysis was also performed. RESULTS:Mice in Groups D, I, and S performed better than Group HI and similarly to Group Sham on novel object recognition and apomorphine challenge and better than Group HI but not as well as Group Sham on cued maze testing. All mice exposed to hypoxia-ischemia performed worse than Group Sham on the spatially oriented water mazes with no difference among groups. Histologic sections did not show any significant effect of preconditioning on injury scores. CONCLUSIONS: Volatile agent preconditioning partially protects perirhinal cortex and striatal dependent functions against moderate to severe neonatal hypoxia-ischemia.
Authors: W Zhu; L Wang; L Zhang; J M Palmateer; N L Libal; P D Hurn; P S Herson; S J Murphy Journal: Neuroscience Date: 2010-05-24 Impact factor: 3.590
Authors: Laura K Diaz; J William Gaynor; Shannon J Koh; Richard F Ittenbach; Marsha Gerdes; Judy C Bernbaum; Elaine H Zackai; Robert R Clancy; Mohamed A Rehman; Jeffrey W Pennington; Nancy Burnham; Thomas L Spray; Susan C Nicolson Journal: J Thorac Cardiovasc Surg Date: 2016-04-18 Impact factor: 5.209