Pawlyk Aaron C, Jha Sushil K, Brennan Francis X, Morrison Adrian R, Ross Richard J
Laboratory for the Study of the Brain in Sleep, Department of Animal Biology, University of Pennsylvania School of Veterinary Medicine, Philadelphia, Pennsylvania, USA.
Biol Psychiatry. 2005 Feb 1;57(3):268-77. doi: 10.1016/j.biopsych.2004.11.008.
A prominent sleep disturbance, likely including a disruption of rapid eye movement sleep (REMS) continuity, characterizes posttraumatic stress disorder (PTSD). We set out to develop a fear conditioning paradigm in rats that displays alterations in sleep architecture analogous to those in PTSD.
Baseline polysomnographic recordings of rats were performed in a neutral context to which the rats had been habituated for several days. Rats were then shock- or mock-trained in a distinctly different context, and their sleep was studied the following day in that context. A separate group of rats was shock-trained and studied in the neutral context on the following 2 days.
Rats that slept in the neutral context exhibited a REMS-selective increase in sleep 24 hours after training and increases in REMS and non-REMS 48 hours after training. In contrast, rats that slept in the presence of situational reminders of the training context exhibited a REMS-selective decrease in sleep 24 hours later. Animals that were mock-trained showed no changes in sleep.
Shock training induced days-long changes in sleep architecture that were disrupted when the animal was exposed to situational reminders of the training context.
创伤后应激障碍(PTSD)的一个突出睡眠障碍,可能包括快速眼动睡眠(REMS)连续性的破坏。我们着手开发一种大鼠恐惧条件反射范式,该范式显示出与PTSD中类似的睡眠结构改变。
在大鼠已适应数天的中性环境中进行基线多导睡眠图记录。然后在一个明显不同的环境中对大鼠进行电击或假训练,并在第二天在该环境中研究它们的睡眠。另一组大鼠接受电击训练,并在接下来的2天内在中性环境中进行研究。
在中性环境中睡眠的大鼠在训练后24小时出现REM睡眠选择性增加,在训练后48小时出现REM睡眠和非REM睡眠增加。相比之下,在存在训练环境情境提示的情况下睡眠的大鼠在24小时后出现REM睡眠选择性减少。接受假训练的动物睡眠无变化。
电击训练诱导了长达数天的睡眠结构变化,当动物暴露于训练环境的情境提示时,这些变化被破坏。