Dartmouth College, Department of Psychological & Brain Sciences, Hanover, New Hampshire 03755, USA.
Hippocampus. 2013 Jan;23(1):14-21. doi: 10.1002/hipo.22074. Epub 2012 Sep 21.
A recent article by Hayman, Verriotis, Jovalekic, Fenton, and Jeffery titled Anisotropic encoding of three-dimensional space by place cells and grid cells (2011) explored how place and grid cells respond when rats locomote vertically above the ground. From their results the authors concluded a number of points about rats' abilities to orient and navigate in three dimensions. Here, we review evidence revolving around several issues including: (1) what reference frame rats use when locomoting vertically, (2) whether rats can perceive their height above the ground, (3) whether rats can estimate vertical distance and have a cognitive map in the vertical domain, (4) whether rats can path integrate in the vertical domain, and (5) does processing 3-dimensional representations require a large number of neurons. We argue that the Hayman et al. results can be accounted for by considering the reference frame the animals used in the tasks. Had the rats been facing inward with their limbs in contact with the vertical surface when moving, it is possible that different patterns of place and grid cell activity would have been observed. Further, there is good evidence to indicate that rats can orient and navigate effectively in the vertical domain.
海曼、维罗里蒂斯、乔瓦列基奇、芬顿和杰弗里最近发表的一篇题为“位置细胞和网格细胞对三维空间的各向异性编码”的文章(2011 年)探讨了当老鼠在地面上方垂直运动时,位置细胞和网格细胞的反应。作者根据他们的研究结果得出了一些关于老鼠在三维空间中定向和导航能力的结论。在这里,我们回顾了一些围绕几个问题的证据,包括:(1)老鼠在垂直运动时使用的参考系,(2)老鼠是否能感知它们在地面上方的高度,(3)老鼠是否能估计垂直距离并在垂直领域有认知地图,(4)老鼠是否能在垂直领域进行路径积分,以及(5)处理三维表示是否需要大量神经元。我们认为,考虑到动物在任务中使用的参考系,海曼等人的结果是可以解释的。如果老鼠在移动时四肢与垂直表面接触,面向内部,那么可能会观察到不同的位置和网格细胞活动模式。此外,有充分的证据表明,老鼠可以在垂直领域有效地定向和导航。
