Hideki Kametani scite author profile

Rats with lesions in the parietal cortex or hippocampus as well as cortical lesion and sham-operated controls were tested for acquisition or retention of a cheese board spatial task (dry land version of a water maze task). Results indicated that, relative to controls, rats with hippocampal or parietal cortex lesions were impaired in both acquisition and retention of the spatial task as measured by increased distances traveled to find the correct food location. It is suggested that both the hippocampus and parietal cortex subserve spatial representations required for optimal learning and performance of the cheese board spatial task.

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Neural mechanisms of reflex facilitation and inhibition of gastric motility to stimulation of various skin areas in rats.

Kametani¹,

Sato²,

Sato³

et al. 1979

The Journal of Physiology

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SUMMARY1. Experiments were performed on chloralose-urethane anaesthetized rats to determine the involvement of extrinsic gastric autonomic nerves in reflex facilitation and inhibition of gastric motility when mechanical nociceptive stimulation was delivered to either hind paw or abdominal skin, respectively.2. After bilaterally sectioning the splanchnic nerves in vagal intact animals, the reflex facilitation of gastric motility produced by hind paw stimulation persisted, but the reflex inhibition previously produced by abdominal skin stimulation disappeared.3. Hind paw stimulation increased efferent activity of the gastric branch of the vagus nerve, but stimulation of abdominal skin had little influence.4. Bilateral vagotomy in splanchnic nerve intact animals did not influence the gastric reflex inhibition by abdominal skin stimulation, but either abolished gastric reflex facilitation produced by hind paw stimulation or reversed the reflex facilitation response to slight reflex inhibition.5. Efferent activity of the gastric sympathetic nerve was greatly increased by abdominal skin stimulation, and was either slightly increased or not influenced by hind paw stimulation.6. It was concluded that reflex increase of efferent activity of the gastric vagi was responsible for the gastric motility facilitation produced by hind paw stimulation, and also that reflexly increased efferent activity of the gastric sympathetic nerves resulted in gastric motility inhibition produced by abdominal skin stimulation. It is suggested that the involved vagal efferent fibres are facilitatory, while the implicated sympathetic efferents are inhibitory.7. After spinal transaction at the cervical level, the reflex facilitation of gastric motility previously produced by stimulation of a hind paw was completely abolished, or reversed to slight reflex inhibition, while reflex inhibition of gastric motility produced by stimulation of abdominal skin remained. It was concluded that the gastric reflex inhibition was a spinal reflex.8. Interaction between reflex facilitation and inhibition of gastric motility during simultaneous stimulation of both hind paws and abdominal skin was observed as

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Acetyl-1-carnitine 2: Effects on learning and memory performance of aged rats in simple and complex mazes

Barnes

Markowska

Ingram

et al. 1990

Neurobiology of Aging

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A new behavioral test for antidepressant drugs

Nomura¹,

Shimizu

Kinjo³

et al. 1982

European Journal of Pharmacology

100

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Hideki Kametani

Alterations in acetylcholine release in the rat hippocampus during sleep-wakefulness detected by intracerebral dialysis

Role of Parietal Cortex and Hippocampus in Representing Spatial Information

Neural mechanisms of reflex facilitation and inhibition of gastric motility to stimulation of various skin areas in rats.

Acetyl-1-carnitine 2: Effects on learning and memory performance of aged rats in simple and complex mazes

A new behavioral test for antidepressant drugs

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