Ketogenic Diet: Effects on Expression of Kindled Seizures and Behavior in Adult Rats
Version of Record online: 3 AUG 2005
Volume 38, Issue 7, pages 750–758, July 1997
How to Cite
Hori, A., Tandon, P., Holmes, G. L. and Stafstrom, C. E. (1997), Ketogenic Diet: Effects on Expression of Kindled Seizures and Behavior in Adult Rats. Epilepsia, 38: 750–758. doi: 10.1111/j.1528-1157.1997.tb01461.x
- Issue online: 3 AUG 2005
- Version of Record online: 3 AUG 2005
- Accepted March 25, 1997.
- Ketogenic diet;
- charge threshold;
- Water maze
Summary: Purpose: Despite use of the ketogenic diet (KD) for >75 years its effectiveness or mechanism of action has been examined in few animal studies. Using the kindling model of epilepsy, we tested the anticonvulsant effectiveness and behavioral consequences of an experimental KD in adult rats.
Methods: Rats fully kindled from the amygdala were divided into KD-fed or standard rat diet-fed groups; diet treatment continued for 5 weeks. The KD approximated at 4:l (“classic”) ketogenic diet and consisted (by weight) of 70% fat, 14% protein, no carbohydrate, and appropriate vitamins, minerals and fiber; 92% of energy provided was contributed by fat and 8% was contributed by protein. Afterdischarge threshold and duration (ADT, ADD) and stage 5 seizure threshold and duration (ST, SD) were assessed weekly for 5 weeks. During week 3, learning and memory were tested by the water maze and the behavioral response to a novel environment was assessed by the open field test.
Results: Rats receiving the KD became ketonemic and had weight gains similar to those of control rats. As compared with rats receiving a standard diet, those fed the KD had an elevated ADT and ST for the first 2 weeks of treatment. The control and KD-fed groups did not differ with regard to ADD or SD at any time during the study, and both groups performed similarly in the water maze and open field test.
Conclusions: In the kindling model, the KD afforded transient protection against the focal generation of kindled seizures but not seizure spread. Rats that received the KD did not perform differently from control-fed rats on spatial learning or exploratory behavior tasks. Our results provide a promising model for study of the anticonvulsant mechanisms of ketosis.