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(Stroke. 1997;28:1043-1048.)
© 1997 American Heart Association, Inc.

Articles

Chronic Cerebral Hypoperfusion Inhibits Calcium-Induced Long-term Potentiation in Rats

Lali H. S. Sekhon, MB, BS, PhD; Ian Spence, BSc, PhD; Michael K. Morgan, MD, FRACS; Neville C. Weber, MSc, PhD

From the Departments of Surgery (L.H.S.S., M.K.M) and Pharmacology (I.S.) and the School of Mathematics and Statistics (N.C.W.), University of Sydney (Australia).

Background and Purpose Long-term potentiation (LTP) in the rat hippocampus induced by tetanic stimulation is impaired by chronic cerebral hypoperfusion. The effects of chronic cerebral hypoperfusion on other forms of LTP are unknown. Such data could help delineate the pathways of cellular alteration caused by chronic cerebral hypoperfusion. The in vitro phenomenon of calcium-induced LTP was thus examined in rat hippocampal CA1 cells that had undergone chronic hypoperfusion with a reduction in cerebral blood flow of between 25% and 50% maintained for 26 weeks.

Methods Ten Sprague-Dawley rats had a cervical arteriovenous fistula surgically constructed, and an additional 10 animals were used as age-matched controls. Hippocampal slices were prepared after 26 weeks of hypoperfusion, and in vitro extracellular field potential recordings were taken from the Schäffer collateral CA1 region. Properties of LTP induced through transient exposure to a hypercalcemic solution were analyzed.

Results LTP was impaired in animals with an arteriovenous fistula (P<.05). Control animals demonstrated potentiation lasting for the entire 2 hours of recording, whereas fistula animals showed only transient potentiation (<60 minutes) before returning to baseline values.

Conclusions Calcium-induced LTP is impaired by chronic cerebral hypoperfusion. This form of LTP is different from that induced by tetanic stimulation. It is the most sensitive test available for in vitro detection of the changes induced in neuronal function by chronic noninfarctional reductions in cerebral blood flow of 25% to 50% and may indicate that the most basic cellular parameters involving calcium homeostasis and metabolism are being altered. The precise mechanisms remain to be elucidated, and several postulates are discussed.

Key Words: arteriovenous shunt, surgical • calcium • hippocampus • hypoperfusion • potentiation • rats

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