In an attempt to distinguish hypothesized rapid and slow components, w
e have systematically studied the time course of hippocampal neuronal
death in an in vitro model of excitotoxicity. In all paradigms involvi
ng glutamate, NMDA or AMPA as toxins, the population of trypan-blue ex
cluding (live) neurons progressively declined over 48 hr. The percent
survival over time could be fit mathematically using single exponentia
l decay curves, implying that the death of any individual neuron was a
stochastic event. One or two hours after glutamate exposure, preventi
on of further glutamate-receptor interactions by addition of MK-801 or
MK-801 plus CNQX resulted in the survival of 60-80% of the original p
opulation at 24 hr. Thus delayed, continuous blockade of secondary glu
tamate receptor stimulation was protective, apparently interrupting th
e cyclic nature of the toxicity cascade. Twelve hours of MK-801 immedi
ately following glutamate removal protected the majority of cells duri
ng the period of active receptor blockade. As soon as MK-801 was remov
ed, the progressive decay in population size resumed, indicating that
short term receptor blockade was insufficient to prevent expression of
the initial injury, A kinetic model is proposed to place these experi
mental results into a framework for discussion and formulation of futu
re experimentation.