The scopolamine model was used in cognitive research to study th

The scopolamine model was used in cognitive research to study the clinical correlates of ACh deficiency (see reference 21 for a review). It was applied to elderly subjects

and AD patients22-33 as a marker of cholinergic sensitivity, with the purpose of improving the diagnosis and staging of the disease. It failed, however, to predict cognitive decline on the basis of the subjects’ sensitivity.34 Calcitriol in vitro Animal studies assessing the reversal of scopolamineinduced memory impairment by various compounds are too numerous to be cited exhaustively. This approach has also been used in humans with the following molecules: Inhibitors,research,lifescience,medical physostigmine,35-40 velnacrine,40 choline,41 RO 15-1788,39 moclobemide,42,43 RU 41656,44 L-α-glycerylphosphoryleholine,45 Inhibitors,research,lifescience,medical oxiracetam,46 aniracetam and piracetam,47 tenilsetam,48 BMY 21502,49 D-cycloserine,50 SDZ ENS-163,51 and ZK-93426.52 However, the scopolamine model has not become a standard tool in the early assessment of drugs. One reason for this is that the cognitive

changes induced by scopolamine do not really mimic the AD picture. The details Inhibitors,research,lifescience,medical of the differences listed in Figure 1 (based on references 28, 40, and 53-63) are open to discussion, but there is a general agreement on the fact that, as Wesnes40 wrote, all the scopolamine-induced deficiencies are also observed Inhibitors,research,lifescience,medical in AD, while the reverse is not always true. The same is observed in neurological investigations. The electrophysiological effects of scopolamine (reviewed in reference 64) are close on EEG and similar on visual evoked potentials to those of AD. In PET65-68 and single photon emission computed tomography (SPECT)69 studies, scopolamine induces cerebral blood flow (CBF) and glucose metabolism changes, which are sometimes Inhibitors,research,lifescience,medical divergent and region-specific, but in all cases different from the pattern observed in AD. Figure 1. Memory dysfuction in Alzheimer’s disease (AD) and after scopolamine or ketamine The ketamine model Ketamine is a noncompetitive

N-methyl-D-aspartate (NMDA) receptor antagonist.70-71 Its administration in order to produce a model is the correlate of the glutamatergic hypothesis of AD (reviewed in reference 72). Two, apparently opposite, glutamatergic hypotheses have been proposed. The excitotoxic hypothesis states that there is a glutamatergic hyperactivity enough in AD. Domoic acid poisoning in humans was responsible for irreversible memory loss.73 Neuronal74 and astroglial75 glutamate transporter dysfunction in AD could result in excess glutamate in the synaptic cleft and in excitotoxic neuronal damage. This hypothesis is consistent with the beneficial effects of memantine76 and lamotrigine77 in AD patients. Some findings provide a link with the histopathological lesions that are the hallmarks of AD.

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