N shown to reduce Ab aggregation and toxicity [18,19], participate to mitochondrial

N shown to reduce Ab aggregation and toxicity [18,19], participate to mitochondrial protection [20] and promote hippocampal neurogenesis [21]. EGb761H has been also shown to decrease blood viscosity and enhance microperfusion [22]. Several studies on rats models also showed that EGb 761H improves neurotransmission, in particular glutamatergic [23], dopaminergic and cholinergic system [24,25]. Therefore, EGb761H can really be considered as a multi-target drug. Recent reviews and meta-analyses of randomised controlled trials concluded that EGb761H is effective in the treatment of patients with dementia, including Alzheimer’s disease, vascular 58-49-1 web dementia and mixed forms [26,27], in particular in demented patients with neuropsychiatric symptoms [27?0]. Regarding prevention, only one KDM5A-IN-1 observational study carried out in a cohort of elderly women has so far suggested the beneficial effect of vasodilators, including G. biloba, in delaying the onset of dementia [31]. However, two clinical trials, i.e. the GEM (for Ginkgo Evaluation of Memory) study conducted in 3069 participants aged 75 and over with mild cognitive impairment [32] and the GuidAge study conducted in 2854 participants aged 70 and over and reporting memory complaints [33] failed to confirm such results. In these studies, G. biloba at 120 mg twice a day was not effective in reducing the overall incidence of dementia or Alzheimer’s disease. However, in both studies, as in another more limited feasibility trial [34], dementia was the main efficacy criteria and the follow-up period was relatively short (3.5 years in Dodge’s study ; 6.1 years in the GEM study ; 5 years in the GuidAge study). Due to the particularly long pre-dementia phase of Alzheimer’s disease, which is known to progress over decades, expecting a positive effect 11967625 of G. biloba on the incidence of dementia over a period of 3 to 6 years would imply that G. biloba has a direct effect on the neurodegenerative process itself, which is probably an overoptimistic hypothesis. Another alternative interpretation of these negative results might be that G. biloba is no longer effective once the neurodegenerative process of dementia is too advanced. In this case, dementia outcome over a relatively short follow-up would not be the most relevant outcome to assess the efficacy of G. biloba on cognitive aging. Therefore, determining whether G. biloba is associated with long-term cognitive decline may be of interest in order to understand more clearly the usefulness of such treatment in the elderly. This paper reports the effect of G. biloba on long-term cognitive decline within the PAQUID study. The PAQUID study is a large population-based study conducted in France, which has now 20 years of completed follow-up. As such, it is one of the largest and longest-running prospective studies of the natural history of cognitive decline and the incidence of dementia to have been performed. In this study, the rate of cognitive decline of elderly people reporting use of EGb761H was compared to that of participants reporting use of piracetam, another nootropic agent prescribed for memory impairment in subjects without dementia. Both groups were compared to those participants reporting use of neither of these drugs. The rate of cognitive decline was assessed over a period of 20 years during which cognition has been repeatedly assessed in a standardized manner with three common neuropsychological tests. Due to possible confounding effects of psychotropic.N shown to reduce Ab aggregation and toxicity [18,19], participate to mitochondrial protection [20] and promote hippocampal neurogenesis [21]. EGb761H has been also shown to decrease blood viscosity and enhance microperfusion [22]. Several studies on rats models also showed that EGb 761H improves neurotransmission, in particular glutamatergic [23], dopaminergic and cholinergic system [24,25]. Therefore, EGb761H can really be considered as a multi-target drug. Recent reviews and meta-analyses of randomised controlled trials concluded that EGb761H is effective in the treatment of patients with dementia, including Alzheimer’s disease, vascular dementia and mixed forms [26,27], in particular in demented patients with neuropsychiatric symptoms [27?0]. Regarding prevention, only one observational study carried out in a cohort of elderly women has so far suggested the beneficial effect of vasodilators, including G. biloba, in delaying the onset of dementia [31]. However, two clinical trials, i.e. the GEM (for Ginkgo Evaluation of Memory) study conducted in 3069 participants aged 75 and over with mild cognitive impairment [32] and the GuidAge study conducted in 2854 participants aged 70 and over and reporting memory complaints [33] failed to confirm such results. In these studies, G. biloba at 120 mg twice a day was not effective in reducing the overall incidence of dementia or Alzheimer’s disease. However, in both studies, as in another more limited feasibility trial [34], dementia was the main efficacy criteria and the follow-up period was relatively short (3.5 years in Dodge’s study ; 6.1 years in the GEM study ; 5 years in the GuidAge study). Due to the particularly long pre-dementia phase of Alzheimer’s disease, which is known to progress over decades, expecting a positive effect 11967625 of G. biloba on the incidence of dementia over a period of 3 to 6 years would imply that G. biloba has a direct effect on the neurodegenerative process itself, which is probably an overoptimistic hypothesis. Another alternative interpretation of these negative results might be that G. biloba is no longer effective once the neurodegenerative process of dementia is too advanced. In this case, dementia outcome over a relatively short follow-up would not be the most relevant outcome to assess the efficacy of G. biloba on cognitive aging. Therefore, determining whether G. biloba is associated with long-term cognitive decline may be of interest in order to understand more clearly the usefulness of such treatment in the elderly. This paper reports the effect of G. biloba on long-term cognitive decline within the PAQUID study. The PAQUID study is a large population-based study conducted in France, which has now 20 years of completed follow-up. As such, it is one of the largest and longest-running prospective studies of the natural history of cognitive decline and the incidence of dementia to have been performed. In this study, the rate of cognitive decline of elderly people reporting use of EGb761H was compared to that of participants reporting use of piracetam, another nootropic agent prescribed for memory impairment in subjects without dementia. Both groups were compared to those participants reporting use of neither of these drugs. The rate of cognitive decline was assessed over a period of 20 years during which cognition has been repeatedly assessed in a standardized manner with three common neuropsychological tests. Due to possible confounding effects of psychotropic.