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Effects of long-term administration of a cocoa polyphenolic extract (Acticoa powder) on cognitive performances in aged rats

Published online by Cambridge University Press:  01 July 2008

Jean-François Bisson
Affiliation:
ETAP-Applied Ethology, 13 rue du Bois de la Champelle, Vandoeuvre-lès-Nancy54500, France
Amine Nejdi
Affiliation:
ETAP-Applied Ethology, 13 rue du Bois de la Champelle, Vandoeuvre-lès-Nancy54500, France
Pascale Rozan
Affiliation:
ETAP-Applied Ethology, 13 rue du Bois de la Champelle, Vandoeuvre-lès-Nancy54500, France
Sophie Hidalgo
Affiliation:
ETAP-Applied Ethology, 13 rue du Bois de la Champelle, Vandoeuvre-lès-Nancy54500, France
Robert Lalonde
Affiliation:
CHUM/St-Luc, Neuroscience Research Center, 1058 St-Denis Street, MontréalH2X 3J4, PQ, Canada
Michaël Messaoudi*
Affiliation:
ETAP-Applied Ethology, 13 rue du Bois de la Champelle, Vandoeuvre-lès-Nancy54500, France
*
*Corresponding author: Dr Michaël Messaoudi, fax +33 383 446 441, email etap@etap-lab.com
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Abstract

Numerous studies have indicated that increased vulnerability to oxidative stress may be the main factor involved in functional declines during normal and pathological ageing, and that antioxidant agents, such as polyphenols, may improve or prevent these deficits. We examined whether 1-year administration of a cocoa polyphenolic extract (Acticoa powder), orally delivered at the dose of 24 mg/kg per d between 15 and 27 months of age, affects the onset of age-related cognitive deficits, urinary free dopamine levels and lifespan in old Wistar-Unilever rats. Acticoa powder improved cognitive performances in light extinction and water maze paradigms, increased lifespan and preserved high urinary free dopamine levels. These results suggest that Acticoa powder may be beneficial in retarding age-related brain impairments, including cognitive deficits in normal ageing and perhaps neurodegenerative diseases. Further studies are required to elucidate the mechanisms of cocoa polyphenols in neuroprotection and to explore their effects in man.

Information

Type
Full Papers
Copyright
Copyright © The Authors 2008
Figure 0

Fig. 1 Total number of lever presses (active+inactive lever presses) in the light extinction test before (9, 13 and 15 months) and after the start of treatments (17, 21 and 25 months) in control rats (□) and in rats fed Acticoa powder (24 mg/kg per d; AP24; ). The numbers in parentheses are the number of rats remaining in each group. Values are means with their standard errors depicted by vertical bars. Mean values were significantly different from those of the control group (Mann–Whitney U test): *P < 0·05, **P < 0·01.

Figure 1

Fig. 2 Discrimination between active () and inactive (□) levers in the light extinction test before (9, 13 and 15 months) and after the start of treatments (17, 21 and 25 months) in control rats (A) and in rats fed Acticoa powder (24 mg/kg per d; AP24; B). Values are means with their standard errors depicted by vertical bars. Mean values were significantly different from those of the inactive levers (Wilcoxon test): TP < 0·10, *P < 0·05, **P < 0·01.

Figure 2

Fig. 3 Water maze performances before (8, 12 and 15 months) and after the start of treatments (17, 21 and 25 months) in control rats (□) and in rats fed Acticoa powder (24 mg/kg per d; AP24; ). Results are given as mean latencies over five trials before finding the hidden platform in each test session. Values are means with their standard errors depicted by vertical bars. Mean values were significantly different from those of the AP24-treated rats (Mann–Whitney U test): **P < 0·01.

Figure 3

Fig. 4 Water maze performances at 8 (A), 12 (B), 15 months (C) (before treatment), and 17 (D), 21 (E) and 25 (F) (period of treatment) months of age in control rats (○) and in rats fed Acticoa powder (24 mg/kg per d; AP24; ●). Results are given as mean latencies from the five trials of the test session (T1–T5). Mean values were significantly different from those of the AP24-treated rats (Mann–Whitney U test): TP < 0·10, *P < 0·05, **P < 0·01.

Figure 4

Fig. 5 Urinary free dopamine concentrations before (12 and 15 months) and after the start of treatments (18, 21, 24 and 27 months) in control rats (□) and in rats fed Acticoa powder (24 mg/kg per d; AP24; ). The numbers in parentheses are the number of rats remaining in each group. Values are means with their standard errors depicted by vertical bars. Mean values were significantly different from those of the control group (Mann–Whitney U test): *P < 0·05, **P < 0·01.

Figure 5

Fig. 6 Survival rates of control rats () and rats fed Acticoa powder (24 mg/kg per d; AP24; ●). Survival times of rats were analysed using the Kaplan–Meier method and the log-rank test.