Bibliographie: DHA et Développement du Système Nerveux

BIBLIOGRAPHIE

Arant,
B.S.
and
Gooch,
M.
1982.
Developmental
changes
in
the
mongrel
canine
brain
during
 postnatal
life.
Early
Human
Development.

7,
179‐194.

Bakker,
E.C.,
Hornstra,
G.,
Blanco,
C.E.,
Vles,
J.S.H.
2009.
Relationship
between
long‐chain
 polyunsaturated
fatty
acids
at
birth
and
motor
function
at
7
years
of
age.
European

J.
Clin.
Nutr.
 63,
499‐504.

Bauer,
J.E.,
Heinemann,
M.K.,
Lees,
G.E.,
Walron,
M.K.
2006.

Docosahexaenoic
acid

 accumulates
in
plasma
of
canine
puppies
raised
on
α‐
linolenic
acid‐rich
milk
during
sucking
but
 not
when
fed
α‐linolenic
acid‐rich
diet
after
weaning.
J.
Nutr.
136,
2087S‐2089S.

Boudrault,
C.,
Bazinet,
R.P.,
Ma,
D.W.L.
2009.
Experimental
models
and
mechanisms
underlying
 the
protective
effects
of
n‐3
polyunsaturated

fatty
acids
in
Alzheimer’s
disease.
J.
Nutr.
Biochem.
 20,
1‐10.

Carlson,
S.E.,
2009.
Docosahexaenoic
acid
supplementation
in
pregancy
and
lactation.
Am.
J.
Clin.
 Nutr.
89,
678S‐684S.

Carrie,
I.,
Smirnova,
M.,
Clement,
M.,
Frances,
H.,
Bourre,
J.M.
2002.
Docosahexaenoic
acid‐rich
 phospholipid

supplementation
:
effect
on
behavior,
learning
ability
and
retinal
function
in
 control
and
n‐3
polyunsaturated
fatty
acid
deficient
old
mice.
Nutr.
Neurosci.
5,
43‐52.

Creuzot‐
Garcher,
C.
and
Bron,
A.
2008
Place
de
la
micronutrition
dans
la
prise
en
charge
du
 glaucome.
J.
Fr.
Ophtalmol.
31,
2S65‐2S68.

Cunnane,
S.C.,
Plourde,
M.,
Pifferi,
F.,
Begin,
M.,
Feart,
C.,
Barbeger‐Gateau,
P.
2009.
Fish,
 docosahexaenoic
acic
and
Alzheimer’s
disease.

Progress
in
Lipid
Research,
48,
239‐256.

De
La
Pressa
Owens,
S.
and
innis,
S.M.
1999.
Docosahexaenoic
and
arachidonic
acid
prevent
a
 decrease
in
dopaminergic
and
serotonergic
neurotransmitters
in
frontal
cortex
caused
by
a
 linoleic
and
alpha‐linolenic
deficient
diet
in
formula
fed
piglets.
J.
Nutr.
129,
2088‐2093.

Dullemeijer,
C.,
Zock,
P.L.,
Coronel,
R.,
Dan
Ruijter,
H.D.,
Katan,
M.B.,
Brummer,
R.J.,
Kok,
F.J.,
 Beakman,
J.,
brouwer,
I.A.
2008.
Differences
in
fatty
acid
composition
between
cerebral
brain

 lobes

in
juvenile
pigs
after
fish
oil
feeding.
British
J.

of
Nutrition.
100,
794‐800.

Fedorova,
I.,
Hussein,
N.,
Baumann,
M.
H.,
Di
Martinod,
C.,
Salem,
N.
2009.
An
n‐3
fatty
acid
 deficiency
impairs
rat
spatial
learning
in
the
Barnes
maze.
Behavioral
Neuroscience,
123,
196‐ 205.

Guesnet,
P.,
Alessandri,
J.M.,
Vancassel,
S.,
Denis,
I.,
Lavialle,
M.
2005.
Omega
3
fatty
acids
and
 functions
of
the
central
nervous
system.
Nutrition
Clinique
et
Métabolisme.

19,
131‐134.

Gunnarsson,
S.,
Pickova,
J.,
Högberg,
A.,
Neil,
M.,
Wichman,
A.,
Wigren,
T.,
Uvnas‐
Moberg,
K.,
 Rydmer,
L.
2009.
Influence
of
sow
dietary
fatty
acid
composition
on
the
behaviour
of
the
piglets.
 Livestock
Science,
123,
306‐313.

Head,
E.
2001.
Brain
aging
and
the
dog:
parallels
with
human
brain
aging
and
Alzheimer’s
 disease.
Vet.
Ther.
2,
247‐260.

Heinemann,
K.M.,
Waldron,
M.K.,
Bigley,
K.E.,
Lees,
G.E.,
Baure,
J.E.
2005
Long
chain
(n‐3)
 polyunsaturated
fatty
acids
are
more
efficient
than
α‐linolenic
acid
in
improving
 electroretinogram
responses
of
puppies
exposed
during
gestation,
lactation
and
weaning.
J.
Nutr.
 135,
1960‐1966.

Innis,
S.M.
2008.
Dietary
omega
3
fatty
acids
and
the
developing
brain.
Brain
Research,
1237,
35‐ 43.

Kodas.
E.,
Vancassel,
S.,
Lejeune,
B.,
Guilloteau,
D.,
Chalon,
S.
2002.
Reversibility
of
n‐3
fatty
 acid
deficiency‐induced
changes
in
dopaminergic
neurotransmission
in
rats:
critical
role
of
 development
stage.
J.
Lipid
Res.
43,
1209‐1219.

Kelley,
R.,
Lepine,
A.
and
Morgan,
D.2005.
Improving
trainability
of
puppies
through
nutrition.
 Proc.
50th
Congresso
Nazionale
Multisala
SCIVAC
Rimini
Italy
June
2005.

Li,
P.,
Kim,
S.W.,
Li,
X.,
Datta,
S.,
Pond,
W.G.,
Wu,
G.
2009.
Dietary
supplementation
with
 cholesterol
and
docosahexaenoic
acid
affects
concentration
of
amino
acids
in
tissues
of
young
 pigs.
Amino
Acids,
37,
709‐716.

Lukiw,
W.J.
and
Bazan,
N.C.
2008.
Docosahexaenoic
acid
and
the
aging
brain.
J.
Nutr.,
138,
2510‐ 1514.

McCann,
J.C.
and
Ames,
B.N.
2005.
Is
docosahexaenoic
acid
a
n‐3
long
chain
polyunsaturated
 fatty
acid
required
for
development
of
normal
brain?

An
overview
of
evidence
from
cognitive
 and
behavioral
tests
in
humans
and
animals.
Am.
J.
Clin.Nutr.
82,
281‐295.

Milgram,
H.W.,
Zicker,
S.C.,
Head,
E.,
Muggengurg,
B.A.,
Murphey,
H.,
Ikeda‐Douglas,
C.J.,
 Cotman,
C.W.
2002.
Dietary
enrichment
counteracts
age‐associated
cognitive
dysfunction
in
 canine.
Neurobiology
of
Aging,
23,
737‐745.

Niemoller
TD,
Bazan
NG.
Docosahexaenoic
acid
neurolipidomics.
Prostaglandins
Other
Lipid
 Mediat
(2009),
doi:10.1016/j.prostaglandins.2009.09.005

Pawlosky,
R.J.,
Denkins,
Y.,
Ward,
G.,
1997.
Retinal
and
brain
accretion
on
long‐chain
 polyunsaturated
fatty
acids
in
developing
felines:
the
effects
of
corn‐based
maternal
diets.
Am.
J.
 Clin
Nutr.
65,
465‐472.
Reynolds,
A.J.,
Waldron,
M.,
Wilsson,
Y.,
Dunlap,
A.,
Bailey,
K.
2006.
Effect
of
long‐chain
 polyunsaturated
fatty
acid
supplementation
on
mental
stability,
problem‐solving
ability,
and
 learned
pattern
retention
in
young,
growing
dogs.

Comp.
Cont.
Educ.
Pract.
Vet.
28
 (supplement):
74.

Seddon,
J.M.,
George,
S.,
Rosner,
B.
2006.
Cigarette
smoking,
fish
consumption,
omega‐3
fatty
 acid
intake
and
association
with
age
related
macular
degeneration.
Arch.
Ophtalmol.
124:
995‐ 1001.

Studzinski,
C.M.,
Araujo,
J.A.,
Milgram,
N.W.
2005.
The
canine
model

of
human
cognitive
aging
 and
dementia:
pharmacological
validity
of
the
model
for
assessment
of
human
cognitive
 enhancing
drugs.
Progress
on
Neuro‐Psychopharmacology
and
Biological
Psychiatry.
29,
489‐498.

Vidailhet,
M.
2007.
Omega‐3
une
situation
de
carence
chez
le
jeune
enfant?
Archives
de
 Pédiatrie.
14,
116‐123.

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