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Heart dysfunction induced by choline-deficiency in adult rats: the protective role of L-carnitine.

European journal of pharmacology
January 1, 1970
Athina A Strilakou et al. (9 authors)
Journal ArticleResearch Support, Non-U.S. Gov'tAnimal Study
Extracted Claims (9)
InterventionDirectionEndpointPopulationDosageImpactClaim #
choline deficient diet
decrease
myocardium contractility
adult rats
P=0.01
compromised
#1
choline deficient diet
decrease
diastolic left ventricular function
adult rats
P=0.02
significantly impaired
#2
carnitine
no change
compromised myocardium contractility and impaired diastolic left ventricular function
adult rats
-
prevented
#3
-
no change
systolic force
adult rats
-
showed no statistical difference
#4
choline deficient diet
increase
serum BNP concentration
adult rats
P<0.004
significant increase
#5
carnitine
decrease
serum BNP concentration
adult rats
P<0.05
attenuated
#6
choline deficient diet and carnitine
increase
homocysteine
adult rats
-
higher
#7
choline deficient diet
increase
lymphocytic infiltration of myocardium and valves
adult rats
-
revealed
#8
carnitine
decrease
lymphocytic infiltration of myocardium and valves
adult rats
-
reduced
#9
Abstract

Choline is a B vitamin co-factor and its deficiency seems to impair heart function. Carnitine, a chemical analog of choline, has been used as adjunct in the management of cardiac diseases. The study investigates the effects of choline deficiency on myocardial performance in adult rats and the possible modifications after carnitine administration. Wistar Albino rats (n=24), about 3 months old, were randomized into four groups fed with: (a) standard diet (control-CA), (b) choline deficient diet (CDD), (c) standard diet and carnitine in drinking water 0.15% w/v (CARN) and (d) choline deficient diet and carnitine (CDD+CARN). After four weeks of treatment, we assessed cardiac function under isometric conditions using the Langendorff preparations [Left Ventricular Developed Pressure (LVDP-mmHg), positive and negative first derivative of LVDP were evaluated], measured serum homocysteine and brain natriuretic peptide (BNP) levels and performed histopathology analyses. In the CDD group a compromised myocardium contractility compared to control (P=0.01), as assessed by LVDP, was noted along with a significantly impaired diastolic left ventricular function, as assessed by (-) dp/dt (P=0.02) that were prevented by carnitine. Systolic force, assessed by (+) dp/dt, showed no statistical difference between groups. A significant increase in serum BNP concentration was found in the CDD group (P<0.004) which was attenuated by carnitine (P<0.05), whereas homocysteine presented contradictory results (higher in the CDD+CARN group). Heart histopathology revealed a lymphocytic infiltration of myocardium and valves in the CDD group that was reduced by carnitine. In conclusion, choline deficiency in adult rats impairs heart performance; carnitine acts against these changes.

Medical Subject Headings (MeSH)
AnimalsCardiotonic AgentsCarnitineCholine DeficiencyDietary SupplementsEdema, CardiacFibrosisHeart ValvesHeart VentriclesHomocysteineHyperhomocysteinemiaLymphocytesMaleMyocardial ContractionNatriuretic Peptide, BrainRandom AllocationRatsRats, WistarVentricular Dysfunction, Left
Study Links
PubMed ID23562624
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