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The Fat Burner Choline and its Effect on Weight Loss:

Choline - The Lipotropic Fat Burner That Transports Fats To Be Burned For Energy!

Choline is a lipotropic fat burner that functions in the body as an agent that aids in the mobility of fats through the bloodstream. Choline, along with WARP-9's DMG and TMG, helps the body to transport fat to be burned by muscle, thereby supporting weight loss. These natural fat loss products help prolong aerobic activity and prevent exhaustion due to inefficient body fuel. As choline acts as a active fat burner it has shown that it also lowers blood cholesterol. Choline also prevents fat from accumulating in the liver, facilitates the movement of fat in the cells and is also important for proper nerve transmission that improves memory by boosting another neurotransmitter, acetylcholine.

Lipotropic agents like Choline are important as they transport fat to be burned in the muscle. For example, if you were on a treadmill enganging in aerobic exercise your body would be burning glucose, but when the glucose runs low it switches over to burning fat, providing all the lipotropic nutrients are there to make it happen. Hence another reason why dietary supplementation of a fat burners like WARP 9 are so helpful.

Choline - The Fat Burner For Better Memory and Mental Function

Taking a fat burner like WARP 9 and providing your body with choline also boosts another neurotransmitter in your brain called acetylcholine. Intake of choline is proven to have a positive effect on some mental functions, especially those connected to memory, which help to induce a positive influence on exercise and attitude.

Choline Boosts Athletic Performance!

Certain neurotransmitters, including acetylcholine, catecholamines, and serotonin, are formed from dietary constituents such as choline, phenylalanine, and tryptophan. Changing the consumption of choline can alter the synthesis and release of its respective neurotransmitter product acetylcholine.(1) Consumption of supplemental choline can also increase the release of acetylcholine from nerve endings, including those that cause skeletal muscle to contract.(2-5)

Choline is also incorporated into cell membranes(4) that can serve as an alternative choline source for acetylcholine synthesis when there is a deficiency in circulating choline. It has been shown that increasing the concentration of choline in skeletal and cardiac muscle increases acetylcholine release.(7) Many athletes demonstrated a significant reduction in plasma choline levels following exercise.(8,9,10) The reduction in plasma choline levels associated with strenuous exercise (e.g., long distance running or extended swimming) may reduce acetylcholine content, and thus its release, and could thereby affect endurance and performance.

Replace the Choline and Prevent The Fatigue

Replacement of choline lost during exercise or prevention of that loss could influence neuronal release of acetylcholine and, subsequently, affect measures of athletic performance and fatigue. Findings of degree of fatigue and vigor levels were consistent across all post exercise paradigms. The level of fatigue was lower and the level of vigor was increased in long-distance running, swimming, and a 2-hour basketball workout. It is interesting to note that in two multiple-dosing studies, when choline was given daily for 7 days, pre-exercise fatigue was also reduced. This finding suggests that daily administration of choline during strenuous daily exercise periods may be of benefit prior to beginning another bout of exercise. This data suggesst that choline supplementation such as that in WARP-9 prior to strenuous exercise may improve performance in certain athletic paradigms as well as reduce fatigue and transport fat.

  1. Wurtman RJ. Effects of dietary amino acids, carbohydrates and choline neurotransmitter synthesis. Mt Sinai J Med 1988;55(1):75-86.
  2. Wurtman RJ, Hefti F. Melamed E. Precursor control of neurotransmitter synthesis. Pharmacol Rev 1981 ;32(4):315-35.
  3. Maire, J-C, Wurtman RJ. Effects of electrical stimulation and choline availability on release and contents of acetylcholine and choline in superfused slices from rat striatum. J Physiol Paris 1985;80:189-95.
  4. Blusztajn JK, Wurtman RJ. Choline and cholinergic neurons. Science 1983;221:614-20.
  5. Bierkamper GG, Goldberg AM. Release of acetylcholine from the vascular perfused rat phrenic nerve hemidiaphragm. Brain Res 1980;202:234-7.
  6. Dieterich HA, Lindmar R. Loffelholz K. The role of choline in the release of acetylcholine in isolated hearts. Arch Pharmacol 1978;301 :207-15.
  7. Linden DC, Newton MW, Grinnell AD, Jenden DJ. Rapid decline in acetylcholine release and content of rat extensor digitorum longus muscle after denervation. Exp Neurol 1983;81:613-26.
  8. Sandage BW, Sabounjian LA, White R. Wurtman RJ. Choline citrate may enhance athletic performance. Physiologist 1992;35:236a.
  9. Von Allworden HN, Horn S. Kahl J. Feldheim W. The influence of lecithin on plasma choline concentrations in biathletes and adolescent runners during exercise. Eur J Appl Physiol 1983;67:87-91.
  10. Conlay LA, Wurtman RJ, Blusztajn JK, Covielia IJ, Maher TJ, Evoniuk GE. Decreased plasma choline concentrations in marathon runners (letter). NEM 1986;175:892.

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