intra v recovery iv therapy drip bag

Recovery IV drip rapid post exertion recovery

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Are you feeling drained from a hard week in the gym? Our Recovery Drip will flush out your muscles of toxins and get you ready for your next big training session! Armed with Vitamin C, Glutathione, Zinc and Branch Chain Amino Acids this drips a great way to help your body recover naturally.

BENEFITS:

  • Less Muscle Soreness

  • Promote Muscle Growth

  • Quicker Recovery

  • Replenish Electrolytes

  • Hydration

OTHER OPTIONS

MYERS IV COCKTAIL - The original multi-vitamin infusion enhances both body and mind.

NAD+ INFUSION - Get clear and focused. This effective combination is like a reboot for your brain.

ANTIOXIDANT DRIP - This vitamin IV infusion is a powerful way to detox your system and reduce the harmful effects of oxidation and inflammation.

CUSTOM IV DRIP - Tell us what you’re trying to improve and our team will design a drip tailored to your specific needs.

GEEK OUT

Our Recovery Drip is specifically designed to give your muscles exactly what they need to recover and flush out lactic acid. This drip benefits a multitude of different athletes. From the person competing in a long endurance event where electrolyte replenishment and hydration are key to the athlete who has a bodybuilding competition and needs that extra boost to keep them going and everything in between.

OUR RECOVERY DRIP CONTAINS:

  • Amino acids, also called “the building blocks of protein”, are natural compounds that combine to form proteins in the body. When proteins are digested and broken down, they leave behind amino acids. Amino acids are crucial in helping the body break down food, repairing body tissue, growing, and performing many other bodily functions.

    This combination of amino acids may help boost metabolism, boost energy levels, increase endurance, and help to burn calories and fat. Another benefit to taking this blend is that you will be receiving the essential and nonessential amino acids your body requires to stay healthy.

  • Vitamin B12 is an essential vitamin that’s crucial for many vital metabolic and hormonal functions — including the production of digestive enzymes and carrying important nutrients into and out of cells. Due to how it helps convert and synthesize many other compounds within the body, it’s needed for well over 100 daily functions. Some of the roles that are attributed to vitamin B12 include: red blood cell production, DNA/RNA synthesis, methylation and producing the coating of the nerves.

  • Glutathione (GSH) is often referred to as the body's master antioxidant. Composted of three amino acids - cysteine, glycine, and glutamate - glutathione can be found in virtually every cell of the human body. The highest concentration of glutathione is in the liver, making it critical in the body's detoxification process. Glutathione is also an essential component to the body's natural defense system. Viruses, bacteria, heavy metal toxicity, radiation, certain medications, and even the normal process of aging can all cause free-radical damage to healthy cells and deplete glutathione. Glutathione depletion has been correlated with lower immune function and increased vulnerability to infection due to the liver's reduced ability to detoxify.

    Both Vitamin C and Glutathione are important compounds that are included in the recovery drip because it has been shown that stress (exercise induced, emotional and/or mental) can lead to an immunocompromised state.Levocarnitine has been used in the treatment of primary and secondary carnitine deficiency in adults and neonates, Alzheimer's disease, dilated cardiomyopathy in adults and children, valproic acid-induced hepatotoxicity in children, and hyperlipoproteinemia. It has been designated an orphan drug for a variety of conditions. Its use in alcohol induced fatty liver, Down's syndrome, and chronic fatigue syndrome has shown varying results. Some athletes use carnitine supplements to increase exercise performance, however, the concept of carnitine loading does not appear to be very effective.1 Further, D,L-carnitine competitively inhibits levocarnitine. This inhibition may lead to a deficiency. Prescription forms of levocarnitine were approved by the FDA in 1985 (tablets), 1986 (oral solution), and 1992 (injection).

    Mechanism of Action: Levocarnitine facilitates long-chain fatty acid transport from the cytosol to the mitochondria, providing substrates for oxidation and subsequent cellular energy production. Levocarnitine can promote the excretion of excess organic or fatty acids in patients with defects in fatty acid metabolism or specific organic acidopathies that bioaccumulate acyl CoA esters. Levocarnitine clears the acyl CoA esters by formation of acylcarnitine which is rapidly excreted.

    Carnitine acetyltransferases (CATs) catalyze the interconversion of fatty acid esters of coenzyme A and carnitine, which are located in the cytosol and mitochondrial membranes. Translocases, which exist in mitochondrial membranes, rapidly transport both free carnitine and its esters in and out of cells. Fatty acid esters of CoA, formed in the cytosol, inhibit enzymes of the Krebs cycle, and are involved in oxidative phosphorylation. Hence, the oxidation of fatty acids requires the formation of acylcarnitines and their translocation into mitochondria where the CoA esters are reformed and metabolized. If oxygen tension is limited, carnitine serves to maintain a ratio of free to esterified CoA within mitochondria that is optimal for oxidative phosphorylation and for the consumption of acetyl CoA.

  • Sodium Bicarbonate is a systemic alkalinizing agent. It most often is administered IV in the treatment of metabolic and respiratory acidosis as well as muscle soreness. Sodium bicarbonate intake has been shown to improve exercise tolerance and a recent study showed high-intensity intermittent exercise performance is improved by prior intake of sodium bicarbonate in trained young men.

  • Vitamin C is a potent reducing agent, meaning that it readily donates electrons to recipient molecules. Related to this oxidation-reduction (redox) potential, two major functions of vitamin C are as an antioxidant and as an enzyme cofactor.

    Vitamin C is the primary water-soluble, non-enzymatic antioxidant in plasma and tissues. Even in small amounts vitamin C can protect indispensable molecules in the body, such as proteins, lipids (fats), carbohydrates, and nucleic acids (DNA and RNA), from damage by free radicals and reactive oxygen species (ROS) that are generated during normal metabolism, by active immune cells, and through exposure to toxins and pollutants (e.g., certain chemotherapy drugs and cigarette smoke). Vitamin C also participates in redox recycling of other important antioxidants; for example, vitamin C is known to regenerate vitamin E from its oxidized form.

    Vitamin C’s role as a cofactor is also related to its redox potential. By maintaining enzyme-bound metals in their reduced forms, vitamin C assists mixed-function oxidases in the synthesis of several critical biomolecules. Symptoms of vitamin C deficiency, such as poor wound healing and lethargy, result from impairment of these enzymatic reactions and insufficient collagen, carnitine, and catecholamine synthesis.

  • Zinc is a nutritionally essential mineral needed for catalytic, structural, and regulatory functions in the body. Over 300 different enzymes depend on zinc for their ability to catalyze vital chemical reactions. Zinc-dependent enzymes can be found in all known classes of enzymes. Zinc plays an important role in the structure of proteins and cell membranes. A finger-like structure, known as a zinc finger motif, stabilizes the structure of a number of proteins. For example, copper provides the catalytic activity for the antioxidant enzyme copper-zinc superoxide dismutase (CuZnSOD), while zinc plays a critical structural role. Zinc also plays a role in cell signaling and has been found to influence hormone release and nerve impulse transmission. Zinc has been found to play a role in apoptosis (gene-directed cell death), a critical cellular regulatory process with implications for growth and development, as well as a number of chronic diseases.

 

TESTIMONIALS