STOMACH FLU FIGHTER
A blend of fluids and electrolytes that will replenish and rehydrate your body.
Decreases the amount of acid produced by the stomach.
Reduces Feelings of Nausea and Prevents Vomiting.
Promotes cardiovascular health, bone health, and helps with relaxation
Helps keep your body's blood and nerve cells healthy and helps make DNA.
Aids in brain and nervous system function, metabolism, and circulatory function.
Necessary for the growth, development and repair of all body tissues.
Famotidine is used to treat ulcers of the stomach and intestines and to prevent intestinal ulcers from coming back after they have healed. This medication is also used to treat certain stomach and throat (esophagus) problems (such as erosive esophagitis, gastroesophageal reflux disease-GERD, Zollinger-Ellison syndrome). It works by decreasing the amount of acid your stomach makes. It relieves symptoms such as cough that doesn't go away, stomach pain, heartburn, and difficulty swallowing. Famotidine belongs to a class of drugs known as H2 blockers.This medication is also available without a prescription. It is used to prevent and treat heartburn and other symptoms caused by too much acid in the stomach (acid indigestion).
Zofran (ONDANSETRON HCL)
This medication is used alone or with other medications to prevent nausea and vomiting caused by cancer drug treatment (chemotherapy) and radiation therapy. It is also used to prevent and treat nausea and vomiting after surgery. It works by blocking one of the body's natural substances (serotonin) that causes vomiting.
Magnesium is a mineral that is important for normal bone structure in the body. People get magnesium from their diet, but sometimes magnesium supplements are needed if magnesium levels are too low. Low magnesium levels in the body have been linked to diseases such as osteoporosis, high blood pressure, clogged arteries, hereditary heart disease, diabetes, and stroke.
An easy way to remember foods that are good magnesium sources is to think of fiber. Foods that are high in fiber are generally high in magnesium. Dietary sources of magnesium include legumes, whole grains, vegetables (especially broccoli, squash, and green leafy vegetables), seeds, and nuts (especially almonds). Other sources include dairy products, meats, chocolate, and coffee. Water with a high mineral content, or "hard" water, is also a source of magnesium.
Magnesium is most commonly used for constipation, as an antacid for heartburn, for low magnesium levels, for pregnancy complications called pre-eclampsia and eclampsia, and for a certain type of irregular heartbeat (torsades de pointes).
Vitamin B12 (Methylcobalamin)
Methylcobalamin, or vitamin B12, is a B-vitamin. It is found in a variety of foods such as fish, shellfish, meats, and dairy products. Although methylcobalamin and vitamin B12 are terms used interchangeably, vitamin B12 is also available as hydroxocobalamin, a less commonly prescribed drug product (see Hydroxocobalamin monograph), and methylcobalamin.
Methylcobalamin is used to treat pernicious anemia and vitamin B12 deficiency, as well as to determine vitamin B12 absorption in the Schilling test. Vitamin B12 is an essential vitamin found in the foods such as meat, eggs, and dairy products. Deficiency in healthy individuals is rare; the elderly, strict vegetarians (i.e., vegan), and patients with malabsorption problems are more likely to become deficient. If vitamin B12 deficiency is not treated with a vitamin B12 supplement, then anemia, intestinal problems, and irreversible nerve damage may occur.
The most chemically complex of all the vitamins, methylcobalamin is a water-soluble, organometallic compound with a trivalent cobalt ion bound inside a corrin ring which, although similar to the porphyrin ring found in heme, chlorophyll, and cytochrome, has two of the pyrrole rings directly bonded. The central metal ion is Co (cobalt). Methylcobalamin cannot be made by plants or by animals; the only type of organisms that have the enzymes required for the synthesis of methylcobalamin are bacteria and archaea. Higher plants do not concentrate methylcobalamin from the soil, making them a poor source of the substance as compared with animal tissues.
B vitamins play different roles but their functions are inter-related and complementary. They work as coenzyme in several biochemical reactions to activate enzyme reaction of corresponding protein by creating holoenzyme. As holoenzyme they participate in the majority of cellular processes.
Although vitamin B1 and B6 participate more actively in the methionine cycle and citric acid cycle, which is the mitochondrial energy production process, the entire vitamin B group is involved in its successful execution. B vitamins also help to maintain the health of nervous system by playing a crucial role in the central nervous system and the peripheral nervous system functions.
Vitamin B1 (thiamine) serves as a coenzyme with transketolase enzyme in the pentose phosphate pathway of glycolysis. This pathway generates pentose sugar for synthesis of amino acid and nucleic acid and converts glucose to ribulose-5-phosphate via retrieving the carbon from the pentose phosphate shunt. Vitamin B2 (Riboflavin) plays an important role in many biologically important redox reactions such as energy producing, biosynthetic, detoxifying and electron scavenging pathways as a precursor of coenzyme flavin mononucleotide (FMN) and flavin adenine dinucleotide (FAD).
Riboflavin is also essential for the metabolism of homocysteine, as a cofactor for methylenetetrahydrofolate reductase (MTHFR) and methionine synthase reductase (MTRR).
In the citric acid cycle, Vitamin B3 (Niacin) is involved in the formation of acetyl-CoA while conversion of its co-enzyme takes places from NAD+ (nicotinamide adenine dinucleotide) to NADH.
In the anabolic methionine cycle, niacin, in the form of NAD, is a necessary co-factor for the enzymes dihydrofolate reductase in the folate/tetrahydrobiopterin cycle and S-adenosylhomocysteine hydrolase. Vitamin B5 (Pantothenic Acid) is a component of coenzyme A. At least 70 enzymes utilize coenzyme A for the metabolism of fat, protein, carbohydrates and proper functioning of citric acid cycle.13 It is also involved in synthesis of several neural transmitters.
Vitamin B6 (Pyridoxine) acts as a necessary cofactor in the folate cycle and combines with serine hydroxymethyl transferase to effect the conversion of tetrahydrofolate(THF) to 5,10 methylene THF. B6 is a rate limiting cofactor in the synthesis of several neurotransmitters such as dopamine, serotonin, γ-aminobutyric acid (GABA), noradrenaline and the hormone melatonin. Even a minor deficiency of B6 can cause a substantial down-regulation of these neurotransmitters. B6 also plays an important role in immune functions and is also a bio-marker of inflammation with its down-regulation being associated with severe inflammation.
Vitamin C (Ascorbic Acid)
Ascorbic acid is necessary for collagen formation (e.g., connective tissue, cartilage, tooth dentin, skin, and bone matrix) and tissue repair. It is reversibly oxidized to dehydroascorbic acid. Both forms are involved in oxidation-reduction reactions. Vitamin C is involved in the metabolism of tyrosine, carbohydrates, norepinephrine, histamine, and phenylalanine. Other processes that require ascorbic acid include biosynthesis of corticosteroids and aldosterone, proteins, neuropeptides, and carnitine; hydroxylation of serotonin; conversion of cholesterol to bile acids; maintenance of blood vessel integrity; and cellular respiration.
Vitamin C may promote resistance to infection by the activation of leukocytes, production of interferon, and regulation of the inflammatory process. It reduces iron from the ferric to the ferrous state in the intestine to allow absorption, is involved in the transfer of iron from plasma transferrin to liver ferritin, and regulates iron distribution and storage by preventing the oxidation of tetrahydrofolate. Ascorbic acid enhances the chelating action of deferoxamine during treatment of chronic iron toxicity (see Interactions). Vitamin C may have a role in the regeneration of other biological antioxidants such as glutathione and α-tocopherol to their active state.
Ascorbate deficiency lowers the activity of microsomal drug-metabolizing enzymes and cytochrome P-450 electron transport. In the absence of vitamin C, impaired collagen formation occurs due to a deficiency in the hydroxylation of procollagen and collagen. Non-hydroxylated collagen is unstable, and the normal processes of tissue repair cannot occur. This results in the various features of scurvy including capillary fragility manifested as hemorrhagic processes, delayed wound healing, and bony abnormalities.
Currently, the use and dosage regimen of vitamin C in the prevention and treatment of diseases, other than scurvy, is unclear.
Although further study is needed to recommend vitamin C therapy for the following ailments, recent data indicate a positive role for vitamin C for: overall increased mortality; the prevention of coronary heart disease (especially in women); management of diabetes mellitus; reducing the risk of stroke; management of atherosclerosis in combination with other antioxidants;789 osteoporosis prevention;10 reducing the risk of Alzheimer disease in combination with vitamin E; and the prevention of cataracts. In humans, an exogenous source of ascorbic acid is required for collagen formation and tissue repair.
Vitamin B-Complex: https://www.empowerpharmacy.com/drugs/b-complex-injection
Ascorbic Acid: https://www.empowerpharmacy.com/drugs/ascorbic-acid-injection