Intravenous therapy at its finest

"I’m working really hard, at an intense pace—and don’t have time to slow down or get sick."

Vitamindrip® is a scientifically formulated intravenous solution for the effective treatment of moderate to severe dehydration, and has been found to be effective against asthma, migraines, fatigue (including chronic fatigue syndrome), acute muscle spasm, upper respiratory tract infections, chronic sinusitis, seasonal allergic rhinitis, and other disorders. (Alternative Medical Review 2002;7(5):389-403)

  

Vitamindrip® products are widely used in hospitals and by healthcare professionals worldwide.

"Your life, just better.™"

Deliver 100% of the fluid, electrolytes and vitamins directly into the bloodstream.

Hydrate, boost energy levels and release those unwanted toxins = amazing.

More nutrients

The amount of nutrients in the blood can reach much higher, more therapeutic levels.

Fast acting

Nutrients enter the bloodstream immediately to help the body begin healing itself.

Sustained energy

Enjoy energy for days not hours without the crash.

Theoretical Basis For IV Therapy

 

Intravenous administration of nutrients can achieve serum concentrations not obtainable with oral, or even intramuscular (IM), administration. For example, as the oral dose of vitamin C is increased progressively, the serum concentration of ascorbate tends to approach an upper limit, as a result of both saturation of gastrointestinal absorption and a sharp increase in renal clearance of the vitamin.3 When the daily intake of vitamin C is increased 12-fold, from 200 mg/day to 2,500 mg/day, the plasma concentration increases by only 25 percent, from 1.2 to 1.5 mg/dL. The highest serum vitamin C level reported after oral administration of pharmacological doses of the vitamin is 9.3 mg/dL. In contrast, IV administration of 50 g/day of vitamin C resulted in a mean peak plasma level of 80 mg/dL.4 Similarly, oral supplementation with magnesium results in little or no change in serum magnesium concentrations, whereas IV administration can double or triple the serum levels,5,6 at least for a short period of time.Various nutrients have been shown to exert pharmacological effects, which are in many cases dependent on the concentration of the nutrient. For example, an antiviral effect of vitamin C has been demonstrated at a concentration of 10-15 mg/dL,4 a level achievable with IV but not oral therapy. At a concentration of 88 mg/dL in vitro, vitamin C destroyed 72 percent of the histamine present in the medium.7 Lower concentrations were not tested, but it is possible the serum levels of vitamin C attainable by giving several grams in an IV push would produce an antihistamine effect in vivo. Such an effect would have implications for the treatment of various allergic conditions.Magnesium ions promote relaxation of both vascular8 and bronchial9 smooth muscle – effects that might be useful in the acute treatment of vasospastic angina and bronchial asthma, respectively. It is likely these and other nutrients exert additional, as yet unidentified, pharmacological effects when present in high concentrations.In addition to having direct pharmacological effects, IV nutrient therapy may be more effective than oral or IM treatment for correcting intracellular nutrient deficits. Some nutrients are present at much higher concentrations in the cells than in the serum. For example, the average magnesium concentration in myocardial cells is 10 times higher than the extracellular concentration. This ratio is maintained in healthy cells by an active-transport system that continually pumps magnesium ions into cells against the concentration gradient. In certain disease states, the capacity of membrane pumps to maintain normal concentration gradients may be compromised. In one study, the mean myocardial magnesium concentration was 65-percent lower in patients with cardiomyopathy than in healthy controls 10 implying a reduction in the intracellular-to-extracellular ratio to less than 4-to-1. As magnesium plays a key role in mitochondrial energy production, intracellular magnesium deficiency may exacerbate heart failure and lead to a vicious cycle of further intracellular magnesium loss and more severe heart failure.Intravenous administration of magnesium, by producing a marked, though transient, increase in the serum concentration, provides a window of opportunity for ailing cells to take up magnesium against a smaller concentration gradient. Nutrients taken up by cells after an IV infusion may eventually leak out again, but perhaps some healing takes place before they do. If cells are repeatedly “flooded” with nutrients, the improvement may be cumulative. It has been the author’s observation that some patients who receive a series of IV injections become progressively healthier. In these patients, the interval between treatments can be gradually increased, and eventually the injections are no longer necessary.Other patients require regular injections for an indefinite period of time in order to control their medical problems. This dependence on IV injections could conceivably result from any of the following: (1) a genetically determined impairment in the capacity to maintain normal intracellular nutrient concentrations;11 (2) an inborn error of metabolism that can be controlled only by maintaining a higher than normal concentration of a particular nutrient; or (3) a renal leak of a nutrient. 12 In some cases, continued IV therapy may be necessary because a disease state is too advanced to be reversible.

Wondering about possible side effects?

Safety is important. And it helps to know about possible side effects. 

VITAMINDRIP® can cause side effects. Rarely reported side effects include: (Please note that these side effects are rare, and tend to resolve following cessation of the intravenous therapy.

 

  • Irritation in the vein, secondary to infusate’s effects on the circulatory system

  • Lowering of blood pressure

  • Lowering of blood sugar

  • Muscle cramps or weakness

  • Arm pain at the infusion site

  • Lightheadedness

  • Upset stomach

  • Rash

 

Other important information:

VITAMINDRIP® can temporarely restore hydration and energy. Individual results may vary. And it’s not right for everyone. Here are some other things you should know:

Do not take VITAMINDRIP® if you:

  • take any medicines called nitrates, often prescribed for chest pain, or guanylate cyclase stimulators like Adempas (riociguat) for pulmonary hypertension. Your blood pressure could drop to an unsafe level.

  • if you have kidney disease.

  • are allergic to any of the ingredients in 
     

The most common side effects of VITAMINDRIP® are:

 

  • Headache

  • Flushing

  • Nausea

  • Dizziness

 

Tell your healthcare provider if you have any side effect that bothers you or does not go away.

These are not all the possible side effects of VITAMINDRIP®. For more information, ask your healthcare provider or pharmacist.

 

 

Talk to your Doctor:

 

Discuss your general health and dehydration symptoms with your doctor to see if  VITAMINDRIP® is right for you.

References

 

1. Malkiel-Shapiro B. Further observations on parenteral magnesium sulfate therapy in coronary heart disease: a clinical appraisal. S Afr Med J 1958;32:1211-1215.2. Browne SE. Intravenous magnesium sulphate in arterial disease. Practitioner 1969;202:562-564.3. Blanchard J, Tozer TN, Rowland M. Pharmacokinetic perspectives on megadoses of ascorbic acid. Am J Clin Nutr 1997;66:1165-1171.4. Harakeh S, Jariwalla RJ, Pauling L. Suppression of human immunodeficiency virus replication by ascorbate in chronically and acutely infected cells. Proc Natl Acad Sci U S A 1990;87:7245-7249.5. Okayama H, Aikawa T, Okayama M, et al. Bronchodilating effect of intravenous magnesium sulfate in bronchial asthma. JAMA 1987;257:1076-1078.6. Sydow M, Crozier TA, Zielmann S, et al. High-dose intravenous magnesium sulfate in the management of life-threatening status asthmaticus. Intensive Care Med 1993;19:467-471.7. Uchida K, Mitsui M, Kawakishi S. Monooxygenation of N-acetylhistamine mediated by L-ascorbate. Biochim Biophys Acta 1989;991:377-379.8. Iseri LT, French JH. Magnesium: nature’s physiologic calcium blocker. Am Heart J 1984;108:188-193.9. Brunner EH, Delabroise AM, Haddad ZH. Effect of parenteral magnesium on pulmonary function, plasma cAMP, and histamine in bronchial asthma. J Asthma 1985;22:3-11.10. Frustaci A, Caldarulo M, Schiavoni G, et al. Myocardial magnesium content, histology, and antiarrhythmic response to magnesium infusion. Lancet 1987;2:1019.11. Henrotte JG. The variability of human red blood cell magnesium level according to HLA groups. Tissue Antigens 1980;15:419-430.12. Booth BE, Johanson A. Hypomagnesemia due to renal tubular defect in reabsorption of magnesium. J Pediatr 1974;85:350-354.13. Skobeloff EM, Spivey WH, McNamara RM, Greenspon L. Intravenous magnesium sulfate for the treatment of acute asthma in the emergency department. JAMA 1989;262:1210-1213.14. Bloch H, Silverman R, Mancherje N, et al. Intravenous magnesium sulfate as an adjunct in the treatment of acute asthma. Chest 1995;107:1576-1581.15. Ciarallo L, Brousseau D, Reinert S. Higherdose intravenous magnesium therapy for children with moderate to severe acute asthma. Arch Pediatr Adolesc Med 2000;154:979-983.16. Ciarallo L, Sauer AH, Shannon MW. Intravenous magnesium therapy for moderate to severe pediatric asthma: results of a randomized, placebo-controlled trial. J Pediatr 1996;129:809-814.17. Tiffany BR, Berk WA, Todd IK, White SR. Magnesium bolus or infusion fails to improve expiratory flow in acute asthma exacerbations. Chest 1993;104:831-834.18. Green SM, Rothrock SG. Intravenous magnesium for acute asthma: failure to decrease emergency treatment duration or need for hospitalization. Ann Emerg Med 1992;21:260-265.19. Rowe BH, Bretzlaff JA, Bourdon C, et al. Intravenous magnesium sulfate treatment for acute asthma in the emergency department: a systematic review of the literature. Ann Emerg Med 2000;36:181-190.20. Pottenger FM. A discussion of the etiology of asthma in its relationship to the various systems composing the pulmonary neurocellular mechanism with the physiological basis for the employment of calcium in its treatment.Am J Med Sci 1924;167:203-249.21. Undritz E. The therapy of anaphylactic conditions with large amounts of calcium. J Allergy 1937;8:625.22. Anah CO, Jarike LN, Baig HA. High dose ascorbic acid in Nigerian asthmatics. Trop Geogr Med 1980;32:132-137.23. Reynolds RD, Natta CL. Depressed plasma pyridoxal phosphate concentrations in adult asthmatics. Am J Clin Nutr 1985;41:684-688.24. Collipp PJ, Goldzier S 3rd, Weiss N, et al. Pyridoxine treatment of childhood bronchial asthma. Ann Allergy 1975;35:93-97.25. Crocket JA. Cyanocobalamin in asthma. Acta Allergologica 1957;11:261-268.26. Bekier E, Wyczolkowska J, Szyc H, Maslinski C. The inhibitory effect of nicotinamide on asthma-like symptoms and eosinophilia in guinea pigs, anaphylactic mast cell degranulation in mice, and histamine release from ratisolated peritoneal mast cells by compound 48-80. Int Arch Allergy Appl Immunol 1974;47:737-748.27. Tuft L, Gregory J, Gregory DC. The effect of calcium pantothenate on induced whealing and on seasonal rhinitis. Ann Allergy 1958;16:639-655.28. Mauskop A, Altura BT, Cracco RQ, Altura BM. Intravenous magnesium sulphate relieves migraine attacks in patients with low serum ionized magnesium levels: a pilot study. Clin Sci 1995;89:633-636.29. Demirkaya S, Vural O, Dora B, Topcuoglu MA. Efficacy of intravenous magnesium sulfate in the treatment of acute migraine attacks. Headache 2001;41:171-177.30. Mauskop A, Altura BT, Cracco RQ, Altura BM. Intravenous magnesium sulfate relieves cluster headaches in patients with low serum ionized magnesium levels. Headache 1995;35:597-600.31. Manuel y Keenoy B, Moorkens G, Vertommen J, et al. Magnesium status and parameters of the oxidant-antioxidant balance in patients with chronic fatigue: effects of supplementation with magnesium. J Am Coll Nutr2000;19:374-382.32. Cox IM, Campbell MJ, Dowson D. Red blood cell magnesium and chronic fatigue syndrome. Lancet 1991;337:757-760.33. Howard JM, Davies S, Hunnisett A. Magnesium and chronic fatigue syndrome. Lancet 1992;340:426.34. Clague JE, Edwards RH, Jackson MJ. Intravenous magnesium loading in chronic fatigue syndrome. Lancet 1992;340:124-125.35. Ellis FR, Nasser S. A pilot study of vitamin B12 in the treatment of tiredness. Br J Nutr 1973;30:277-283.36. Lapp CW, Cheney PR. The rationale for using high-dose cobalamin (vitamin B12). CFIDS Chronicle Physicians’ Forum 1993 (Fall):19-20.37. Reed JC. Magnesium therapy in musculoskeletal pain syndromes — retrospective review of clinical results. Magnes Trace Elem 1990;9:330.38. Moorkens G, Manuel y Keenoy B, Vertommen J, et al. Magnesium deficit in a sample of the Belgian population presenting with chronic fatigue. Magnes Res 1997;10:329-337.39. Shealy CN, Cady RK, Veehoff D, et al. Magnesium deficiency in depression and chronic pain. Magnes Trace Elem 1990;9:333.40. Malkiel-Shapiro B, Bersohn I, Terner PE. Parenteral magnesium sulphate therapy in coronary heart disease. A preliminary report on its clinical and laboratory aspects. Med Proc 1956;2:455-462.41. Browne SE. Magnesium sulphate in arterial disease. Practitioner 1984;228:1165-1166.42. Cohen L, Kitzes R. Magnesium sulfate in the treatment of variant angina. Magnesium 1984;3:46-49.43. Disashi T, Iwaoka T, Inoue J, et al. Magnesium metabolism in hyperthyroidism. Endocr J 1996;43:397-402.44. Neguib MA. Effect of magnesium on the thyroid. Lancet 1963;1:1405.45. Rosenbaum EE, Portis S, Soskin S. The relief of muscular weakness by pyridoxine hydrochloride. J Lab Clin Med 1941;27:763-770.46. Sure B, Easterling L. The protective action of vitamin B12 against the toxicity of dl-thyroxine. J Nutr 1950;42:221-225.47. Watts AB, Ross OB, Whitehair CK, MacVicar R. Response of castrated male and female hyperthyroid rats to vitamin B12. Proc Soc Exp Biol Med 1951;77:624-626.48. Glass GB, Skeggs HR, Lee DH, et al. Applicability of hydroxocobalamin as a long-acting vitamin B12. Nature 1961;189:138-140.49. Herbert V. Vitamin B12. Am J Clin Nutr 1981;34:971-972.50. Durlach J, Bara M, Theophanides T. A hint on pharmacological and toxicological differences between magnesium chloride and magnesium sulphate, or of scallops and men. Magnes Res 1996;9:217-219.51. Dyckner T, Wester PO. Ventricular extrasystoles and intracellular electrolytes before and after potassium and magnesium infusions in patients on diuretic treatment. Am Heart J 1979;97:12-18.52. Stephen JM, Grant R, Yeh CS. Anaphylaxis from administration of intravenous thiamine. Am J Emerg Med 1992;10:61-63.53. Cook CC, Thomson AD. B-complex vitamins in the prophylaxis and treatment of Wernicke-Korsakoff syndrome. Br J Hosp Med 1997;57:461-465.54. Itokawa Y, Tanaka C, Kimura M. Effect of thiamine on serotonin levels in magnesiumdeficient animals. Metabolism 1972;21:375-379.55. Caddell JL. Magnesium deprivation in sudden unexpected infant death. Lancet 1972;2:258-262.56. Ashkenazy Y, Moshonov S, Fischer G, et al. Magnesium-deficient diet aggravates anaphylactic shock and promotes cardiac myolysis in guinea pigs. Magnes Trace Elem 1990;9:283-288.

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Vitamindrip® and the slogan Your life, just better.™ are trademarks of Vitamindrip Inc. Other brands listed are trademarks of their respective owners and are not affiliated with nor endorse Vitamindrip Inc.

 

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