The Practice of Orthomolecular Medicine

in healthy individuals, although serum levels were normal (
17
).
Although there have been no controlled trials of magnesium therapy for CHF, the author has seen dramatic results using parenteral magnesium. One patient, a 
55-year-old man with a 15-year history of cardiomyopathy, was in the final stages of heart failure, being kept alive only by a continuous infusion of dobutamine in an 
intensive care unit. At the time, his life expectancy was thought to be hours or days. However, after administration of a single intramuscular injection of magnesium 
sulfate (1 g), the patient almost immediately experienced a marked improvement, which became even more pronounced following additional magnesium injections. 
The dobutamine infusion was successfully discontinued and the patient was able to return home, where he lived for two more years. During that time, he would rapidly 
decompensate if he did not receive a magnesium injection every fourth day. Although there are no randomized controlled trials of these three agents in combination 
for CHF, physicians using orthomolecular medicine will use this information from the scientific literature to put together combination therapies for CHF using nutrients 
and endogenous substances.
Osteoarthritis
Another example of how orthomolecular treatments are developed can be seen in arthritis. In the 1940s, William Kaufman, MD, administered niacinamide (900 to 
4000 mg/day) to several hundred patients with osteoarthritis. In most cases, joint range of motion increased (as measured by goniometry) and symptoms, such as 
pain and stiffness, were reduced. Results were usually apparent three to four weeks after the initiation of treatment. Thereafter, progressive improvement occurred 
with continued treatment, but a gradual return of symptoms was noted if treatment was discontinued (
27
, 
28
).
Kaufman's observations recently have been confirmed in a double-blind trial. Seventy-two patients with osteoarthritis were randomly assigned to receive niacinamide 
(500 mg, 6 times daily) or a placebo for 3 months. Compared with the placebo, administration of niacinamide resulted in significant improvements in joint mobility and 
in overall severity of arthritis. Niacinamide-treated patients showed a reduction in erythrocyte sedimentation rate and were able to decrease their anti-inflammatory 
medications (
29
).
The delayed onset of action of niacinamide and the gradual return of symptoms on discontinuation of treatment suggest that niacinamide does more than merely 
relieve the symptoms of osteoarthritis. Apparently, this vitamin somehow controls the disease process. Nonsteroidal anti-inflammatory drugs, however, may actually 
accelerate the progression of osteoarthritis (
30
). At the present time, the mechanism of niacinamide's action is not known.
Niacinamide should be administered in at least three divided doses because it has a rapid half-life. On rare occasions, hepatotoxicity has developed with high-dose 
niacinamide. Therefore, liver enzymes (aminotransferases) should be monitored periodically, and patients should be advised to watch for nausea (an apparent early 
warning sign of niacinamide hepatotoxicity). Note that niacinamide causes liver damage less frequently than does niacin (nicotinic acid). When used appropriately, 
niacinamide is well tolerated and appears to be safer than nonsteroidal anti-inflammatory drugs.
Glucosamine sulfate, a compound that occurs naturally in the body, has also been shown to be effective in the treatment of osteoarthritis. Glucosamine sulfate is a 
precursor for the synthesis of the proteoglycans that make up joint cartilage and has also been shown to inhibit the degradation of proteoglycans (
31
). In one study, 
20 patients with osteoarthritis of the knee received glucosamine sulfate (500 mg, 3 times daily) or a placebo for 6 to 8 weeks. Glucosamine sulfate was significantly 
more effective than placebo in relieving symptoms of pain, joint tenderness, and swelling. The results were rated as excellent in all 10 patients receiving glucosamine 
sulfate, whereas all 10 patients given placebo rated the results as fair or poor (
32
).
In another study, 40 patients with osteoarthritis of the knee received, in double-blind fashion, either glucosamine sulfate (500 mg, 3 times daily) or ibuprofen (1.2 
g/day) for 8 weeks. The rate of improvement was slower in the glucosamine sulfate group, but the degree of improvement increased in that group as the study 
progressed. By the eighth week, glucosamine sulfate was significantly more effective than ibuprofen (
33
). Other studies have confirmed the effectiveness of 
glucosamine sulfate against osteoarthritis (
34
, 
35
). This compound appears to act directly on the disease process, reversing tissue degeneration and stimulating the 
production of healthy joint cartilage (
36
). Glucosamine sulfate is generally well tolerated and has not been reported to cause serious side effects or significant 
changes in standard laboratory parameters. An orthomolecular treatment for osteoarthritis of the knee may involve a combination of the previously mentioned and 
other compounds.
Gingivitis
Three small studies of nutritional therapy in gingivitis combine to provide another useful treatment. Thirty healthy volunteers participated in a double-blind study of the 
effect of folic acid on gingival health. Each participant rinsed his or her mouth twice daily with 5 mL of a 0.1% solution of folic acid or placebo. After 60 days, gingival 
inflammation (as assessed by the gingival index and bleeding index) was significantly less in the folic acid group than in the placebo group (
37
). Similar results were 
obtained after oral administration of folic acid (4 mg/day) (
38
).
CoQ
10
 also appears to play a role in the prevention and treatment of gingivitis. Gingival biopsies have revealed subnormal concentrations of CoQ
10
 in 60 to 96% of 
patients with periodontal disease (
39
, 
40
). Eighteen patients with periodontal disease received either CoQ
10
 (50 mg/day) or a placebo for three weeks in a 
double-blind trial. All 8 patients receiving CoQ
10
 improved, whereas only 3 of 10 patients receiving placebo showed improvement (p < 0.01) (
41
). Orthomolecular 
physicians have found that combining these two approaches is very helpful in treating gingivitis.
Fatigue
Fatigue, which has many causes, is a common and often difficult problem to treat. Vitamin B
12
 has long been used as a general “tonic” to relieve fatigue and to 
enhance well-being. Although vitamin B
12
 injections are widely used, most physicians believe that the benefits are purely a placebo effect. The efficacy of vitamin B
12
 
as a tonic was investigated in a 1973 double-blind study. Twenty-eight individuals complaining of fatigue (all of whom had normal serum levels of vitamin B
12
) 
received intramuscular injections of vitamin B
12
 (hydroxocobalamin; 5 mg twice weekly) or a placebo, each for two weeks. Compared with placebo, vitamin B
12
 
treatment produced significant improvements in general well-being (p = .006) and happiness (p = .032). Improvements in fatigue (p = .09) and appetite (p = .073) were 
of borderline statistical significance (
42
). Other studies have not always shown benefit.
Another compound that has been found to be useful in the treatment of fatigue is potassium magnesium aspartate. It is thought that fatigue may in some cases be a 
result of inefficient mitochondrial energy production and, because of key roles in this process, potassium magnesium aspartate might be expected to improve 
mitochondrial function. Magnesium is involved in the synthesis of ATP and potassium in the stabilization of membranes. Aspartate serves as a substrate for the 
tricarboxylic acid (Krebs) cycle, and there is evidence that aspartate promotes the facilitated transport of potassium and magnesium into mitochondria.
Three double-blind, placebo-controlled studies that included a total of nearly 3000 patients have evaluated the effect of potassium magnesium aspartate (usually 1 g 
twice daily) in the treatment of fatigue. An improvement in symptoms was reported by 75 to 91% of patients receiving active treatment, compared to only 5 to 25% of 
patients given placebo (
43
, 
44
 and 
45
). The author's experience is that a combination of these treatments, along with others, can significantly help many patients who 
have fatigue of unknown etiology.
Kidney Stones
Approximately 75% of the kidney stones that occur among Americans consist wholly or partly of calcium oxalate. Magnesium is known to inhibit the formation of 
calcium oxalate crystals (
46
), and vitamin B
6
 has been reported to reduce urinary oxalate levels, apparently by reducing its endogenous synthesis (
47
). In one study, 
55 patients with recurrent kidney stones received 500 mg/day of magnesium (in the form of magnesium hydroxide) for up to 4 years. Urinary magnesium increased 
and remained elevated during the entire treatment period. The mean number of stone recurrences was reduced by 90%, and 85% of the patients remained stone-free 
(
48
). In another study, 149 patients with recurrent stone formation were given 300 mg of magnesium oxide (equivalent to 180 mg of magnesium) and 10 mg of vitamin 
B
6
 daily for 4.5 to 6 years. During this period, the mean stone formation rate decreased by 92.3%, from 1.3 to 0.1 stones per person per year (
49
). More research is 
needed, but the treatment is inexpensive and safe, warranting use for those with recurrent stones.
Osteoporosis

The effects of calcium, vitamin D, and estrogen on osteoporosis prevention are well known. However, several other nutrients also appear to play an important role in 
osteoporosis prevention. Magnesium, which constitutes up to 1% of bone ash, regulates calcium transport and bone mineralization. In one study, magnesium 
deficiency was demonstrated in 16 of 19 women with osteoporosis (
50
). Thirty-one postmenopausal women with osteoporosis received magnesium (250–750 mg/day) 
for 1 year. During that time, bone density increased in 22 women (71%) and remained stable in another 5 (
51
).
Vitamin K is required for the synthesis of osteocalcin, the bone protein that promotes mineralization of bone. In one study, the mean serum vitamin K concentration 
was significantly lower (by 56%) in patients with a history of vertebral crush fractures than in age-matched controls (
52
). In a clinical trial in Japan, supplementation 
with vitamin K markedly reduced bone loss in postmenopausal women (
53
).
Trace minerals also appear to play a role in osteoporosis prevention. Postmenopausal women treated with calcium plus trace minerals (e.g., zinc, copper, and 
manganese) for 2 years showed a 1.48% increase in mean bone mineral density (BMD), whereas mean BMD decreased by 1.25% in women receiving calcium alone. 
Calcium plus trace minerals, but not calcium alone, was significantly more effective than placebo in preventing bone loss (
54
). In another study, administration of 
copper (3 mg/day) significantly reduced bone loss relative to placebo (
55
). There is evidence that other nutrients (including folic acid, vitamin B
6
, vitamin D, boron, 
silicon, and strontium) may also be important for osteoporosis prevention (
56
, 
57
). Although these studies are small and the nutrients have not yet been evaluated in 
combination, the ability to monitor bone loss allows the physician to determine when the nutrients are effective in individual patients.
Orthomolecular Psychiatry
Nutrient therapy has shown potential in the treatment of schizophrenia, depression, dementia, and other psychiatric disorders.
S
CHIZOPHRENIA
In 1962, Hoffer and Osmond reported that administration of large doses of niacin or niacinamide (usually 3–6 g/day) to schizophrenic patients significantly reduced 
the incidence of re-admission to the hospital (
58
). Follow-up studies by other groups produced equivocal or negative results, and the use of megavitamins for 
schizophrenia has remained controversial. Hoffer later found that ascorbic acid enhanced the effect of niacinamide. More recently, Kanofsky reported that 
administration of large doses of ascorbic acid (up to 6 g/day) resulted in dramatic improvements in some schizophrenics (
59
). After 40 years of experience with 
megavitamin therapy, Dr. Hoffer has stated, “I can confidently tell the family of an acute schizophrenic that there is a 95% chance he or she will be back to normal in 
two years, and if chronic schizophrenic there is a 65% chance of [becoming] normal in ten years” (
60
). Because schizophrenia is a serious condition that is often 
refractory to treatment, controlled clinical trials using the orthomolecular approach are urgently needed, and sedative use in carefully monitored patients seems 
warranted.
D
EPRESSION
Depression is often treated in conventional medicine by drugs designed to increase the concentration or the effect of serotonin, norepinephrine, or other 
neurotransmitters. Supplementation with the precursors of these neurotransmitters may have an effect similar to those of antidepressant drugs. Tryptophan, the 
precursor to serotonin, has been used with some success in the treatment of depression. Administration of niacinamide in combination with tryptophan appears to 
enhance the effectiveness of the latter, possibly by increasing the conversion of tryptophan to serotonin (
61
). Tyrosine, the precursor to norepinephrine, is also 
reportedly effective for some patients with depression (
62
). However, the efficacy of tryptophan and tyrosine has been inconsistent. Buist developed an algorithm to 
help predict which patients are most likely to respond to each of these amino acids (
63
).
D
EMENTIA
Several naturally occurring compounds are being used to treat dementia. In one study, 12 of 16 elderly patients with dementia and polyneuropathy had low levels of 
vitamin B
12
 in the cerebrospinal fluid (CSF). However, only three of these patients had low serum levels of the vitamin. Parenteral administration of vitamin B
12
 was 
associated with clinical improvement (
64
). This study suggests that vitamin B
12
 deficiency (localized to the brain and central nervous system) may play a role in the 
etiology of some cases of dementia. Furthermore, serum vitamin B
12
 measurements may fail to identify this abnormality in many cases. Because obtaining CSF is an 
invasive procedure, and because vitamin B
12
 injections are safe and inexpensive, I recommend a therapeutic trial of intramuscular vitamin B
12
 injections (1000 mcg 
weekly for 6 weeks). If effective, the treatment is continued as needed. Other compounds that are reportedly of value in the treatment of dementia include 
phosphatidylserine (
65
), L-acetylcarnitine (
66
), and nicotinamide adenine dinucleotide (NADH) (
67
). Clearly, much more research is needed before a completely 
rational administration of nutrient therapies is achieved. Currently, there are few documented ways to help identify which patients will benefit from specific nutrient 
therapies. However, an increasing number of functional and serum tests are developing that may aid in a more rational and objective use of orthomolecular medicine 
in the future.

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