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Studies of High Dosage Vitamin B6 (and often with Magnesium) in
Autistic Children and Adults
===============================================================

1965 - 2005

(Twenty-one of twenty-two studies yielded positive results, including
13 double-blind placebo-controlled trials; even minor adverse effects
rarely were seen)

AUTHOR/YEAR

SUBJECT/DOSAGE

DESIGN/OUTCOME

1. Heeley & Roberts (1965)

16 autistic children
30 mg, B6 one time
(one child continued)

Tryptophan load test. 11 of 16
Children normalized urine.
(Child who continued showed
"remarkable" progress)

2. Bonisch (1968)

16 autistic children
100 mg - 600 mg B6
(mostly 300-400 mg)

Open trial 12 of 16 improved,
3 spoke for the first time

3. Rimland (1973)

190 autistic children
4 megavitamins; 150 mg
to 450 mg B6

Compared B6 effect in computer-
selected subgroups; computer "blind"
to treatment effects.
45% "definite improvement" (p<.02)

4. Rimland, Callaway,
Dreyfus (1978)

16 autistic children
75 mg to 3,000 mg B6
(mostly 300-500 mg)

Double-blind placebo crossover,

11 of 15 better on B6 (p<.05)

5. Gualtieri et al. (1981)

15 autistic children
300 mg to 900 mg B6
plus other vitamins & minerals

Open trial 12 weeks, then
No-treatment period. 6
Children showed "substantial"
improvement. Basal serum
Prolactin levels (PRL) were
lower in responders. (p<.05)

6. Ellman (1981)

16 autistic adults and
adolescents.
1 gram/day B6
500 mg/day magnesium

Double-blind placebo
Crossover. Four showed
Global improvement, five
showed partial improvement.

7. Barthelemy et al. (1981)

52 autistic children
11 normal controls
30 mg/kg/day B6 (up to
1 gram) 10-15 mg/kg/day
magnesium

Three double-blind crossovers,
comparing B6 alone,
magnesium alone, and B6 +
magnesium with placebo.
B6 + magnesium was best.
Highly significant (p<.01-p<.001)

Decreases in autistic behaviors;
Significant (p<.02) decrease in urinary HVA.

8. LeLord et al. (1981)

Study 1: 44 children
With autistic symptoms.
Study 2: 21 children
selected from above 44.
600 mg-1,125 mg/day B6
400 mg-500 mg/day
magnesium

Study 1: open trial to identify
responders.
Study 2: double-blind placebo
crossover comparing responders
and non-responders.
15 of 44 improved. In 14 of
15, improvement disappeared
3 weeks after cessation of
treatment. Double-blind study
confirmed behavior improvement
(p<.01). HVA levels levels (n=37)
also improved (p<.01).

9. Martineau et al. (1982)

24 autistic children
30 mg/kg/day B6
15 mg/kg/day magnesium

Compared electrophysiological
effects of magnesium given
alone or with B6. In
conditioning experiment, B6 +
magnesium significantly
improved brain response
latencies and amplitudes (p<.05).

10. Jonas et al. (1984)

1. autistic adults
2. gram/day B6
3. 80 mg/day magnesium

Double-blind crossover
Behavior improved significantly;
non-significant improvement in
HVA excretion.

11. Martineau et al. (1985)

60 autistic children
30 mg/kg/day B6 (up to
1 gram/day)
10 mg-15 mg/kg/day
magnesium

1. crossed-sequential double-blind trials, comparing B6 alone, magnesium alone, and B6 + magnesium with placebo. B6 + magnesium was best. Significant improvement in behavior, HVA excretion, and evoked potentials.

12. Martineau et al. (1986)

One 4-year-old child
30 mg/kg/day B6
15 mg/kg/day magnesium

Long term (8 mo.) study.
Clear improvement in behavior,
HVA levels, and evoked
potentials over the 8 months;
deterioration six weeks after
cessation resulted I reinstating
B6 + magnesium treatment.

13. Martineau et al. (1988)

11 autistic children
30 mg/kg/day B6
10 mg/kg/day magnesium

Controlled study; eight weeks
of treatment followed by no-
treatment period. B6 group showed
significant behavioral improvement,
normalization of evoked
potentials, drop in dopamine
levels. Behaviors returned to
baseline when treatment
was discontinued.

14. Martineau et al. (1989)

1. autistic children
2. 0 mg/kg B6,
3. 0 mg/kg magnesium 8 weeks,
4. autistic children given
5. .5 mg/kg fenfluramine 12 weeks.

Comparisons made in
electrophysiological (AER)
effects of the two treatments.
B6, but not fenfluramine,
"resulted in the appearance of
a conditioning phenomenon and the
demonstration of auditory-visual and
auditory-tactile cross-modal
associations during treatment."

15. Rossi et al. (1990)

Open trial on 30 autistic
patients

40% of patients improved "in the
most typical behavioral features of
autism." HVA, VMA and 5HIAA
levels did not correlate with clinical
improvement.

16. Moreno et al. (1992)

60 families with
autistic children
studied with battery
of clinical and
biochemical tests

"Three out of eight probands who
received megadoses of pyridoxine
(vitamin B6), subjectively gained in
language abilities, affectivity, and
response to conductial modification
therapy."

17. Menage et al. (1992)

10 autistic children
7 control children

1. boys on megadose B6/magnesium for 8 weeks: "overall improvement of their disorders …. Particularly, improvement was observed for certain autistic symptoms (lack of interest in people, abnormal eye contact, impairment in verbal and nonverbal communication)." Improved T-cell deficits.

18. Findling et al. (1997)

(See critique by Rimland, 1998)

10 autistic children

420-1000 mg B6

140-350 mg magnesium

Double-blind placebo crossover, 4-week trials, no washout period, no
test of compliance. Authors claim no benefit was seen, but were unable
to produce data.

19. Hopkins (1999)

13 autistic children

14 mg/kg/day of B6

(maximum 1 gm/day)

magnesium=1/2 dosage of B6

Double-blind placebo controlled study.

One month washout period between B6-placebo phases.

Eight of 13 subjects (61%) showed benefit, using behavioral and
electrophysiological data (increased amplitude and decreased latency
of P300 responses).

20. Audhya (2002)

184 autistic children on increasing doses of B6 and magnesium, not to
exceed 20 mg/kg/day of B6

89 children (48%) improved significantly, 86 (47%) improved
marginally, and 9 (5%) showed worse behavior. (Main thrust of research
was to study laboratory indices of metabolic status of the children.)

21. Kuriyama (2002)

16 "PDD" children, ages 6-16, 200 mg/day B6 (far below usual megadose
range, and no magnesium was used)

4-week randomized double blind placebo-controlled study, subjects on
B6 showed 11.2 IQ point increase compared to 6 points for placebo
group (statistically significant)

22. Rimland & Edelson (2005)

5780 autistic children and adults. B6 and magnesium dosages decided by
parents and physicians

Parents rated 85 biomedical interventions as to safety and efficacy.
B6 and magnesium were rated "Helpful" in 47%, "No effect" in 49%, and
"Made worse" in 4%.

References

Audhya, T. (2002, October).  Laboratory indices of vitamin and mineral
deficiency in autism.  Paper presented at the Defeat Autism Now!
Conference, San Diego, California.

Barthelemy, C., Garreau, B., Leddet, I., Ernouf, D., Muh, J.P., &
LeLord, G. (1981).Behavioral and biological effects of oral magnesium,
vitamin B6, and combined magnesium-B6 administration in autistic
children.Magnesium Bulletin, 3, 150-153.

Bonisch, V.E. (1984).  Erfahrungen mit pyrithioxin bei
hirngeschadigten kindern mit autistischem syndrom.Praxis der
Kinderpsychologie, 8, 308-310.

Ellman, G. (1981, November).  Pyridoxine effectiveness on autistic
patients at Sonoma State Hospital.Paper presented at Research
Conference on Autism, San Diego, CA.

Findling, R.L., Maxwell, K., Scotese-Wojtila, L., Huang, J.,
Yamashita, T., & Wiznitzer M. (1997).  High-dose pyridoxine and
magnesium administration in children with autistic disorder: an
absence of salutary effects in a double-blind, placebo-controlled
study. Journal of Autism and Developmental Disorders, 27, 467-478.

Gualtieri, C.T., Von Bourgondien, M.E., Hartz, C., Schopler, E., &
Marcus, L. (1981, May). Pilot study of pyridoxine treatment in
autistic children.Paper presented at American Psychiatric Association
meeting, New Orleans, LA.

Heeley, A.G., & Roberts, G.E. (1966).  A study of tryptophan
metabolism in psychotic children.Developmental Medicine and Child
Neurology, 3, 708-718.

Hopkins, J.N. (1999).  The effects of vitamin B6 supplements on the
behaviour and brain activity of subjects with autism.  Unpublished
master’s thesis, Swinburne University of Technology, Victoria,
Australia.

Jonas, C., Etienne, T., Barthelemy, C., Jouve, J., & Mariotte, N.
(1984).Interet clinique et biochimique de l’association vitamine B6 +
magnesium dans le traitement de l’autisme residuel a l’age adulte.Therapie,
39, 661-669.

Kuriyama, S., Kamiyama, M., Watanabe, M., & Tamahashi, S.
(2002).Pyridoxine treatment in a subgroup of children with pervasive
developmental disorders.  Developmental Medicine & Child Neurology, 44,
284-286.

LeLord, G., Muh, J.P., Barthelemy, C., Martineau, J., Garreau, B., &
Callaway, E. (1981).  Effects of pyridoxine and magnesium on autistic
symptoms: initial observations.Journal of Autism and Developmental
Disorders, 11, 219-230.

Martineau, J., Garreau, B., Barthelemy, C., & LeLord, G.
(1982).Comparative effects of oral B6, B6-Mg, and Mg administration on
evoked potentials conditioning in autistic children.In A. Rothenberger
(Ed.), Proceedings: Symposium on Event-Related Potentials in Children
(pp.411-416).  Essen, F.R.G. 11-13 June, 1982. Elsevier Biomedical
Press, Amsterdam.

Martineau, J., Barthelemy, C., Garreau, B., & LeLord, G.
(1985).Vitamin B6, magnesium and combined B6-Mg: therapeutic effects
in childhood autism. Biological Psychiatry, 20, 467-468.

Martineau, J., Bathelemy, C., & LeLord, G. (1986). Long-term effects
of combined vitamin B6-magnesium administration in an autistic child.
Biological Psychiatry, 21, 511-518.

Martineau, J., Barthelemy, C., Cheliakine, C., & LeLord, G.
(1988).Brief report: an open middle-term study of combined vitamin
B6-magnesium in a subgroup of autistic children selected on their
sensitivity to this treatment.  Journal of Autism and Developmental
Disorders, 18, 435-447.

Martineau, J., Barthelemy, C., Roux, S., Garreau, B., & LeLord, G.
(1989).Electrophysiological effects of fenfluramine or combined
vitamin B6 and magnesium on children with autistic behavior.Developmental
Medicine and Child Neurology, 31, 728-736.

Menage, P., Thibault, G., Barthelemy, C., LeLord, G., & Bardos, P.
(1992).CD4+ CD45RA+ T lymphocyte deficiency in autistic children:
effect of a pyridoxine-magnesium treatment.Brain Dysfunct., 5,
326-333.

Moreno, H., Borjas, L., Arriela, A., Saez, L., Prassad, A., Estevez,
J., & Bonilla, E. (1992).  Heterogeneidad clinica del syndrome
autista: un estudio en sesenta familias.Invest Clin, 33, 13-31.

Rimland, B. (1973).  High dosage levels of certain vitamins in the
treatment of children with severe mental disorders.In D. Hawkins & L.
Pauling (Eds.), Orthomolecular Psychiatry (pp. 513-538). New York:
W.H. Freeman.

Rimland, B. (1988).  Controversies in the treatment of autistic
children: vitamin and drug therapy.Journal of Child Neurology, 3
(suppl.), S68-S72. (The data reported in this paper are augmented by a
greatly increased number of cases in: Rimland, B. and Edelson, S.M.,
2005, cited in present review).

Rimland, B. (1998).  High dose vitamin B6 and magnesium in treating
autism: Response to study by Findling et al.Journal of Autism and
Developmental Disorders, 28, 581-582.

Rimland, B., Callaway, E., & Dreyfus, P. (1978). The effects of high
doses of vitamin B6 on autistic children: a double-blind crossover
study. American Journal of Psychiatry, 135, 472-475.

Rimland, B., & Edelson, S.M. (2005).  Parent ratings of behavior
effects of biomedical interventions (Pub. 34, Rev. March 2005).  San
Diego: Autism Research Institute.

Rossi, P., Visconti, P., Bergossi, A., & Balcatra, V. (1990,
November).Effects of vitamin B6 and magnesium therapy in autism.Paper
presented at the Neurobiology of Infantile Autism Conference, Tokyo,
Japan.

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