More on vitamin
D and brain disorders.
Vitamin D research continues to amaze. The
evidence mounts that vitamin D deficiency has a profound
negative influence on the function of the brain. Previously,
I wrote of the compelling evidence that autism is a vitamin
D deficiency disease and also presented research indicative
of a role of vitamin D in reducing depression, elevating
mood and increasing happiness. Now, we see that in a small
study of seventeen psychiatric patients, two were borderline
deficient and 15 were deficient. Seven had such low levels
that blood tests could not produce an accurate reading.
Encouragingly, the researchers recommended that
mental-health inpatients receive adequate exposure to
sunlight.[1]
In my book, I documented the critical importance of
sunlight/vitamin D to the development and health of the
brain:
1. Prenatal vitamin D deficiency in animals profoundly
alters brain development. [2] [3] Dr. Darryl Eyles and his
colleagues state, “rats born to vitamin D(3)-deficient
mothers had profound alterations in the brain at birth. The
cortex was longer but not wider, the lateral ventricles were
enlarged, the cortex was proportionally thinner and there
was more cell proliferation throughout the brain… Our
findings would suggest that low maternal vitamin D(3) has
important ramifications for the developing brain."[2]
2. Rats born to vitamin D-deficient mothers also have
permanently damaged brains into adulthood[4] and exhibit
hyperlocomotion (excessive movement from place to place) at
the age of ten weeks.[5] Could this relate to hyperactivity
in our children? Such rats also show impairment in learning
and memory skills.
3. People hospitalized for bipolar disorder, and who are
exposed to sunlight daily, are able to leave the hospital
almost four days earlier than those who are not exposed, [6]
and people hospitalized for seasonal affective disorder
(SAD) also have shorter stays when they are placed in rooms
on the sunny side of the hospital.[7]
4. Two studies of mice with abnormal vitamin D receptors (VDR)
in the brain found an increase in anxiety, aggression, poor
grooming, maternal pup neglect and cannibalism.[8] [9]
Abnormal VDR cause a situation similar to vitamin D
deficiency; the vitamin D that is available cannot properly
stimulate the genes that prevent the anxiety, cannibalism,
etc.
5. Another vital function of vitamin D is in inducing the
production of nerve-growth factor (NGF), a protein that is
essential for proper development of nerve cells in the brain
and elsewhere.[10] [11] It is obvious that if vitamin D is
not present, nerve cells will simply not develop as they
should in the central nervous system and brain, leading to
the mental disorders we discuss here.
Can it be that the Powers of Darkness (the “sunscare”
promoters) are partially responsible for the widespread
depression, negativism, anxiety and psychological disorder
that plague our society to a greater extent each year? Their
efforts, coupled with modern indoor lifestyles, are leading
to increases in a plethora of diseases, some of which are
disorders of the brain. I believe it will be only a matter
of time until vitamin D deficiency in pregnant women will be
correlated to abnormally low IQ in the children they bear.
In this blog, we have already discussed autism as a vitamin
D deficiency disease, and there is an indication that women
who conceive in the fall and winter tend to bear more
dyslexic children,[12] as well as children with other
learning and reading disabilities.[13] [14] The nervous
system’s critical time to develop neural connections is in
the first months after conception. If the pregnant woman is
low in vitamin D during that time, it could affect the
development of the fetal brain.
Activated vitamin D is a potent hormone that is essential
for proper brain development. As a society and as parents,
we cannot wait for more research before acting on the crying
need for optimal vitamin D levels. Our mental and physical
health, as well as that of our children, depends on it!
[1] Tiangga, E. et al. Psychiatric Bulletin 2008;32:390-93
[2] Eyles, D. et al. Vitamin D3 and brain development.
Neuroscience 2003;118:641-53.
[3] McGrath, J. et al. Vitamin D3-implications for brain
development. J Steroid Biochem Mol Biol 2004;89-90:557-60.
[4] Feron, F. et al. Developmental vitamin D3 deficiency
alters the adult rat brain. Brain Res Bull. 2005 Mar
15;65(2):141-8.
[5] Burne, T. et al. Transient prenatal Vitamin D deficiency
is associated with hyperlocomotion in adult rats. Behav
Brain Res 2004;154:549-55.
[6] Benedetti, F. et al. Morning sunlight reduces length of
hospitalization in bipolar depression. J Affect Disord
2001;62:221-23.
[7] Beauchemin, K. et al. sunny hospital rooms expedite
recovery from severe and refractory depressions. J Affect
Disord 1996;40:49-51.
[8] Kalueff, A. et al. Increased anxiety in mice lacking
vitamin D receptor gene. Neuroreport 2004;15:1271-74.
[9] Kalueff, A. et al. Behavioral anomalies in mice evoked
by Tokyo disruption of the vitamin D receptor gene. Neurosci
Res 2006;54:254-60.
[10] Kiraly,S et al. Vitamin D as a neuroactive substance:
review. Scientific World Journal 2006;6:125-139.
[11] Carlson, A. et al. Is vitamin D deficiency associated
with peripheral neuropathy? The Endocrinologist
2007;17:319-25.
[12] Livingston, R. et al. Season of birth and
neurodevelopmental disorders: summer birth is associated
with dyslexia. J Am Acad Child Adolesc Psychiatry.
1993;32:612-6.
[13] Badian, N. Reading Disability in an Epidemiological
Context: Incidence and Environmental Correlates. J Learn
Disabil. 1984;17:129-36.
[14] Martin, R. Season of birth is related to child
retention rates, achievement, and rate of diagnosis of
specific LD. J Learn Disabil 2004;37:307-17
|
