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Query: UMLS:C0004352 (
autism
)
32,579
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recent studies have suggested that
iron
deprivation may represent a useful new approach in cancer therapy, and several strategies for producing such deprivation are now under investigation. Thus, for example, we recently provided evidence that combined treatment with the
iron
chelator deferoxamine and an IgG monoclonal antibody against the transferrin receptor (ATRA) produces synergistic inhibition of hematopoietic tumor cell growth in vitro (J. D. Kemp, K. M. Smith, L. J.
Kanner
, F. Gomez, J. A. Thorson, and P. W. Naumann, Blood, 76: 991-995, 1990). The current study is an attempt to analyze the mechanisms responsible for the synergistic interaction. The data show that a single IgG ATRA can produce up to 75% inhibition of
iron
uptake while having little effect on DNA synthesis; this suggests that tumor cells either take up or have stored amounts of
iron
well in excess of that required to support immediate metabolic needs. When deferoxamine and the IgG ATRA are used together, the effects on
iron
acquisition and receptor down-modulation are either additive or subadditive but are clearly not synergistic. Overall, the findings suggest that the IgG ATRA produces an injury to
iron
uptake that is just below a critical threshold and that the additional effect provided by the
iron
chelator is sufficient to exceed that threshold and produce a rapid depletion of
iron
pools that are vital for short-term DNA synthesis. IgG ATRAS thus seem to be of even greater interest as therapeutic reagents, and further study of their properties and of how they interact with deferoxamine appears to be warranted.
...
PMID:Inhibition of hematopoietic tumor growth by combined treatment with deferoxamine and an IgG monoclonal antibody against the transferrin receptor: evidence for a threshold model of iron deprivation toxicity. 163 29
This research considers the prevalence of iron deficiency in children with
autism
and Asperger syndrome and examines whether this will influence guidelines and treatment. Retrospective analysis of the full blood count and, as far as available, serum ferritin measurements of 96 children (52 with
autism
and 44 with Asperger syndrome) was undertaken. Six of the autistic group were shown to have iron deficiency anaemia and, of the 23 autistic children who had serum ferritin measured, 12 were
iron
deficient. Only two of the Asperger group had iron deficiency anaemia and, of the 22 children who had their serum ferritin measured, only three were
iron
deficient. Iron deficiency, with or without anaemia, can impair cognition and affect and is associated with developmental slowing in infants and mood changes and poor concentration in children. This study showed a very high prevalence of iron deficiency in children with
autism
, which could potentially compromise further their communication and behavioural impairments.
Autism
2002 Mar
PMID:Iron deficiency in autism and Asperger syndrome. 1191 6
Autism
is a profoundly and poorly understood developmental disorder that impairs a person's social and communication abilities. I propose a hypothesis that the excessive dietary
iron
consumed by today's infants is the root cause of increased cases of
Autism
, allergies and other childhood diseases.
Iron
is a powerful immune system modulator. Excess
iron
causes hyperactive immune system. This hyperactive immune system attacks undigested food peptides. The chemicals released during these intense allergic reactions can damage surrounding tissue. Neurodegeneration is caused by combination of, oxidative stress induced by free
iron
radicals and intense immune reactions.
Iron
chelators have shown beneficial results in
Autism
and allergies.
...
PMID:Excess dietary iron is the root cause for increase in childhood autism and allergies. 1288 7
Autism
is a neurological disorder of childhood with poorly understood etiology and pathology. We compared lipid peroxidation status in the plasma of children with
autism
, and their developmentally normal non-autistic siblings by quantifying the levels of malonyldialdehyde, an end product of fatty acid oxidation. Lipid peroxidation was found to be elevated in
autism
indicating that oxidative stress is increased in this disease. Levels of major antioxidant proteins namely, transferrin (
iron
-binding protein) and ceruloplasmin (copper-binding protein) in the serum, were significantly reduced in autistic children as compared to their developmentally normal non-autistic siblings. A striking correlation was observed between reduced levels of these proteins and loss of previously acquired language skills in children with
autism
. These results indicate altered regulation of transferrin and ceruloplasmin in autistic children who lose acquired language skills. It is suggested that such changes may lead to abnormal
iron
and copper metabolism in
autism
, and that increased oxidative stress may have pathological role in
autism
.
...
PMID:Oxidative stress in autism: increased lipid peroxidation and reduced serum levels of ceruloplasmin and transferrin--the antioxidant proteins. 1536 59
While neuroimaging studies have reported neurobiological abnormalities in
autism
, the underlying tissue abnormalities remain unclear. Quantitative transverse relaxation time (T2) imaging permits the examination of tissue abnormalities in vivo, with increased T2 largely reflecting increased tissue water. Blood flow and the presence of tissue
iron
may also affect T2. In this study, we used voxel-based relaxometry of the cerebrum and global averages to examine T2 abnormalities in
autism
. Nineteen males with
autism
(age: 9.2 +/- 3.0 years) and 20 male controls (age: 10.7 +/- 2.9 years) underwent magnetic resonance imaging at 3.0 T. Quantitative T2 maps, generated through gradient echo sampling of the free induction decay and echo, were segmented into gray matter, white matter, and cerebrospinal fluid. Average cerebral gray and white matter T2 were determined and compared between groups. To assess localized T2 differences, the quantitative T2 maps were warped to a template created for this study, smoothed, and compared using statistical parametric mapping. Patients with
autism
had an increase in average cerebral white matter T2, although no group differences were seen in average cerebral gray matter T2. Patients with
autism
also had bilateral regional T2 increases in the gray matter and associated white matter of the parietal lobes (primary sensory association areas) and occipital lobes (visual association areas) and in the white matter within the supplementary motor areas in the frontal lobes. The regional and global elevations in white matter T2 suggest abnormalities of white matter tissue water content in
autism
, which may represent a neurobiological basis for the aberrant cortical connectivity hypothesized to underlie the disorder.
...
PMID:White matter abnormalities in autism detected through transverse relaxation time imaging. 1621 73
Autism
is a severe developmental disorder with poorly understood etiology. Oxidative stress in
autism
has been studied at the membrane level and also by measuring products of lipid peroxidation, detoxifying agents (such as glutathione), and antioxidants involved in the defense system against reactive oxygen species (ROS). Lipid peroxidation markers are elevated in
autism
, indicating that oxidative stress is increased in this disease. Levels of major antioxidant serum proteins, namely transferrin (
iron
-binding protein) and ceruloplasmin (copper-binding protein), are decreased in children with
autism
. There is a positive correlation between reduced levels of these proteins and loss of previously acquired language skills in children with
autism
. The alterations in ceruloplasmin and transferrin levels may lead to abnormal
iron
and copper metabolism in
autism
. The membrane phospholipids, the prime target of ROS, are also altered in
autism
. The levels of phosphatidylethanolamine (PE) are decreased, and phosphatidylserine (PS) levels are increased in the erythrocyte membrane of children with
autism
as compared to their unaffected siblings. Several studies have suggested alterations in the activities of antioxidant enzymes such as superoxide dismutase, glutathione peroxidase, and catalase in
autism
. Additionally, altered glutathione levels and homocysteine/methionine metabolism, increased inflammation, excitotoxicity, as well as mitochondrial and immune dysfunction have been suggested in
autism
. Furthermore, environmental and genetic factors may increase vulnerability to oxidative stress in
autism
. Taken together, these studies suggest increased oxidative stress in
autism
that may contribute to the development of this disease. A mechanism linking oxidative stress with membrane lipid abnormalities, inflammation, aberrant immune response, impaired energy metabolism and excitotoxicity, leading to clinical symptoms and pathogenesis of
autism
is proposed.
...
PMID:Oxidative stress in autism. 1676 63
The present study was undertaken to evaluate the nutritional status of children with special needs in Alexandria city, on the basis of nutrient intake and food consumption. Socio-demographic characteristics and dietary data were determined in a sample of 231 disabled children chosen randomly from five specialized day care centers. Results showed that the age of the sample ranged from less than 7 to 24 years with a mean age of 12.6 +/- 4.7 years. Mental retardation represents the highest proportion of subjects followed by Down's syndrome and then
Autism
Male subjects were found to consume higher nutrients than females at all ages except age under seven years. The intake of both gender was less than the recommended for energy, calcium, vitamin A, niacin and zinc. While the intake of protein and vitamin C was more than the RDA
Iron
intake was below the recommended for females at all ages and within the acceptable level for male. The results also showed that there is a relationship between nutrient intake and disability type. Down syndrome children were found to consume more nutrients than mentally retarded and autistic subjects.
...
PMID:Assessment of the nutritional status of children with special needs in Alexandria: I. Nutrient intake and food consumption. 1691 48
To determine if there is a relationship between low serum ferritin and sleep disturbance in children with
autism
spectrum disorder, an 8-week open-label treatment trial with oral
iron
supplementation was conducted as a pilot study. At baseline and posttreatment visits, parents completed a Sleep Disturbance Scale for Children and a Food Record. Blood samples were obtained. Thirty-three children completed the study. Seventy-seven percent had restless sleep at baseline, which improved significantly with
iron
therapy, suggesting a relationship between sleep disturbance and iron deficiency in children with
autism
spectrum disorder. Sixty-nine percent of preschoolers and 35% of school-aged children had insufficient dietary
iron
intake. Mean ferritin increased significantly (16 microg/L to 29 microg/L), as did mean corpuscular volume and hemoglobin, suggesting that low ferritin in this patient group resulted from insufficient
iron
intake. Similar prevalence of low ferritin at school age as preschool age indicates that children with
autism
spectrum disorder require ongoing screening for iron deficiency.
...
PMID:Children with autism: effect of iron supplementation on sleep and ferritin. 1735 47
The cerebellum coordinates movement, thought and emotion through its feedback projections from the deep cerebellar nuclei. Despite recent advancement in our understanding of the functions of the cerebellar cortex, little is known about the functional correlates of the deep cerebellar nuclei in humans. This is mainly due to the inability of current MRI techniques to visualize the cerebellar nuclei and therefore perform in vivo clinico-anatomical correlation studies in patient populations. Here we visualize in vivo the detailed anatomy of the dentate nucleus and other cerebellar nuclei using quantitative T1 and proton density (rho) imaging. Compared to conventional qualitative T1, T2 or T2*-weighted imaging, quantitative T1 and proton density (rho) imaging facilitates direct visualization of the dentate and interposed nuclei, allowing us to perform segmentation and volumetric measurements of the dentate nucleus. Also the fine architecture of the microgyric and macrogyric dentate nucleus was visible on the high-resolution images. The high concentration of paramagnetic
iron
within the cerebellar nuclei and the resulting local field inhomogeneities surrounding the
iron
-containing nuclei is believed to be responsible for the observed effect on T1 and proton density signal. The application of this technique to disorders with cerebellar dysfunction could provide new insight into pathologies like
autism
and movement disorders.
...
PMID:Visualization of the deep cerebellar nuclei using quantitative T1 and rho magnetic resonance imaging at 3 Tesla. 1770 7
The Declaration of Nutrition, Health, and Intelligence for the Child-to-be is an urgent cry from the unborn child for a life-span of nutrients for physical and mental wellness. It is a proclamation of paramount importance for everyone involved in child development: parents, health professionals, teachers, government agencies, all producers of food--and children, so they may learn how to feed themselves well. The Declaration of Olympia on Nutrition and Fitness, 1996, came from a group pf nutritional scientists and medical doctors to commemorate the Olympic Games' 100th anniversary. They based it on the health principles of Hippocrates: genetics, the age of the individual, the powers of various foods, and exercise. Following today's vast wealth of nutritional research and expressing it with my teaching experience, I have revitalized the Declaration of Olympia by writing from the heart of the little learner and the hope of the child-to-be. The nutrients implicated in healthy reproduction and lifelong health include B vitamins, particularly B1, B6, folate, B1312 antioxidants, particularly vitamins C and E: minerals such as
iron
, zinc, magnesium, selenium, iodine, and copper; and essential fatty acids, particularly DHA. These nutrients also lower the risk of neural tube defects:
autism
, dyslexia, Down's syndrome: childhood cancers, obesity, and defective fetal cell membranes associated with maternal diabetes. Our metabolism is hugely influenced also by activity and by affection. Today's foods are often processed beyond the cells' recognition and can result in neurological and physical morbidity and mortality. A diet of unprocessed free-range animals and seafood: legumes, deep-colored vegetables and fruits: nuts, seeds, and whole grains, germ and bran, reinstates nutritional potency.
...
PMID:The declaration of nutrition, health, and intelligence for the child-to-be. 1830 69
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