Folate deficiency

	Folate deficiency Microchapters
Home
Patient Information
Overview
Historical Perspective
Classification
Pathophysiology
Causes
Differentiating Folate deficiency from other Diseases
Epidemiology and Demographics
Risk Factors
Screening
Natural History, Complications and Prognosis
Diagnosis
Diagnostic Study of Choice
History and Symptoms
Physical Examination
Laboratory Findings
Electrocardiogram
X ray
Echocardiography and Ultrasound
CT Scan
MRI
Other Imaging Findings
Other Diagnostic Studies
Treatment
Medical Therapy
Surgery
Primary Prevention
Secondary Prevention
Cost-Effectiveness of Therapy
Future or Investigational Therapies
Case Studies
Case #1
Folate deficiency On the Web
Most recent articles
Most cited articles
Review articles
CME Programs
Powerpoint slides
Images
American Roentgen Ray Society Images of Folate deficiency All Images X-rays Echo & Ultrasound CT Images MRI
Ongoing Trials at Clinical Trials.gov
US National Guidelines Clearinghouse
NICE Guidance
FDA on Folate deficiency
CDC on Folate deficiency
Folate deficiency in the news
Blogs on Folate deficiency
Directions to Hospitals Treating Folate deficiency
Risk calculators and risk factors for Folate deficiency

	Folate deficiency;
Error creating thumbnail: File missing
	Folic acid (B9)
ICD-10	D52 E53.8
ICD-9	266.2
DiseasesDB	4894
MedlinePlus	000354
MeSH	D005494

For patient information click here

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Synonyms and keywords: Folic acid deficiency

Folate deficiency can occur when the body's need for folate is increased, when dietary intake or absorption of folate is inadequate, or when the body loses more folate than it acquires from the diet. Certain medications (e.g Anticonvuslants, Methotrexate, Sulfasalazine) can also interfere with the folate metabolism in our body. The deficiency is more common among pregnant women, infants, children, and adolescents. Poor diet and chronic alcoholism is also an important cause of folate deficiency.

Moreover, a defect in homocysteine methyltransferase or a deficiency of cobalamine (B-12) may lead to "folate trap". In vitamin B12 deficiency, the utilization of Methyl THF in the B-12 dependent methylation of homocysteine to methionine is impaired. THF is converted to methyl-THF which cannot be further metabolized, and serves as a sink of THF that leads to a subsequent deficiency in folate. Thus, a deficiency in B-12 can generate a large pool of methyl-THF that is unable to undergo reactions and resembles folate deficiency. Folate is absorbed in the small intestine, mainly in the Jejunum, after binding to specific receptor proteins. Inflammatory or degenerative changes in the small intestine, such as Crohn's disease, chronic enteritis, Celiac disease, may reduce the folate uptake, which gives rise to folate deficiency.

Physiology

In human body folic acid serves a lot of functions such as :

Production and maintenance of new cells
DNA and RNA synthesis
Carrying one-carbon groups for various methylation reactions
Preventing changes to DNA, therefore, for preventing cancer

In adults, normal total body folate is between 10,000–30,000 micrograms (µg) with blood levels of greater than 7 nmol/L (3 ng/mL).

Dietary sources

Folate naturally occurs in a variety of foods, including dark green leaf vegetables, fruits , nuts, soybeans, dairy products, poultry, eggs, seafood, grains, and some beers. Avocado, beetroot, spinach, liver, yeast, asparagus, kale, and Brussels sprouts are among the foods that contain the highest levels of folate. Folate found in food is susceptible to high heat, UV light and may also be susceptible to damage by oxidation. Folic acid is also added to grain products and these fortified products make up a significant source of the population's folate intake. For example enriched flour and fortified rice typically contain folate.

Absorption and Bioavailability

Folates exist as polyglutamates in the diet and need to be enzymatically converted into monoglutamate forms by folate reductase. This takes place in the jejunum where the absorption of folate also occurs. Natural folates are quite unstable and they lose their vitamin activity during food processing. In vegetables the folates can be destroyed by cooking and in grains/cereals folates can be broken down during milling and baking.

Folate itself is not biologically active, but is converted into dihydrofolate, by the enzyme dihydrofolate synthetase, in the liver. This is then converted into tetrahydrofolate (THF) by dihydrofolate reductase.Tetrahydrofolate is converted into 5,10-methylenetetrahydrofolate by serine hydroxymethyltransferase. Tetrahydrofolate and its methylated forms then play a crucial role as methyl donors in different reactions that occurthroughout the body.

Absolute folate deficiency is usually associated with dietary insufficiency but may it also be caused by impairment in the folate absorption. This can occur due to gastrointestinal diseases or certain genetic defects that impair the absorption in the gastrointestinal tract. Other causes may include mutations causing impaired activity of the enzymes involved in folate metabolism. Low levels of blood folate can lead to increased plasma homocysteine, impaired DNA synthesis and DNA repair and may promote the development of some forms of cancers as well.