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==Overview== | ==Overview== | ||
'''Macrocytosis''' is the enlargement of [[red blood cell]]s with near-constant [[haemoglobin]] concentration, and is defined by a [[mean corpuscular volume]] (MCV) of greater than 100 femtolitres (the precise criterion varies between laboratories). | '''Macrocytosis''' is the enlargement of [[red blood cell]]s with near-constant [[haemoglobin]] concentration, and is defined by a [[mean corpuscular volume]] (MCV) of greater than 100 femtolitres (the precise criterion varies between laboratories). | ||
==Pathophysiology and Etiology== | |||
===Biochemical Review=== | |||
[[Image:Redbloodcells.jpg|thumb|left|Human Red Blood Cells]] | |||
* Folate is important in the production of various building blocks necessary for the production of biologic macromolecules. By combining with carbon moieties, tetrahydrofolate (THF) becomes methelenetetrahydofolate. This molecule is then able to donate carbon moieties to form purines, dTMP, and methionine. Of note, Vitamin B12 is also a cofactor in the production of methionine. | |||
* THF is the resulting molecule after donation of carbon moieties except in the synthesis of dTMP from dUMP. DHF (dihydrofolate) results from this reaction. DHF reductase must act on DHF to participate in reactions again. | |||
* The two metabolically active forms of Vitamin B12 are Methycobalamin and Adenosylcobalamin. The former is important in methionine synthesis. Methionine is necessary for the production of choline phospholipids. Adenosylcobalamin is necessary to convert methylmalonyl CoA to succinyl-CoA. Interruption of this reaction eventually leads to nonphysiologic fatty acid production and abnormal neuronal lipid production. | |||
* B12 deficiency also leads to folate metabolism derangement. Tissue folate levels are reduced in the setting of Vitamin B12 deficiency through a complicated biochemical pathway. This is known as the “folate trap hypothesis” and explains why large doses of folate will help the hematological manifestations. The mechanism of the neurologic manifestations remains independent of folate metabolism. | |||
===Body Stores=== | |||
====Folate==== | |||
* Folate has minimum daily requirement of 50 mcg per day this requirement can increase substantially in settings such as pregnancy. | |||
* Total body stores are approximately 5-20mg with half held in the liver. The serum folate level is not a reliable index of tissue folate levels. | |||
* Serum folate levels can go up or down despite normal tissue levels depending on dietary intake and EtOH intake. The RBC (red blood cell) folate level is a better measure of tissue folate stores. | |||
====Vitamin B12==== | |||
* The minimum daily requirement for B12 is 2.5 mcg. | |||
* About 4mg is stored in the body with half in the liver. | |||
* Obviously, it takes much longer to become B12 (3-6 years) versus folate (3 months) if intake ceased abruptly. | |||
* The test for B12 is variable. | |||
==References== | ==References== | ||
{{Reflist|2}} | {{Reflist|2}} | ||
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]
Overview
Macrocytosis is the enlargement of red blood cells with near-constant haemoglobin concentration, and is defined by a mean corpuscular volume (MCV) of greater than 100 femtolitres (the precise criterion varies between laboratories).
Pathophysiology and Etiology
Biochemical Review
- Folate is important in the production of various building blocks necessary for the production of biologic macromolecules. By combining with carbon moieties, tetrahydrofolate (THF) becomes methelenetetrahydofolate. This molecule is then able to donate carbon moieties to form purines, dTMP, and methionine. Of note, Vitamin B12 is also a cofactor in the production of methionine.
- THF is the resulting molecule after donation of carbon moieties except in the synthesis of dTMP from dUMP. DHF (dihydrofolate) results from this reaction. DHF reductase must act on DHF to participate in reactions again.
- The two metabolically active forms of Vitamin B12 are Methycobalamin and Adenosylcobalamin. The former is important in methionine synthesis. Methionine is necessary for the production of choline phospholipids. Adenosylcobalamin is necessary to convert methylmalonyl CoA to succinyl-CoA. Interruption of this reaction eventually leads to nonphysiologic fatty acid production and abnormal neuronal lipid production.
- B12 deficiency also leads to folate metabolism derangement. Tissue folate levels are reduced in the setting of Vitamin B12 deficiency through a complicated biochemical pathway. This is known as the “folate trap hypothesis” and explains why large doses of folate will help the hematological manifestations. The mechanism of the neurologic manifestations remains independent of folate metabolism.
Body Stores
Folate
- Folate has minimum daily requirement of 50 mcg per day this requirement can increase substantially in settings such as pregnancy.
- Total body stores are approximately 5-20mg with half held in the liver. The serum folate level is not a reliable index of tissue folate levels.
- Serum folate levels can go up or down despite normal tissue levels depending on dietary intake and EtOH intake. The RBC (red blood cell) folate level is a better measure of tissue folate stores.
Vitamin B12
- The minimum daily requirement for B12 is 2.5 mcg.
- About 4mg is stored in the body with half in the liver.
- Obviously, it takes much longer to become B12 (3-6 years) versus folate (3 months) if intake ceased abruptly.
- The test for B12 is variable.
References
gl:Anemia megaloblástica he:אנמיה מגלובלסטית it:Anemia megaloblastica sl:Megaloblastna anemija sr:Мегалобластна анемија