Pernicious anemia laboratory findings: Difference between revisions
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==Laboratory Findings== | ==Laboratory Findings== | ||
A diagnosis of pernicious anaemia first requires demonstration of [[megaloblastic anaemia]] (through a [[full blood count]]) and of its direct cause, vitamin B{{ssub|12}} deficiency (by measuring B{{ssub|12}} levels in serum). A [[Schillings test]] can then be used to distinguish pernicious anemia from other causes of vitamin B{{ssub|12}} deficiency (notably [[malabsorption]]. A diagnosis of [[atrophic gastritis]] should be confirmed by [[gastroscopy]] with [[biopsy|biopsies]]. Approximately 90% of individuals with pernicious anemia have antibodies for parietal cells, however only 50% of individuals with these antibodies have pernicious anaemia. | A diagnosis of pernicious anaemia first requires demonstration of [[megaloblastic anaemia]] (through a [[full blood count]]) and of its direct cause, vitamin B{{ssub|12}} deficiency (by measuring B{{ssub|12}} levels in serum). A [[Schillings test]] can then be used to distinguish pernicious anemia from other causes of vitamin B{{ssub|12}} deficiency (notably [[malabsorption]]. A diagnosis of [[atrophic gastritis]] should be confirmed by [[gastroscopy]] with [[biopsy|biopsies]]. Approximately 90% of individuals with pernicious anemia have antibodies for parietal cells, however only 50% of individuals with these antibodies have pernicious anaemia. | ||
*Tests that may used to '''diagnose or monitor''' pernicious anemia include: | |||
:*Complete blood count (CBC) | |||
:*Reticulocyte count | |||
:*Schilling test | |||
:*Serum LDH | |||
:*Serum methylmalonic acid (MMA) level | |||
:*Serum vitamin B12 level | |||
:*Bone marrow examination (only needed if diagnosis is unclear) | |||
:*Measurement of serum holotranscobalamin II | |||
*'''Pernicious anemia may also affect the results of the following tests:''' | |||
:*Bilirubin | |||
:*Cholesterol test | |||
:*Gastrin | |||
:*Leukocyte alkaline phosphatase | |||
:*Peripheral smear | |||
:*TIBC | |||
*Vitamin B12 deficiency affects the appearance of cells that form on the outer surface of the body and line inner passageways (epithelial cells). '''An untreated woman may have a false positive Pap smear'''. | |||
==References== | ==References== | ||
{{Reflist|2}} | {{Reflist|2}} | ||
[[Category:Disease]] | [[Category:Disease]] |
Latest revision as of 18:41, 21 September 2012
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]
Overview
Laboratory Findings
A diagnosis of pernicious anaemia first requires demonstration of megaloblastic anaemia (through a full blood count) and of its direct cause, vitamin BTemplate:Ssub deficiency (by measuring BTemplate:Ssub levels in serum). A Schillings test can then be used to distinguish pernicious anemia from other causes of vitamin BTemplate:Ssub deficiency (notably malabsorption. A diagnosis of atrophic gastritis should be confirmed by gastroscopy with biopsies. Approximately 90% of individuals with pernicious anemia have antibodies for parietal cells, however only 50% of individuals with these antibodies have pernicious anaemia.
- Tests that may used to diagnose or monitor pernicious anemia include:
- Complete blood count (CBC)
- Reticulocyte count
- Schilling test
- Serum LDH
- Serum methylmalonic acid (MMA) level
- Serum vitamin B12 level
- Bone marrow examination (only needed if diagnosis is unclear)
- Measurement of serum holotranscobalamin II
- Pernicious anemia may also affect the results of the following tests:
- Bilirubin
- Cholesterol test
- Gastrin
- Leukocyte alkaline phosphatase
- Peripheral smear
- TIBC
- Vitamin B12 deficiency affects the appearance of cells that form on the outer surface of the body and line inner passageways (epithelial cells). An untreated woman may have a false positive Pap smear.