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MD Pharmacology NMC syllabus ~5 min read Recent advances last updated on 2026-06-30

Vitamin B12 and Folic Acid

The Maturation Factors — Biochemical Interdependence, the Methyl-Folate Trap, Megaloblastic Anaemia & the Masking Pitfall

Past MPMSU + MUHS · 3 MUHSWinter '23 MPMSU2016 MUHSSummer '16

Introduction

  • The two maturation factors — Vitamin B12 (cobalamins) and folic acid (pteroylglutamic acid) are the B-group "maturation factors" whose deficiency produces megaloblastic anaemia — large red-cell precursors in marrow and large, short-lived progeny in blood.
  • Shared final lesion — The basic defect in both is impaired DNA synthesis; because they are metabolically interlinked, the anaemia of either is morphologically indistinguishable — the same block in thymidylate/DNA synthesis reached by two routes.
  • Nucleo-cytoplasmic asynchrony — Defective nuclear (chromosomal) division with near-normal cytoplasmic maturation → abnormal cells, intramedullary cell death and ineffective haematopoiesis; severe deficiency affects all cell lines → pancytopenia, plus damage to other high-turnover tissues (GI mucosa).
  • Historical threads — Minot & Murphy (1926) — dietary liver reverses pernicious anaemia; Castle — an extrinsic factor (diet) + intrinsic factor (stomach) give the haemopoietic principle (B12, isolated 1948). Wills' factor — a macrocytic anaemia in Indian women responding to crude liver extract but not the purified anti-pernicious fraction — proved to be folic acid.
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Vitamin B12 Folic Acid

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