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Notes
      3. Old stuff
          3.2. Old physio stuff (around 2005)
              3.2.3. Physiology
                  3.2.3.6. Haematology
                      3.2.3.6.1. Blood cells
 3.2.3.6.1.3. Red blood cells 
 1. Haemoglobin

Red blood cells

[WG21:p534-539]

Basic characteristics of RBC

  • Life span = 120 days
  • Dimension
    * 7.5 micrometer in diameter
    * 2 micrometer in thickness
  • Contains 4 major proteins in the inner side of cell membrane
    * Spectrin
    * Actin
    * Ankyrin
    * Band 4.1
    * [PK1:p237]

Normal values

Red blood cell count
= 5.4 million/microliter in male
= 4.8 million/microliter in female

Total red blood cell in average men
= 3 x 10^13 RBC in circulation
= 900g of Hb

NB:

  • [KB2:p211] Total body Hb = 750g

Different measurements of RBC/Hb quantity

  • Hematocrit (Hct)
    = % of volume occupied by cells
  • RBC count   (10^6/microliter)
  • Haemoglobin (Hb)   (g/dL)
  • Mean corpuscular volume (MCV)
    = Hctx10/RBC   (fL)
    * i.e. Average volume of one RBC
  • Mean corpuscular haemoglobin (MCH)
    = Hb/RBC   (pg)
    * i.e. Average Hb content of one RBC
  • Mean corpuscular haemoglobin concentration
    = Hb/Hct   (%)
    * i.e. Average Hb concentration in RBCs

RBC fragility

At normal fragility,

  • RBC begins to hemolyse when suspended in 0.5% saline
  • 50% lysis occurs in 0.4-0.42% saline
  • Complete lysis in 0.35% saline

Fragility is increased in

  • Hereditary spherocytosis
  • Deficiency of glucose-6-phosphate dehydrogenase
    * Which catalyzes the first step in pentose phosphate pathway
    * Which allows generation of NADPH+H
    * Deficiency of NADPH+H impairs removal of H2O2
    --> Accumulation of H2O2 decrease life span of RBC
    * [HH26:p166]

Formation of RBC

[PK1:p236]

Proerythroblast
--> Basophilic erythroblast
--> Polychromatic erythroblast
--> Pyknotic erythroblast
--> Reticulocytes enters circulation

Reticulocyte still has some RNA and is capable of synthesizing Hb

  • Final stage of RBC maturation
  • Matures into RBC after 1-2 days in circulation
  • Loses RNA on maturation
  • Normally accounts for 1% of circulating RBC
    --> % increases when erythropoiesis is increased

Metabolism in RBC

  • ATP is generated by anaerobic glycolysis (Embden-Meyerhof pathway)
    * ATP is needed for Na-K ATPase pump
  • Embden-Meyerhof pathway also generates NADH
    --> Used by methaemoglobin reductase to reduce MetHb to Hb
  • Some 2,3-DPG is generated in Rapoport-Luebering shunt
  • 5% of glycolysis occurs by hexose monophosphate shunt (aka pentose phosphate pathway)
    --> NADPH is generated
    --> Used to prevent accumulation of H2O2
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