Glucose-6-phosphate Dehydrogenase deficiency (G6PD deficiency) (2024)

March 6, 2024

Glucose-6-phosphate dehydrogenase deficiency (G6PD)

What sample is needed for Glucose-6-phosphate Dehydrogenase deficiency (G6PD)?

1. Take blood in EDTA or heparin.
2. Avoid hemolysis.
3. Don’t use oxalate or fluoride in the blood.
4. It is stable for over 20 days at 4 °C and 5 days at 25 °C.
5. Collect blood in a colored bottle.

What are the Indications for Glucose-6-phosphate Dehydrogenase (G6PD) deficiency?

• This test is advised to rule out the deficiency of G6PD in a patient who develops hemolytic anemia after taking drugs or food.

What are the precautions needed for Glucose-6-phosphate dehydrogenase deficiency (G6PD)?

1. Raised levels of reticulocytes may give false high G6PD.
2. G6PD may be normal after the hemolytic episode for the first 6 to 8 weeks.
3. Repeat the test when the anemia is recovered.

How will you define Glucose-6-phosphate dehydrogenase deficiency (G6PD)?

1. G6PD is a sex-linked (X-linked) disorder. This is a recessive trait carried on the female (X) chromosome.
   1. The chromosome-affected gene is Xq28.
2. It consists of 515 amino acids and a molecular weight of 59 kDa.
   1. Affected males inherit this gene from their mothers, who are usually asymptomatic, and the disease is severe in males (XY).
3. The disease is very severe if the female has both X genes defective.
   1. So, females act as carriers of this disease with one defective X chromosome.

What is the distribution of Glucose-6-phosphate dehydrogenase deficiency (G6PD)?

1. This is common in some ethnic groups of African-American men. About 11% of African-American males are affected.
2. To a lesser extent, people whose ancestors came from Mediterranean countries like Italy, Greece, or Turkey.
3. It is also seen in some areas of India.
4. It is also seen in the Jewish population.
5. The condition is commonly asymptomatic, but there may be acute hemolysis crises after taking some drugs, ingesting fava beans, and viral or bacterial infections.
6. Hemolytic crises are associated with the formation of Heinz bodies in Peripheral blood RBCs.

How will you discuss the Pathogenesis of Glucose-6-phosphate dehydrogenase enzyme deficiency?

1. An enzyme deficiency was detected in the RBC.
   1. Screening should be done several days after the crisis when the patient is no longer jaundiced.
2. This is anRBC G6PD enzyme defect.Most patients are asymptomatic with normal Hb and blood smear.
3. Patients are susceptible to oxidative crises precipitated by drugs (e.g., Dapsones, sulphonamides, antimalarial, aspirin, phenacetin, and nitrofurantoin) and exposure to fava beans.
4. G6PD deficiency causes the precipitation of hemoglobin and cellular membrane changes in RBCs, which may lead to hemolysis.

   Glucose-6-phosphate Dehydrogenase deficiency (G6PD): G6PD leading to hemolysis of RBCs

What is the role of the Glucose-6-phosphate Dehydrogenase (G6PD) enzyme?

1. Thisenzyme is needed for the integrity of the Red blood cell membrane.
2. 30% or less of the deficiency of the G6PD enzyme leads to hemolysis when exposed to some drugs, like antimalarial (primaquine) medicines.
3. G6PD is an enzyme used in glucose metabolism.
4. The generated NADPH is a necessary ingredient for the enzyme system in the red blood cells to prevent methemoglobin formation.

How will you Classify Glucose-6-phosphate Dehydrogenase deficiency (G6PD)?

1. African Americans, where 10% to 15 % of this population, are affected.
2. The Mediterranean is more common in Iraqis, Kurds, Sephardic Jews, and Lebanese. This is less common in Greeks, Turks, and North Africans.
3. The MAHIDOL variant is common in southeast Asia, where 22% of the population are males.

Another classification ofGlucose-6-phosphate Dehydrogenase (G6PD):

1. It divides G6PD deficiency into 5 classes. Classes 2 and 3 represent 90% of the cases.
   1. Class 1: <5% of the normal RBC enzyme activity.
      1. It is rare, chronic, congenital nonspherocytic hemolytic anemia initiated by oxidant medications.
      2. The fever may initiate it.
      3. There is no improvement by splenectomy.
   2. Class 2: <10% of normal RBC enzyme activity.
      1. It is seen in 90% of the cases.
      2. There are acute episodic hemolytic crises induced by oxidant drugs like sulfonamide, primaquine, and acetanilid.
      3. This reaction may take place by acidosis.
      4. There is no improvement by splenectomy.
   3. Class 3: 10% to 60% of normal RBC enzyme activity,
      1. It is seen in 90% of the cases.
      2. The hemolytic episode in people without the known hematological disease.
      3. Oxidant drugs or infection (hepatitis or pneumonia) induce acute self-limiting hemolysis episodes lasting 2 to 3 days.
      4. It is also seen in hepatic coma, myocardial infarction, hyperthyroidism, chronic blood loss, and megaloblastic anemia.
      5. It induces hemolytic crises, which are self-limiting episodes.
   4. Class 4 and 5: These do not show any clinical findings.

What are the variants of Glucose-6-phosphate Dehydrogenase (G6PD) deficiency?

1. These are based on electrophoretic patterns and kinetic criteria:
   1. G6PD-A is common in blacks.
   2. G6PD – Mediterranean is common in Kurds, Iraqis, Lebanese, and Sephardic Jews and less common in Greeks, Turks, Italians, Portuguese, Ashkenazi Jews, North Africans, and Spaniards.
   3. G6PD- Mahidol is common in Southeast Asians.

What is the clinical presentation ofGlucose-6-phosphate Dehydrogenase (G6PD) Deficiency?

1. These patients may be asymptomatic.
2. Acute hemolytic anemia due to some drugs, foods, and infection.
   1. The anemia may be self-limiting as there is replacement by the new RBC formation.
3. There may be hemoglobinuria.
4. There may be neonatal jaundice.
5. Deficiency may cause hemolytic disease in newborns in Asia and the Mediterranean.
6. In the newborn G6PD deficiency:
   1. Newborn develops neonatal jaundice after the first 24 hours in contrast to the erythroblastosis fetalis.
   2. Raised serum bilirubin levels peak on the 3rd to 5th day.
      1. Serum bilirubin level may reach >20 mg/dL.
   3. In Asian and Mediterranean newborns, neonatal jaundice and kernicterus are more common.

What is the normal value of Glucose-6-phosphate Dehydrogenase (G6PD)?

1. G6PD screening test = G6PD detected.
2. In the deficiency of G6PD screening test is negative
   1. Adult = 8.6 to 18.6 U/g Hb.
   2. Children = 6.4 to15.6 U/g Hb.
   3. Conversion of U/g Hb to U/mL of RBC:
      1. U/g Hb X0.34 = U/mL of RBCs.

How will you diagnose Glucose-6-phosphate dehydrogenase (G-6-PD)?

1. G6PD deficiency can be diagnosed by :
2. Screening test by direct enzyme assay on red blood cells.
3. During crises, peripheral blood smear shows fragmented RBCs like bite and blister cells.
   1. Heinz bodies may be seen in the reticulocytes in the case of splenectomy.
   2. Heinz bodies are oxidized denatured hemoglobin.
   3. Heinz’s body can be seen by the supravital stain (new methylene blue) in the early stage of hemolysis.

2. Quantitative spectrophotometry.
3. The rapid fluorescent spot test detects the generation of NADPH from NADP. It is read under ultraviolet light.
4. Recently DNA analysis has been introduced to diagnose variation in G6PD.
5. After a single dose of primaquine in adults, Intravascular hemolysis takes place and shows the following lab findings:
   1. Hct is decreased. It starts in 2 to 4 days, and the peak is 8 to 12 days.
   2. Heinz’s body is seen on the peripheral blood smear.
   3. Increased serum bilirubin level was seen in the first few days of hemolysis.
   4. Reticulocytosis starts at about the 5th day of hemolysis, and the maximum level is at 10 to 20 days.
   5. Hemolysis will subside spontaneously even if primaquine tablets are continued.
   6. Diagnosis is confirmed by the RBC assay of G6PD (by fluorescence technique).

What conditions lead to Glucose 6-phosphate dehydrogenase (G6PD) enzyme deficiency?

1. G6PD deficiency.
2. Congenital nonspherocytic anemia.
3. Non-immunologic hemolytic anemia of the newborn.
4. African-American males around 13%.
5. African females are 3%, and the carrier rate is around 20%.
6. It is also seen in Greek, Sardinians, and Sephardic Jews.
7. All persons with favism.

What conditions show increased Glucose 6-phosphate dehydrogenase (G6PD) enzyme?

1. Megaloblastic anemia (untreated).
2. Thrombocytopenic purpura (ITP = Werlhof disease). These patients become normal after splenectomy.
3. Hyperthyroidism.
4. Viral hepatitis.
5. Myocardial infarction.

What drugs will initiate hemolysis due to Glucose 6-phosphate dehydrogenase enzyme (G6PD) deficiency?

1. Antimalarial.
2. Ascorbic acid.
3. Aspirin.
4. Dapsone.
5. Nalidixic acid.
6. Phenacetin.
7. Quinidine.
8. Sulphonamides.
9. Thiazide diuretics.
10. Tolbutamide.
11. Vit. K.
12. Primaquine.
13. Nitrofurantoin.
14. Dapsone.
15. Acetanilide.
16. Antipyretics.
17. Sulfa drugs and sulphonamides.

How will you treat Glucose-6-phosphate Dehydrogenase (G6PD) deficiency?

1. Avoid offending drugs.
2. Treat the underlying infections.
3. Keep a high urine output.
4. Give blood transfusion in case of anemia.
5. Newborn babies with G6PD deficiency are prone to neonatal jaundice.
   1. In such cases, phototherapy and exchange blood transfusion may be needed.

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