Folate (folic acid) deficiency impairs DNA synthesis in rapidly dividing cells, which leads to megaloblastic anemia characterized by enlarged red blood cells, fatigue, pallor, and sometimes shortness of breath. Population studies have shown that folate deficiency and macrocytosis can be present for months before overt symptoms appear, and in some cohorts, up to roughly one quarter of anemic adults had an underlying folate or B12 deficiency rather than iron deficiency alone. The encouraging clinical point is that, once identified, folate‑responsive megaloblastic anemia often improves within weeks of adequate folic acid repletion, with reticulocyte counts rising in about 5–7 days and hemoglobin recovering more gradually over several weeks. This medication is commonly used for Diabetes.
Koury MJ, Price JO, Hicks GG. Apoptosis in megaloblastic anemia occurs during DNA synthesis by a p53-independent, nucleoside-reversible mechanism. Blood. 2000 Nov 1;96(9):3249-55. Daniel S. Socha, MD, Sherwin I. DeSouza, MD, Aron Flagg, MD, Mikkael Sekeres, MD, MS and Heesun J. Rogers, MD, PhD. Severe megaloblastic anemia: Vitamin deficiency and other causes. Cleveland Clinic Journal of Medicine March 2020, 87 (3) 153-164. H.B. Castellanos-Sinco, et al. Megaloblastic anaemia: Folic acid and vitamin B12 metabolism. Revista Médica del Hospital General de México. Vol. 78. Issue 3. Pages 105-150 (July - September 2015). Anis Hariz, et al. Megaloblastic Anemia. StatPearls April 3, 2023.
Some side effects may be linked to nutrient depletion caused by this medication.
Research has shown that anti-diabetic Biguanide drugs may reduce folic acid absorption. Folic acid is a powerful antioxidant and low levels make the body more susceptible to oxidative stress, which can damage enzymes involved in homocysteine metabolism, and subsequently increase its accumulation. Elevated levels of homocysteine (hyperhomocysteinemia) are a risk factor for various health problems including cardiovascular diseases, neurological problems, osteoporosis, and vision problems.
Biguanide (anti-diabetic) drugs have been found in scientific evidence to decrease serum levels of coenzyme Q10. Type 2 diabetes can increase oxidative stress in the body, weakening its defenses and potentially harming cells. CoQ10, a powerful antioxidant, plays a crucial role in protecting cells from this damage. CoQ10 supplementation may help restore these levels, potentially improving mitochondrial function and protecting the kidneys from damage.
Biguanides, such as Metformin or Metformin combinations with other drugs, may contribute to reduced levels of thiamine (vitamin B1) in end-stage renal failure patients. Research has found metformin encephalopathy present in patients on hemodialysis for end-stage diabetic renal failure (ESRD). Patients with ESRD should consider having thiamine (vitamin B1) status monitored and supplementing with thiamine when levels are insufficient or deficient.