Definition > 40 mg / day.
Small amount is dietary – vast majority is by-product of metabolism.
Primary hyperoxaluria
Congenital, rare. Deficiency of liver enzyme AGT.
Enteric hyperoxaluria
Chronic diarrhoeal states / bariatric surgery
Fat malabsorption -> saponification of fatty acids with available cations (calcium and magnesium)
Less calcium for calcium oxalate complexation, more oxalate available to reabsorbed
Dietary hyperoxaluria
Cola, nuts, chocolate, brewed tea, spinach, potatoes, beets and rhubarb
Vitamin C is a pre-cursor for oxalate metabolism – excessive vitamin C supplementation can lead to significant hyperoxaluria (vitamin C itself also upregulates oxalate absorption).
Oxalate absorption from the gut is dependent on:
- Complexing with cations (calcium and magnesium) in the gut -> less oxalate absorbed and then excreted in urine
- Low calcium diet -> less calcium to bind to oxalate -> more free oxalate absorbed and excreted in urine
- Malabsorption of fats -> fats preferentially bind to calcium/magnesium -> more free oxalate absorbed and excreted
- Oxalate-degrading bacteria in urine
- Oxalobacter formigenes metabolise oxalate in the gut, meaning less oxalate is absorbed and excreted in urine
Treatment of hyperoxaluria:
- Primary hyperoxaluria – treated with pyridoxine, renal physician management as leads to ESRF
- Low oxalate diet
- Stop vitamin C supplementation
- Reduce dietary fat
- Dietary calcium and magnesium supplementation to bond with oxalate in the gut
- Calcium citrate may have dual effect
- Give with meals
- Alkaline citrates (potassium citrate) may help calcium oxalate stone formation