Oxalate, quantitative, 24-hour urine

Alphabetical Test listing

Oxalate, quantitative, 24-hour urine-13487

  
Oxalate, quantitative, 24-hour urine
  
13487
  
LAB13487
  
OX24UR
  
Oxalic acid
  

Used to work up nephrolithiasis.

  

Patients should avoid vitamin C supplements and vitamin C-rich foods (eg, citrus fruits like oranges, orange juice; vegetables like broccoli, tomatoes, peppers, potatoes) for 48 hours prior to sample collection

  
Urine, 24-hr
  
  
10 mL aliquot of a 24-hour urine collection
  
  
  1. Record total volume
  2. Mix well
  3. Transfer a 10mL aliquot into a Screw cap plastic container (sterile)
  
  

Ambient (preferred) - 7 days

Refrigerated - 7 days

Frozen - 8 weeks

Freeze/thaw cycles - stable x3

  

Urine sample received with a pH not ≤3 from a patient on high doses of vitamin C

  
LabCorp Burlington (003970): R-LC
  
Mo - Fr
  
5 days
  

Enzymatic

  

Children:
< 7 years:     not established
7 - 14 years: 13 - 38 mg/24 hours

Adult:
Male:     7 - 44 mg/24 hours
Female: 4 - 31 mg/24 hours

  

Patients who form calcium oxalate kidney stones appear to absorb and excrete a higher portion of dietary oxalate in urine than do normals. Hyperoxaluria is not uncommon in subjects with malabsorption. Twenty-four hour urine collections for oxalate are indicated in patients with surgical loss of distal small intestine, especially those with Crohn's disease. The incidence of nephrolithiasis in patients who have inflammatory bowel disease is 2.6% to 10%. Hyperoxaluria is regularly present after jejunoileal bypass for morbid obesity; such patients may develop nephrolithiasis. Used to work up nephrolithiasis.

Oxaluria is characteristic of ethylene glycol intoxication. Oxalic acid excretion is increased with methoxyflurane. Serum calcium and urinary calcium excretion are also commonly needed; calcium oxalate renal stones are common. Hyperoxaluria may occur with high intake of animal protein, purines, gelatin, calcium, strawberries, pepper, rhubarb, beans, beets, spinach, tomatoes, chocolate, cocoa, and tea. Hyperoxaluria is described with pyridoxine deficiency. Urinary oxalate derives from the metabolism of glycine and ascorbic acid more than from dietary ingestion. Oxalate excretion is increased in vegetarians, despite low animal protein ingestion. Vitamin C increases oxalate excretion and may be a riskfactor for calcium oxalate nephrolithiasis in individuals consuming "megadose" vitamin C. Such ingestion can usually be determined by the history. If a vitamin C using stone former is found to have high urine oxalate excretion, the habit should be stopped. If oxalate excretion drops to normal, additional therapy to prevent stones may not be required. Hyperoxaluria can result from intestinal hyperabsorption related to low calcium intake or high calcium enteric binding. Unabsorbed fat can bind calcium. Increased urinary uric acid excretion is frequently found in subjects who have calcium oxalate nephrolithiasis. Calcium nephrolithiasis in patients with hyperuricosuria has beenrelated to urate-induced crystallization of calcium oxalate. Urinary oxalate concentrations have been found to be increased in very low birth weight infants receiving parenteral amino acid solutions. Rare genetic disorders increase endogenous oxalate production; there are two types of primary hyperoxaluria. They are characterized by elevated urinary oxalate excretion and recurrent oxalate nephrocalcinosis. In type I, a defect in glyoxalate metabolism is found, leading to increased oxalate synthesis. Excessive quantities of glyoxylic and glycolic acid urinary excretion occur. Type II is rare; it is characterized by excessive urinary excretion of oxalic and L-glyceric acids with normalexcretion of glycolic acid.

  
83945
  
Result 2700-3
  
04/10/2019
  
05/14/2024
  
12/22/2023