Colorimetric assay for the quantitative determination of peroxides
(Oxidative capacity)


We recommend EDTA-plasma as sample type because in serum a time de-pendent increase in peroxide concentration is observed. When serum is chosen, please make sure that during preparation of serum a time period no longer than 30 min at room temperature is allowed for clotting. Store EDTA or serum samples at -20°C. Heparinized plasma should not be used for this assay, because it often precipitates upon storage and thus changes the re-sults. Heparin-plasma, lipemic or haemolytic samples may give erroneous re-sults. Cloudy samples should be centrifuged at least 5 minutes at 5000xg before use in the assay. All samples should be mixed well before assaying.


Serum: <350 μmol/l
EDTA plasma: <400 μmol/l
Median: 372 μmol/l

Produktname OxyStat
Kat-Nr. BI-5007
Bereich 0-600 μmol/l
Sensitivität 7 µmol/l
Inkubationszeit 15 min
Probenmenge 10 µl

Serum, EDTA plasma, biological fluids (cell culture supernatant after matrix check)



Tests 96
Methode Colorimetric Assay


Intended use:

Cells and tissues are sensitive to oxidative stress, caused by the formation of free radicals. If not deactivated by antioxidants, organic peroxides and hydroperoxides are the first reaction products between cellular constituents and free radicals or other reactive oxygen derivates.

The determination of the oxidative status / oxidative stress is essential in today's medical research and diagnostics. Methods used so far were either expensive (HPLC), or detected only degradation products of polyunsaturated fatty acids, like TBARS (thiobarbituric acid reactive substances).

The Biomedica OxyStat assay measures the total peroxide concentration of a sample, utilizing a quick and simple assay procedure. Results show a direct correlation between free radicals and circulating biological peroxides and thus allow the characterization of the oxidative status in biological samples.

Intended applications:

  • Cardiovascular Disease - Atherosclerosis
  • Inflammatory processes
  • Sepsis
  • Neurodegenerative processes
  • Carcinogenesis