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Chromium Toxicity
Clinical Assessment - Laboratory Tests

Course: WB 1466
CE Original Date: December 18, 2008
CE Renewal Date: December 18, 2011
CE Expiration Date: December 18, 2013
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Learning Objectives

Upon completion of this section, you will be able to

  • identify laboratory tests that can assist with diagnosis of chromium exposure.


With excessive exposure, there will be evidence of renal and hepatic damage. Proteinuria and hematuria precede anuria and uremia.

A reduction in the FEV1: FVC ratio on spirometry may be seen after acute irritant exposure or in workers with chromium-induced asthma.

Skin allergy can be confirmed by patch testing.

Persistent cough, hemoptysis, or a mass lesion on chest radiograph in a chromium worker should prompt a thorough evaluation for possible lung cancer [Lewis 2004].

Initial Lab Exams

The following tests should be considered in the evaluation of Cr(VI) exposure [HSDB 2000]

  • complete blood count,
  • liver function tests (aspartate aminotransferase (AST) or serum glutamic-oxaloacetic transaminase (SGOT), ALT or serum glutamic-pyruvic transaminase (SGPT), and bilirubin),
  • blood urea nitrogen (BUN) and creatinine, and
  • urinalysis.

Specialized Tests

When obtaining biologic specimens for chromium analysis, care must be taken to avoid sample contamination and chromium loss during collection, transportation, and storage. For example, use of stainless steel utensils to collect tissue samples might raise tissue chromium levels, as will stainless steel grinding and homogenizing equipment. Some plastic containers contain significant amounts of leachable chromium; therefore, specially prepared acid-washed containers should be obtained from the laboratory.

Considerable care also must be taken in the analysis to minimize chromium volatilization during sample washing [EPA 1984a].

Blood or Serum Chromium Levels

Several methods are available for the analysis of chromium in different biological media [ATSDR 2000]. For example, Cr(VI) and complexes of Cr(III) can be rapidly determined in plasma and other biological specimens via a high performance anion-exchange liquid chromatograph technique [Suzuki 1987].

Blood distribution of chromium appears to be divided evenly between plasma and erythrocytes. In the absence of known exposure, whole blood chromium concentrations are in the range of 2.0 µg/100 mL to 3.0 µg/100 mL; lower levels occur in rural areas, and higher levels occur in large urban centers.

As we have discussed in the previous section on the biologic fate of chromium, Cr(VI) enters red blood cells, but Cr(III) does not. Therefore, it is possible to distinguish sources and types of exposure (Cr(VI) versus other forms of Cr) by measuring RBC versus serum Cr. This can be especially helpful if urine Cr levels are elevated and one wants to know if this indicates a toxic (e.g., Cr[VI]) exposure or an essentially benign (e.g., Cr[III]) exposure.

Values above background levels are considered potentially toxic, but levels have not been correlated with specific physiologic effects. Chromium rapidly clears from the blood, and measurements relate only to recent exposure.

Urinary Chromium Levels

Wide individual variation in metabolism and rapid depletion of body burden limit the value of urinary chromium monitoring.

Urinary chromium excretion reflects absorption over the previous 1 or 2 days only.

In occupational settings, a urinary chromium concentration of 40 µg/L to 50 µg/L, immediately after a work shift reflects exposure to air levels of 50 µg/m³ of soluble Cr(VI) compounds, a concentration associated with nasal perforations in some studies. If sufficient time has elapsed for urinary clearance, a negative bio-monitoring result can occur even with injurious past exposure.

Assuming no source of excessive exposure, urinary chromium values are typically less than 10 µg/L for a 24-hour period [ATSDR 2000].

Urinary β2-Microglobulins Levels

Urinary β2-microglobulins were significantly higher in chromeplaters exposed to Cr(VI) than in unexposed controls [Lindberg and Vesterberg 1983].

Hair or nail analysis is of little use in evaluating an individual patient because it is impossible to distinguish chromium bound within the hair during protein synthesis from chromium deposited on the hair from dust, water, or other external sources. Populations with no known chromium exposure reportedly have hair levels ranging from 50 parts per million (ppm) to 100 ppm chromium.

The presence of chromium and chromium complexes in biologic complexes can be determined using chromatographic and colorimetric techniques; patch testing and lymphocyte proliferation testing have been used to determine chromium sensitivity [ATSDR 2000; Meditext 2005].

Other Measurements

If the patient has had possible Cr(VI) inhalation exposure, a chest radiograph and pulmonary function test should be included [Lewis 2004; Meditext 2005].

Key Points

  • Chromium can be measured in blood and urine; hair or nail analysis has no clinical value.
  • Urinary chromium excretion is a useful index of exposure in occupational settings. However, it reflects exposure over the previous 1 or 2 days only.

Progress Check

12. To confirm chromium exposure, which of the following measurements is the most reliable?

A. Chromium in blood and urine.
B. Pulmonary lesion shown on radiograph.
C. Elevated values of renal and liver function tests.
D. Elevated values of routine laboratory tests.


To review relevant content, see Key Points in this section.

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