ARSENIC SPECIATION

ARSENIC SPECIATION

Arsenic and its compounds are known to have adverse health effects on humans, including cancers of the skin, bladder, kidney & lung, and diseases of the blood vessels of the legs and feet. The toxicity of arsenic depends very heavily on the two main chemical forms, inorganic arsenic and organic arsenic.

Inorganic arsenic species (arsenite, arsenate) in ground water have caused tremendous epidemic poisoning across the globe. Organic arsenic species (typically MMA, DMA) are common metabolites found in the human body and are much less toxic.

Some other arsenic forms which are very commonly presented and account for the majority of the arsenic abundance in the marine environment (arsenobetaine, arsenocholine, arsenosugars etc), are completely non-toxic. The total concentration of arsenic cannot be used solely to explain the toxicity of arsenic in the environment.

As well as it''s own 10.820 Modular Interface, P S Analytical offer both Agilent and Dionex options for the separation of arsenic species using the PSA 10.055 Millennium Excalibur as the detector.

PSA 10.820 MODULAR INTERFACE COUPLED WITH THE 10.055 MILLENNIUM EXCALIBUR FOR THE SPECIATION OF ARSENIC

Up to four arsenic species; arsenite (AsIII), dimethylarsinic acid (DMA), monomethylarsonic acid (MMA) and arsenate (AsV) can be separated on a simple system. For the determination of non-reducible arsenic species such as arsenobetaine (AsB), arsenocholine and Trimethylarsine oxide ((TMAO) and arsenosugars; a PSA 10.570 UV oxidation system can be included.

The MI extends the capability of P S Analytical''s Millennium Merlin and Excalibur Atomic Fluorescence Spectrometers and is available in a number of configurations.

The MI 10.820-1000 includes:
• an integrated HPLC pump
• a 6 port injection valve
• online UV digestion
• heating and cooling

With a simple interface, and compatible flow rates, the accessory facilitates speciation studies (Hg, As, Se, Sb, Bi etc), online digestion (heat and UV), as well as a variety of post column reactions. The conjunction of the AFS systems with the MI provides ultimate detection performance for both sensitivity and selectivity.

In addition to the impressive detection performance, the automated approach significantly speeds up analysis times, reduces and sample pre-treatment and handling errors.
All of these systems provide arsenic speciation for labs that need an easy-to-learn and easy-to-use system, which can be automated and/or extended as the labs needs grow.

The speciation of arsenic species including the non-reducible arsenic species (arsenobetaine and arsenosugars) requires the use of UV oxidation system. This, in conjunction with an oxidising reagent, helps the breakdown of non-reducible arsenic species to a form that will react with NaBH4 so these can be quantified. As a result, a slight modification to the system is necessary.