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Please be aware that this old REACH registration data factsheet is no longer maintained; it remains frozen as of 19th May 2023.

The new ECHA CHEM database has been released by ECHA, and it now contains all REACH registration data. There are more details on the transition of ECHA's published data to ECHA CHEM here.

Diss Factsheets

Administrative data

Description of key information

In conclusion, since the dissolved Cr and Cu concentrations from this pigment (copper chromite black spinel) under simulated physiological conditions were below 74 µg/L and 366 µg/L respectively, even at the highest loading of 0.1g/L, referring to a solubility of 0.074 % and 0.37 %, the pigment is considered biologically inert.

Key value for chemical safety assessment

Additional information

The chemical and physiological properties of the pigment copper chromite black spinel are characterised by inertness because of the specific synthetic process (calcination at high temperatures, approximately1000°C), rendering the substance to be of a unique, stable crystalline structure in which all atoms are tightly bound and not prone to dissolution in environmental and physiological media. This manufacturing process leads to a very low bioaccessibility of the elements contained in the pigment. This has been investigated experimentally in vitro by simulating dissolution under physiological conditions considered to mimic the most relevant exposure routes (oral, dermal and inhalation), as follows:

 

1.) Gamble’s solution (GMB, pH7.4) which mimics the interstitial fluid within the deep lung under normal health conditions,

2.) phosphate-buffered saline (PBS, pH7.2), which is a standard physiological solution that mimics the ionic strength of human blood serum,

3.) artificial sweat (ASW, pH 6.5) which simulates the hypoosmolar fluid, linked to hyponatraemia (loss of Na+ from blood), which is excreted from the body upon sweating,

4.) artificial lysosomal fluid (ALF, pH4.5), which simulates intracellular conditions in lung cells occurring in conjunction with phagocytosis and represents relatively harsh conditions and

5.) artificial gastric fluid (GST, pH1.5), which mimics the very harsh digestion milieu of high acidity in the stomach.

 

 

The dissolution of Cr of the test item is between 16.5 µg/L /19.3 µg/L (GMB) and 43.3 µg/L/ 73.5 µg/L (GST) at a loading of 0.1g/L after 2 and 24 hours.

The dissolution of Cu of the test item is in a range of 8.44 µg/L/ 41,4 µg/L (PBS) and 290 µg/L/ 366 µg/L (GST) at a loading of 0.1g/L after 2 and 24 hours.

A pH dependent dissolution can be observed.In conclusion, since the dissolved Cr and Cu concentrations were below 74 µg/L and 370 µg/L, respectively even at the highest loading of 0.1g/L, referring to a solubility of < 0.08 and<0.4 %, this pigment may reasonably be considered biologically inert.

Justification for classification or non-classification

The chemical and physiological properties of the pigment copper chromite black spinel are characterised by inertness because of the specific synthetic process (calcination at high temperatures, approximately1000°C), rendering the substance to be of a unique, stable crystalline structure in which all atoms are tightly bound and not prone to dissolution in environmental and physiological media. Bioavailability which is the basis for the oral, dermal or inhalation exposure route is not given.In consequence, this substance may reasonably be considered inert in all media relevant for uptake into the body and also the compartment relevant for distribute within body tissues. Hence, no repeated dose toxicity effects are expected and no further testing is considered to be required.No classification for repeated dose toxicity according toDirective 67/548/EEC and EC Regulation No. 1272/2008 is anticipated.