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Registration Dossier
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EC number: 209-942-9 | CAS number: 598-62-9
Additional toxicological data
Administrative data
- Endpoint:
- additional toxicological information
- Type of information:
- experimental study
- Adequacy of study:
- supporting study
- Study period:
- 10 December 2008 to 1 December 2009
- Reliability:
- 1 (reliable without restriction)
- Rationale for reliability incl. deficiencies:
- other: Study performed to sound scientific principles with a sufficient level of detail to assess the quality of the relevant results.
Data source
Reference
- Reference Type:
- study report
- Title:
- Unnamed
- Year:
- 2�009
- Report date:
- 2009
Materials and methods
Test guideline
- Qualifier:
- no guideline followed
- Principles of method if other than guideline:
- Eleven materials were analysed for bioaccessibility of manganese in artificial gastric and lung (alveolar) biofluids. Samples were extracted from the artificial gastric and artificial alveolar (lung) fluids according to the physiological parameters defined by Stopford et al (2003) and analysed for manganese. This method is based on ASTM D5517-07 standard method for determining extractability of metals from art material. Standard analytical methods were created and methods validation packets were developed and completed for the artificial biofluids methods as designated by the FSES Laboratory Quality Assurance Program Plan.
- GLP compliance:
- no
Test material
- Reference substance name:
- Manganese carbonate
- EC Number:
- 209-942-9
- EC Name:
- Manganese carbonate
- Cas Number:
- 598-62-9
- Molecular formula:
- CH2O3.Mn
- IUPAC Name:
- manganese(2+) carbonate
- Test material form:
- solid: particulate/powder
- Remarks:
- migrated information: powder
- Details on test material:
- - Name of test material : Silicomanganese slag, Manganese, Manganese (II, III) oxide, Manganese (IV) oxide, Manganese (II) carbonate, Manganese(II) oxide, Ferromanganese slag, Manhanese (II) sulphide, Ferromanganese and Sintore ore
- Molecular formula : SiMn, Mn, Mn3O4, Mn02, MnCO3, MnO, FeMn, MnS, HC FeMn, Sintore ore
- Physical state: See table 1
- Lot/batch No.: See table 1
- Storage condition of test material: Room temperature
- Other: A total of 24 Manganese materials were recieved between 10 December 2008 and 7 October 2009 from Harlan Ltd or directly from the supplier through international mail carrier. The samples arrived at room temperature in either amber jars, plastic bags or plastic containers as variable sized particles. Eleven samples were extracted and analysed upon authorisation once they were recieved in a form that could be inhaled or orally digested(Table 1).
Constituent 1
Results and discussion
Any other information on results incl. tables
For each batch, the calibration curves using 5 or more standards had r2 values greater than 0.97.Over-spikes recoveries ranged from 89 to 108% and all blanks were below method detection limits.The percent recoveries for the over-spikes of the CRM and reagent blank are summarised in Table 3.
Table 3: Quality control results for the manganese material sample batches extracted and analysed according to SAMs 806 and 807.
Artificial Gastric |
Artificial Alveolar |
|
MDL |
0.097 |
0.053 |
% Recovery reagent blank (0.5 µg/mL) avg ±SD, n=5 |
99±5.8 |
95±4.7 |
% Recovery CRM (10 µg/mL) avg ±SD, n=5 |
93±3.7 |
99±12 |
% Recovery instrument check standards (10 µg/mL) avg ±SD, n=7 |
101±3.6 |
100±3.4 |
Table 4: Maximum extractable manganese level (% of available in the material tested) in manganese metal material determined after applying digestion and inhalation artificial biofluids (SAMs 806 and 807, respectively).
Metal material |
% Mn in metal material (average ± standard deviation), n=3 |
|
Artificial Gastric |
Artificial Alveolar |
|
Mn3O4 |
13±3.2 |
13±3.2 |
MnO2 |
0.092±0.016 |
BDL |
MnCO3 |
16±1.9 |
0.0013±0.00027 |
MnO |
12±4.4 |
0.0033±0.0021 |
MnS |
55±0.33 |
0.011±0.011 |
SiMn |
5.8±0.36 |
0.019±0.0018 |
SiMn slag |
0.88±0.041 |
0.0098±0.00057 |
HC FeMn |
7.8±0.093 |
0.012±0.00065 |
FeMn slag |
24±1.4 |
0.024±0.0070 |
Sinter ore |
1.9±0.11 |
0.0054±0.00048 |
Mn metal |
59±2.9 |
0.020±0.00055 |
Applicant's summary and conclusion
- Conclusions:
- Under the conditions of the study the level of manganese release following a 2 hour exposure of manganese carbonate to artificial gastric acid was 16% Mn (± 1.9% SD). The level of manganese release following a 2 hour exposure of manganese carbonate to artificial lung fluid was 0.0013% Mn (± 0.00027% SD). These findings suggest that the bioavailability of manganese carbonate to the body would be low, particularly following exposure via inhalation.
- Executive summary:
Eleven materials were analysed for bioaccessibility of manganese in artificial gastric and lung (alveolar) biofluids. Samples were extracted from the artificial gastric and artificial alveolar (lung) fluids according to the physiological parameters defined by Stopford et al (2003) and analysed for manganese. This method is based on ASTM D5517-07 standard method for determining extractability of metals from art material. Standard analytical methods were created and methods validation packets were developed and completed for the artificial biofluids methods as designated by the FSES Laboratory Quality Assurance Program Plan.
All concentrations of manganese in the extract were above detection limit except for MnO2 exposed to the alveolar fluid. In general, the maximum extractable manganese levels in the gastric solution were the manganese metals and the MnS in the gastric solution. The least extractable manganese material is the MnO2 in both the gastric and alveolar biofluids. In the gastric biofluids, the average dissolution of manganese in the SiMn and HC FeMn alloys were approximately similar, while the manganese in the SiMn slag was substantially less and the FeMn slag was approximately 3 times greater than the corresponding alloys. The dissolution of manganese in the artificial alveolar fluid was very low for all materials, with the amount of manganese measured in the gastric solution an order of magnitude or greater.
Under the conditions of the study the level of manganese release following a 2 hour exposure of manganese carbonate to artificial gastric acid was 16% Mn (± 1.9% SD). The level of manganese release following a 2 hour exposure of manganese carbonate to artificial lung fluid was 0.0013% Mn (± 0.00027% SD). These findings suggest that the bioavailability of manganese carbonate to the body would be low, particularly following exposure via inhalation.
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