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MI-R1.3-75ec3968cc-EMERGENT_COMPARTMENTALIZED_TOXICITY.md
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MI-R1.3-75ec3968cc-EMERGENT_COMPARTMENTALIZED_TOXICITY.md
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# TITLE: FAIR Maturity Indicator MI-R1.3-75ec3968cc-EMERGENT_COMPARTMENTALIZED_TOXICITY
## Authors:
Ammar Ammar, ORCID:0000-0002-8399-8990
#### Publication Date: 2021-02-26
#### Last Edit: 2024-04-13
#### Accepted: pending
### Maturity Indicator Identifier: [MI-R1.3-75ec3968cc-EMERGENT_COMPARTMENTALIZED_TOXICITY](https://w3id.org/nsdra/maturity-indicator/readme/MI-R1.3-75ec3968cc-EMERGENT_COMPARTMENTALIZED_TOXICITY)
This maturity indicator falls under the FAIR principle R1.3:
(meta)data meet domain-relevant community standards
The ID of this MI is composed of the following segments (separated by hyphen):
1. Acronym for "Maturity Indicator"
1. The FAIR principle this maturity indicator belongs to
1. The first 10 characters truncated from the SHA-256 hash of the primary reference DOI of this maturity indicator.
1. A short name to distinguish the maturity indicator definition file
This MI is to indicate if the nanomaterial's compartmentalized toxicity is reported by the nano toxicity study data or not.
### Maturity Indicator Name: The nanomaterial's compartmentalized toxicity is reported by the nano toxicity study
This maturity indicator is extracted from the following paper
**Title:** Where Are We Heading in Nanotechnology Environmental Health and Safety and Materials Characterization?
**DOI:** https://doi.org/10.1021/acsnano.5b03496
### To which principle does it apply?
R1.3
### What is being measured?
If the nanomaterial's compartmentalized toxicity is reported by the nano toxicity study data or not.
### Why should we measure it?
The nanomaterial's compartmentalized toxicity is one of the properties that, although dependent on intrinsic and extrinsic material properties, dynamically emerge
at the nano-bio interface as the most proximate link to injury. These often reveals structure-activity relationships that can be
used quantitatively for modeling and safer design.
### What must be provided for the measurement?
If the value is measured and reported in the data, the following field(s) should appear in JSON-LD metadata:
| Field Name | Alternative terms |
| ----------------------------- | ---------------------------------------------------------- |
| compartmentalized toxicity | compartmentalized_toxicity,<br>compartmentalized-toxicity |
### How is the measurement executed?
The "compartmentalized toxicity" field should be provided in a machine-readable format (JSON-LD) which can be queried using open universal protocol like HTTP.
### What is/are considered valid result(s)?
The presence of the field "compartmentalized toxicity" in the JSON-LD metadata means the measurement is reported which is the valid result.
### For which digital resource(s) is this relevant? (or 'all')
For nano toxicity related datasets.
### Examples of good practices (that would score well on this assessment)
```{json}
{
"@context": {
"bs": "https://bioschemas.org/",
"schema": "https://schema.org/",
"citation": "schema:citation",
"name": "schema:name",
"url": "schema:url",
"variableMeasured": "schema:variableMeasured",
"unitText": "schema:unitText"
},
"@type": "schema:Dataset",
"name": "Dataset title",
"@id": "Dataset DOI",
"url": "Dataset URL",
"citation": "Dataset Citation/Publication",
"variableMeasured": [
{
"@type": "schema:PropertyValue",
"name": "compartmentalized toxicity"
}
]
}
```
### Comments