PD ISO/TR 10993-22:2017
Current
The latest, up-to-date edition.
Biological evaluation of medical devices Guidance on nanomaterials
Hardcopy , PDF
English
07-19-2017
Foreword
Introduction
1 Scope
2 Normative references
3 Terms and definitions
4 General principles
5 Characterization of nanomaterials
6 Sample preparation
7 Release of nano-objects from medical devices
8 Toxicokinetics
9 Toxicological evaluation
10 Presentation of characterization and test results
11 Risk assessment
12 Biological evaluation report
Bibliography
Gives considerations for the biological evaluation of medical devices that are composed of or contain nanomaterials.
Committee |
CH/194
|
DocumentType |
Standard
|
Pages |
72
|
PublisherName |
British Standards Institution
|
Status |
Current
|
This document describes considerations for the biological evaluation of medical devices that are composed of or contain nanomaterials. In addition, this guidance can also be used for the evaluation of nano-objects generated as products of degradation, wear, or from mechanical treatment processes (e.g. in situ grinding, polishing of medical devices) from (components of) medical devices that are manufactured not using nanomaterials.
This document includes considerations on the:
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characterization of nanomaterials;
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sample preparation for testing of nanomaterials;
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release of nano-objects from medical devices;
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toxicokinetics of nano-objects;
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biological evaluation of nanomaterials;
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presentation of results;
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risk assessment of nanomaterials in the context of medical device evaluation;
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biological evaluation report;
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nanostructures on the surface of a medical device, intentionally generated during the engineering, manufacturing or processing of a medical device.
The following are excluded from this document:
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natural and biological nanomaterials, as long as they have not been engineered, manufactured or processed for use in a medical device;
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intrinsic nanostructures in a bulk material;
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nanostructures on the surface of a medical device, generated as an unintentional by-product during the engineering, manufacturing or processing of a medical device.
NOTE Examples of unintentional nanostructures on the surface of a medical device are extrusion draw lines and machining/tool marks.
This document is intended to provide a general framework and highlights important aspects which need to be considered when assessing the safety of medical devices composed of, containing and/or generating nano-objects. Additionally, the document identifies several common pitfalls and obstacles which have been identified when testing nanomaterials compared to bulk materials or small molecule chemical species. As a technical report (TR), this document represents the current technical knowledge related to nanomaterials. No detailed testing protocols are outlined or provided. This document can serve as a basis for future documents containing detailed protocols with a focus on nanomaterial testing.
Standards | Relationship |
ISO/TR 10993-22:2017 | Identical |
ISO 16700:2016 | Microbeam analysis — Scanning electron microscopy — Guidelines for calibrating image magnification |
ISO 22412:2017 | Particle size analysis — Dynamic light scattering (DLS) |
ISO/IEC 17025:2005 | General requirements for the competence of testing and calibration laboratories |
ISO 13320:2009 | Particle size analysis Laser diffraction methods |
ISO/TS 17200:2013 | Nanotechnology Nanoparticles in powder form Characteristics and measurements |
ISO/TR 13121:2011 | Nanotechnologies — Nanomaterial risk evaluation |
ISO 18118:2015 | Surface chemical analysis — Auger electron spectroscopy and X-ray photoelectron spectroscopy — Guide to the use of experimentally determined relative sensitivity factors for the quantitative analysis of homogeneous materials |
ISO/TS 80004-6:2013 | Nanotechnologies Vocabulary Part 6: Nano-object characterization |
ISO/TR 11360:2010 | Nanotechnologies Methodology for the classification and categorization of nanomaterials |
ISO 24236:2005 | Surface chemical analysis Auger electron spectroscopy Repeatability and constancy of intensity scale |
ISO/TR 13014:2012 | Nanotechnologies Guidance on physico-chemical characterization of engineered nanoscale materials for toxicologic assessment |
ISO 29701:2010 | Nanotechnologies Endotoxin test on nanomaterial samples for in vitro systems Limulus amebocyte lysate (LAL) test |
ISO/TR 13097:2013 | Guidelines for the characterization of dispersion stability |
ISO 14887:2000 | Sample preparation Dispersing procedures for powders in liquids |
ISO 17973:2016 | Surface chemical analysis — Medium-resolution Auger electron spectrometers — Calibration of energy scales for elemental analysis |
ISO 17853:2011 | Wear of implant materials Polymer and metal wear particles Isolation and characterization |
ISO 10808:2010 | Nanotechnologies Characterization of nanoparticles in inhalation exposure chambers for inhalation toxicity testing |
ISO 22489:2016 | Microbeam analysis — Electron probe microanalysis — Quantitative point analysis for bulk specimens using wavelength dispersive X-ray spectroscopy |
ISO/TS 19590:2017 | Nanotechnologies — Size distribution and concentration of inorganic nanoparticles in aqueous media via single particle inductively coupled plasma mass spectrometry |
ISO/TR 19319:2013 | Surface chemical analysis Fundamental approaches to determination of lateral resolution and sharpness in beam-based methods |
ISO 18757:2003 | Fine ceramics (advanced ceramics, advanced technical ceramics) — Determination of specific surface area of ceramic powders by gas adsorption using the BET method |
ISO/TR 27628:2007 | Workplace atmospheres Ultrafine, nanoparticle and nano-structured aerosols Inhalation exposure characterization and assessment |
ISO/TS 80004-1:2015 | Nanotechnologies — Vocabulary — Part 1: Core terms |
ISO 10801:2010 | Nanotechnologies Generation of metal nanoparticles for inhalation toxicity testing using the evaporation/condensation method |
ISO 13084:2011 | Surface chemical analysis Secondary-ion mass spectrometry Calibration of the mass scale for a time-of-flight secondary-ion mass spectrometer |
ISO/TR 16196:2016 | Nanotechnologies Compilation and description of sample preparation and dosing methods for engineered and manufactured nanomaterials |
ISO/TS 16195:2013 | Nanotechnologies Guidance for developing representative test materials consisting of nano-objects in dry powder form |
ISO/TR 14187:2011 | Surface chemical analysis Characterization of nanostructured materials |
ISO/TS 12025:2012 | Nanomaterials Quantification of nano-object release from powders by generation of aerosols |
ISO 24173:2009 | Microbeam analysis — Guidelines for orientation measurement using electron backscatter diffraction |
ISO 15471:2016 | Surface chemical analysis Auger electron spectroscopy Description of selected instrumental performance parameters |
ISO/TS 16550:2014 | Nanotechnologies — Determination of silver nanoparticles potency by release of muramic acid from Staphylococcus aureus |
ISO 14971:2007 | Medical devices Application of risk management to medical devices |
ISO 18144:2003 | Environmental tobacco smoke — Estimation of its contribution to respirable suspended particles — Method based on solanesol |
ISO 22309:2011 | Microbeam analysis — Quantitative analysis using energy-dispersive spectrometry (EDS) for elements with an atomic number of 11 (Na) or above |
ISO 9277:2010 | Determination of the specific surface area of solids by gas adsorption — BET method |
ISO/TR 15499:2016 | Biological evaluation of medical devices Guidance on the conduct of biological evaluation within a risk management process |
ISO 15900:2009 | Determination of particle size distribution Differential electrical mobility analysis for aerosol particles |
ISO/TR 16197:2014 | Nanotechnologies Compilation and description of toxicological screening methods for manufactured nanomaterials |
ISO 14488:2007 | Particulate materials — Sampling and sample splitting for the determination of particulate properties |
ISO/TS 80004-2:2015 | Nanotechnologies — Vocabulary — Part 2: Nano-objects |
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