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1.
Toxicol In Vitro ; 29(8): 2055-80, 2015 Dec.
Article in English | MEDLINE | ID: mdl-26320836

ABSTRACT

Alternative test methods often use prediction models (PMs) for converting endpoint measurements into predictions. Two PMs are used for the skin corrosion tests (SCTs) of the OECD Test Guideline No. 431 (TG 431). One is specific to EpiSkin™ test method, whereas EpiDerm™, SkinEthic™ RHE and epiCS® share a common PM. These methods are based on reconstructed human epidermis models wherein cell viability values are measured. Their PMs allow translating those values into sub-categories of corrosive chemicals, Category 1A (Cat1A) and a combination of Categories 1B/1C (Cat1BC), and identifying non-corrosive (NC) chemicals. EpiSkin™'s PM already results in sufficiently accurate predictions. The common PM of the three others accurately identifies all corrosive chemicals but, for sub-categorization, an important fraction of Cat1BC chemicals (40-50%) is over-predicted as Cat1A. This paper presents a post-hoc analysis of validation data on a set of n=80 chemicals. It investigates: why this common PM causes these over-predictions and how two novel PMs that we developed (PMvar1 and PMvar2) improve the predictive capacity of these methods. PMvar1 is based on a two-step approach; PMvar2 is based on a single composite indicator of cell viability. Both showed a greater capacity to predict Cat1BC, while Cat1A correct predictions remaining at least at the same level of EpiSkin™. We suggest revising TG 431, to include the novel PMs in view of improving the predictive capacity of its SCTs.


Subject(s)
Caustics/toxicity , Guidelines as Topic , Skin Diseases/chemically induced , Skin Irritancy Tests/methods , Toxicity Tests/standards , Animal Testing Alternatives , Epidermis/pathology , Humans , Predictive Value of Tests , Reproducibility of Results , Skin Diseases/pathology , Skin Irritancy Tests/standards
2.
ALTEX ; 31(3): 357-63, 2014.
Article in English | MEDLINE | ID: mdl-24819539

ABSTRACT

Despite changing attitudes towards animal testing and current legislation to protect experimental animals, the rate of animal experiments seems to have changed little in recent years. On May 15-16, 2013, the In Vitro Testing Industrial Platform (IVTIP) held an open meeting to discuss the state of the art in alternative methods, how companies have, can, and will need to adapt and what drives and hinders regulatory acceptance and use. Several key messages arose from the meeting. First, industry and regulatory bodies should not wait for complete suites of alternative tests to become available, but should begin working with methods available right now (e.g., mining of existing animal data to direct future studies, implementation of alternative tests wherever scientifically valid rather than continuing to rely on animal tests) in non-animal and animal integrated strategies to reduce the numbers of animals tested. Sharing of information (communication), harmonization and standardization (coordination), commitment and collaboration are all required to improve the quality and speed of validation, acceptance, and implementation of tests. Finally, we consider how alternative methods can be used in research and development before formal implementation in regulations. Here we present the conclusions on what can be done already and suggest some solutions and strategies for the future.


Subject(s)
Animal Testing Alternatives/legislation & jurisprudence , Government Regulation , Toxicity Tests/methods , Animal Experimentation/legislation & jurisprudence , Animal Testing Alternatives/methods , Animals , Consensus Development Conferences as Topic , Europe , Industry/legislation & jurisprudence , Information Dissemination , Research , Risk Assessment/methods
3.
Toxicol Appl Pharmacol ; 272(2): 529-41, 2013 Oct 15.
Article in English | MEDLINE | ID: mdl-23876969

ABSTRACT

The purpose of this study was to explore the possibility of combining the epidermal equivalent (EE) potency assay with the assay which assesses release of interleukin-18 (IL-18) to provide a single test for identification and classification of skin sensitizing chemicals, including chemicals of low water solubility or stability. A protocol was developed using different 3D-epidermal models including in house VUMC model, epiCS® (previously EST1000™), MatTek EpiDerm™ and SkinEthic™ RHE and also the impact of different vehicles (acetone:olive oil 4:1, 1% DMSO, ethanol, water) was investigated. Following topical exposure for 24h to 17 contact allergens and 13 non-sensitizers a robust increase in IL-18 release was observed only after exposure to contact allergens. A putative prediction model is proposed from data obtained from two laboratories yielding 95% accuracy. Correlating the in vitro EE sensitizer potency data, which assesses the chemical concentration which results in 50% cytotoxicity (EE-EC50) with human and animal data showed a superior correlation with human DSA05 (µg/cm(2)) data (Spearman r=0.8500; P value (two-tailed)=0.0061) compared to LLNA data (Spearman r=0.5968; P value (two-tailed)=0.0542). DSA05=induction dose per skin area that produces a positive response in 5% of the tested population Also a good correlation was observed for release of IL-18 (SI-2) into culture supernatants with human DSA05 data (Spearman r=0.8333; P value (two-tailed)=0.0154). This easily transferable human in vitro assay appears to be very promising, but additional testing of a larger chemical set with the different EE models is required to fully evaluate the utility of this assay and to establish a definitive prediction model.


Subject(s)
Allergens/toxicity , Biological Assay , Dermatitis, Allergic Contact/etiology , Epidermis/drug effects , Interleukin-18/metabolism , Skin Irritancy Tests , Allergens/chemistry , Enzyme-Linked Immunosorbent Assay , Epidermis/immunology , Humans , Interleukin-18/immunology , Models, Immunological , Predictive Value of Tests
4.
Toxicol In Vitro ; 26(3): 526-34, 2012 Apr.
Article in English | MEDLINE | ID: mdl-22269383

ABSTRACT

At the IVTIP (in vitro testing industrial platform) meeting of November 26th 2009 entitled 'Toxicology in the 21st century ('21C')--working our way towards a visionary reality' all delegates endorsed the emerging concept of the '21C' vision as the way forward to enable a thorough, reliable and systematic approach to future toxicity testing without the use of animals. One of the emerging concepts focused on integrating a defined number of tests modelling in vivo-relevant and well-characterised toxicity pathways representing mechanistic endpoints. At this meeting the importance of Integrated Testing Strategies (ITS) as tools towards reduction and eventually replacement of the animals currently used for hazard identification and risk assessment was recognised. A follow-up IVTIP Spring 2010 meeting entitled 'Integrated In Vitro Testing Strategies (ITS)--Implementation Challenges' was organised to address pending questions about ITS. This report is not a review of the ITS literature, but a summary of the discussions triggered by presented examples on how to develop and implement ITS. Contrasts between pharmaceutical and chemical industry, as well as a list of general but practical aspects to be considered while developing an ITS emerged from the discussions. In addition, current recommendations on the validation of ITS were discussed. In conclusion, the outcome of this workshop improved the understanding of the participants of some important factors that may impact the design of an ITS in function of its purpose (e.g., screening, or early decision making versus regulatory), the context in which they need to be applied (e.g., ICH guidelines, REACH) and the status and quality of the available tools. A set of recommendations of best practices was established and the importance of the applicability of the individual tests as well as the testing strategy itself was highlighted.


Subject(s)
Animal Testing Alternatives/methods , Toxicity Tests/methods , Toxicology/methods , Animal Testing Alternatives/trends , Animals , Chemical Industry/trends , Drug Industry/trends , Humans , Models, Biological , Risk Assessment/methods , Risk Assessment/trends , Toxicity Tests/trends , Toxicology/trends
5.
Toxicol In Vitro ; 25(4): 874-81, 2011 Jun.
Article in English | MEDLINE | ID: mdl-21338664

ABSTRACT

In November 2009 the In Vitro Testing Industrial Platform (IVTIP) organized a meeting entitled 'Toxicology in the 21st century--working our way towards a visionary reality'. Participating delegates included scientists, key opinion leaders, developers and users of 3Rs-related tests and testing strategies. This paper summarizes the discussions with respect to the conditions required to move the vision towards an applicable reality. It should not be considered as a comprehensive review of technologies that could be relevant for moving the in vitro testing and risk assessment field forward. Overall, the U.S. National Research Council (NRC) vision and strategy for toxicity testing in the 21st century was unanimously considered as the right approach to enable future toxicity testing without animal experimentation. Many elements of this vision were identified in the European initiatives aimed at the development of non-animal based methods. However, the need for concerted actions moving the current state-of-the-art towards a thorough, reliable and systematic approach to future toxicity testing was made evident by the discussions. Among the difficulties and hurdles on the way forward, the lack of physiologically relevant, metabolic competent and robust in vivo, ex vivo and in vitro models of both healthy and diseased people was frequently mentioned. In addition, there was a call for immediate implementation of emerging technologies and paradigms considered to be essential for transferring the vision into the reality of a toxicity-testing system assessing biologically significant perturbations in key pathways which are relevant for human biology. While the unique strengths of each of the available and emerging technologies was recognized, integration of available data and emerging technologies to integrated testing strategies (ITS) was highlighted as the preferred way forward. Method harmonization and standardization, as well as procedures and guidelines for putting together ITS, were urgently requested in order to facilitate proper implementation and acceptance. There was an urgent call for better coordination of the efforts that are ongoing or initiated in the 3Rs arena at national and international level. Education, training, communication and dissemination were addressed. It was recognised that the EPAA, through its 'Platform for Communication and Dissemination', has a very important and central role in this area.


Subject(s)
Toxicity Tests/methods , Toxicology/methods , Animal Testing Alternatives/methods , Animal Testing Alternatives/trends , Animals , European Union , Humans , National Academy of Sciences, U.S. , Risk Assessment/methods , Risk Assessment/trends , Toxicity Tests/trends , Toxicology/trends , United States
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