Your search keyword '"Indans I"' showing total 18 results

1. LOCALIZATION OF CYTOSKELETAL PROTEINS IN CHORIONIC VILLI

Author

CEDARD, L, ALSAT, E, CHALLIER, JC, CHAOUAT, G, MALASSINE, A, OCKLEFORD, C D, BRADBURY, F M, INDANS, I, CEDARD, L, ALSAT, E, CHALLIER, JC, CHAOUAT, G, MALASSINE, A, OCKLEFORD, C D, BRADBURY, F M, and INDANS, I

Published

1990

2. Structure and function of the nematosome

Author

Cd, Ockleford, Ch, Nevard, Indans I, and Carolyn Jones

Subjects

Inclusion Bodies, Mice, Microscopy, Electron, Histocytochemistry, Pregnancy, Placenta, Animals, Humans, Female, Cell Biology, Image Enhancement, Models, Biological

Abstract

The ultrastructural morphology of human placental and mouse placental nematosomes has been investigated. The description includes a three-dimensional analysis of the shape of the organelles based on serial sectioning, measurements of the repeat distance of the subunit fibre of the organelle derived by optical diffraction analysis and the results of an ultrastructural cytochemical study designed to test whether the organelle contains nucleic acid.

Published

1987

3. Structure and function of the nematosome

Author

Ockleford, C. D., Nevard, C. H. F., Indans, I., and Jones, C. J. P.

Abstract

The ultrastructural morphology of human placental and mouse placental nematosomes has been investigated. The description includes a three-dimensional analysis of the shape of the organelles based on serial sectioning, measurements of the repeat distance of the subunit fibre of the organelle derived by optical diffraction analysis and the results of an ultrastructural cytochemical study designed to test whether the organelle contains nucleic acid.

Published

1987

4. STRUCTURE AND FUNCTION OF THE NEMATOSOME

Author

OCKLEFORD, C D, NEVARD, C H F, INDANS, I, JONES, C J, OCKLEFORD, C D, NEVARD, C H F, INDANS, I, and JONES, C J

Abstract

The ultrastructural morphology of human placental and mouse placental nematosomes has been investigated. The description includes a three-dimensional analysis of the shape of the organelles based on serial sectioning, measurements of the repeat distance of the subunit fibre of the organelle derived by optical diffraction analysis and the results of an ultrastructural cytochemical study designed to test whether the organelle contains nucleic acid.

Published

1987

5. Structure and function of the nematosome

Author

Colin Ockleford, Nevard, C. H. F., Indans, I., and Jones, C. J.

6. LOCALIZATION OF CYTOSKELETAL PROTEINS IN CHORIONIC VILLI

Author

Colin Ockleford, Bradbury, Fm, and Indans, I.

7. An evaluation of the fixed concentration procedure for assessment of acute inhalation toxicity.

Author

Sewell F, Ragan I, Indans I, Marczylo T, Stallard N, Griffiths D, Holmes T, Smith P, and Horgan G

Subjects

Administration, Inhalation, Animal Use Alternatives methods, Animals, Female, Male, Toxicity Tests, Acute methods

Abstract

Acute inhalation studies are conducted in animals as part of chemical hazard identification and for classification and labelling. Current methods employ death as an endpoint (Organisation for Economic Co-operation and Development (OECD) test guideline (TG) 403 and TG436) while the recently approved fixed concentration procedure (FCP) (OECD TG433) uses fewer animals and replaces lethality as an endpoint with evident toxicity. Evident toxicity is the presence of clinical signs that predict that exposure to the next highest concentration will cause severe toxicity or death in most animals. Approval of TG433 was the result of an international initiative, led by the National Centre for the Replacement, Refinement & Reduction of Animals in Research (NC3Rs), which collected data from six laboratories on clinical signs recorded for inhalation studies on 172 substances. This paper summarises previously published data and describes the additional analyses of the dataset that were essential for approval of the TG., (Copyright © 2018 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2018

8. Alternative approaches for acute inhalation toxicity testing to address global regulatory and non-regulatory data requirements: An international workshop report.

Author

Clippinger AJ, Allen D, Jarabek AM, Corvaro M, Gaça M, Gehen S, Hotchkiss JA, Patlewicz G, Melbourne J, Hinderliter P, Yoon M, Huh D, Lowit A, Buckley B, Bartels M, BéruBé K, Wilson DM, Indans I, and Vinken M

Subjects

Animal Testing Alternatives, Animals, Computer Simulation, Databases, Factual, Education, Humans, Lung Diseases chemically induced, Models, Statistical, Quantitative Structure-Activity Relationship, Government Regulation, Inhalation Exposure adverse effects, Toxicity Tests, Acute methods

Abstract

Inhalation toxicity testing, which provides the basis for hazard labeling and risk management of chemicals with potential exposure to the respiratory tract, has traditionally been conducted using animals. Significant research efforts have been directed at the development of mechanistically based, non-animal testing approaches that hold promise to provide human-relevant data and an enhanced understanding of toxicity mechanisms. A September 2016 workshop, "Alternative Approaches for Acute Inhalation Toxicity Testing to Address Global Regulatory and Non-Regulatory Data Requirements", explored current testing requirements and ongoing efforts to achieve global regulatory acceptance for non-animal testing approaches. The importance of using integrated approaches that combine existing data with in vitro and/or computational approaches to generate new data was discussed. Approaches were also proposed to develop a strategy for identifying and overcoming obstacles to replacing animal tests. Attendees noted the importance of dosimetry considerations and of understanding mechanisms of acute toxicity, which could be facilitated by the development of adverse outcome pathways. Recommendations were made to (1) develop a database of existing acute inhalation toxicity data; (2) prepare a state-of-the-science review of dosimetry determinants, mechanisms of toxicity, and existing approaches to assess acute inhalation toxicity; (3) identify and optimize in silico models; and (4) develop a decision tree/testing strategy, considering physicochemical properties and dosimetry, and conduct proof-of-concept testing. Working groups have been established to implement these recommendations., (Copyright © 2018 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2018

9. A global initiative to refine acute inhalation studies through the use of 'evident toxicity' as an endpoint: Towards adoption of the fixed concentration procedure.

Author

Sewell F, Ragan I, Marczylo T, Anderson B, Braun A, Casey W, Dennison N, Griffiths D, Guest R, Holmes T, van Huygevoort T, Indans I, Kenny T, Kojima H, Lee K, Prieto P, Smith P, Smedley J, Stokes WS, Wnorowski G, and Horgan G

Subjects

Aerosols, Animals, Behavior, Animal drug effects, Consensus, Cooperative Behavior, Dose-Response Relationship, Drug, Female, Guidelines as Topic, Humans, Lethal Dose 50, Male, Models, Animal, Motor Activity drug effects, Observer Variation, Powders, Rats, Reproducibility of Results, Respiration drug effects, Time Factors, Toxicity Tests, Acute methods, Weight Loss drug effects, Endpoint Determination standards, Inhalation Exposure adverse effects, International Cooperation, Toxicity Tests, Acute standards

Abstract

Acute inhalation studies are conducted in animals as part of chemical hazard identification and characterisation, including for classification and labelling purposes. Current accepted methods use death as an endpoint (OECD TG403 and TG436), whereas the fixed concentration procedure (FCP) (draft OECD TG433) uses fewer animals and replaces lethality as an endpoint with 'evident toxicity.' Evident toxicity is defined as clear signs of toxicity that predict exposure to the next highest concentration will cause severe toxicity or death in most animals. A global initiative including 20 organisations, led by the National Centre for the Replacement, Refinement and Reduction of Animals in Research (NC3Rs) has shared data on the clinical signs recorded during acute inhalation studies for 172 substances (primarily dusts or mists) with the aim of making evident toxicity more objective and transferable between laboratories. Pairs of studies (5 male or 5 female rats) with at least a two-fold change in concentration were analysed to determine if there are any signs at the lower dose that could have predicted severe toxicity or death at the higher concentration. The results show that signs such as body weight loss (>10% pre-dosing weight), irregular respiration, tremors and hypoactivity, seen at least once in at least one animal after the day of dosing are highly predictive (positive predictive value > 90%) of severe toxicity or death at the next highest concentration. The working group has used these data to propose changes to TG433 that incorporate a clear indication of the clinical signs that define evident toxicity., (Copyright © 2015 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2015

10. A new sighting study for the fixed concentration procedure to allow for gender differences.

Author

Stallard N, Price C, Creton S, Indans I, Guest R, Griffiths D, and Edwards P

Subjects

Administration, Inhalation, Animals, Dose-Response Relationship, Drug, Dust, Female, Male, Aerosols toxicity, Sex Characteristics, Toxicity Tests, Acute methods

Abstract

The fixed concentration procedure (FCP) has been proposed as an alternative to the median lethal concentration (LC(50)) test (organisation for economic co-operation and development (OECD) test guideline [TG] 403) for the assessment of acute inhalation toxicity. The FCP tests animals of a single gender (usually females) at a number of fixed concentration levels in a sequential fashion. It begins with a sighting study that precedes the main FCP study and is used to determine the main study starting concentration. In this paper, we propose a modification to the sighting study and suggest that it should be conducted using both male and female animals, rather than just animals of a single gender. Statistical analysis demonstrates that, when females are more sensitive, the new procedure is likely to give the same classification as the original FCP, whereas, if males are more sensitive, the new procedure is much less likely to lead to incorrect classification into a less toxic category. If there is no difference in the LC(50) for females and males, the new procedure is slightly more likely to classify into a more stringent class than the original FCP. Overall, these results show that the revised sighting study ensures gender differences in sensitivity do not significantly impact on the performance of the FCP, supporting its use as an alternative test method for assessing acute inhalation toxicity.

Published

2011

11. A statistical evaluation of the effects of gender differences in assessment of acute inhalation toxicity.

Author

Price C, Stallard N, Creton S, Indans I, Guest R, Griffiths D, and Edwards P

Subjects

Administration, Inhalation, Aerosols toxicity, Animals, Dose-Response Relationship, Drug, Dust, Female, Lethal Dose 50, Male, Rats, Hazardous Substances administration & dosage, Hazardous Substances toxicity, Sex Characteristics, Statistics as Topic, Toxicity Tests, Acute methods

Abstract

Acute inhalation toxicity of chemicals has conventionally been assessed by the median lethal concentration (LC(50)) test (organisation for economic co-operation and development (OECD) TG 403). Two new methods, the recently adopted acute toxic class method (ATC; OECD TG 436) and a proposed fixed concentration procedure (FCP), have recently been considered, but statistical evaluations of these methods did not investigate the influence of differential sensitivity between male and female rats on the outcomes. This paper presents an analysis of data from the assessment of acute inhalation toxicity for 56 substances. Statistically significant differences between the LC(50) for males and females were found for 16 substances, with greater than 10-fold differences in the LC(50) for two substances. The paper also reports a statistical evaluation of the three test methods in the presence of unanticipated gender differences. With TG 403, a gender difference leads to a slightly greater chance of under-classification. This is also the case for the ATC method, but more pronounced than for TG 403, with misclassification of nearly all substances from Globally Harmonised System (GHS) class 3 into class 4. As the FCP uses females only, if females are more sensitive, the classification is unchanged. If males are more sensitive, the procedure may lead to under-classification. Additional research on modification of the FCP is thus proposed.

Published

2011

12. Acute toxicity testing of chemicals-Opportunities to avoid redundant testing and use alternative approaches.

Author

Creton S, Dewhurst IC, Earl LK, Gehen SC, Guest RL, Hotchkiss JA, Indans I, Woolhiser MR, and Billington R

Subjects

Administration, Oral, Administration, Topical, Animal Testing Alternatives legislation & jurisprudence, Animals, Humans, Inhalation Exposure adverse effects, International Cooperation, Risk Assessment legislation & jurisprudence, Risk Assessment methods, Skin Irritancy Tests methods, Animal Testing Alternatives methods, Toxicity Tests, Acute methods

Abstract

Assessment of the acute systemic oral, dermal, and inhalation toxicities, skin and eye irritancy, and skin sensitisation potential of chemicals is required under regulatory schemes worldwide. In vivo studies conducted to assess these endpoints can sometimes be associated with substantial adverse effects in the test animals, and their use should always be scientifically justified. It has been argued that while information obtained from such acute tests provides data needed to meet classification and labelling regulations, it is of limited value for hazard and risk assessments. Inconsistent application of in vitro replacements, protocol requirements across regions, and bridging principles also contribute to unnecessary and redundant animal testing. Assessment of data from acute oral and dermal toxicity testing demonstrates that acute dermal testing rarely provides value for hazard assessment purposes when an acute oral study has been conducted. Options to waive requirements for acute oral and inhalation toxicity testing should be employed to avoid unnecessary in vivo studies. In vitro irritation models should receive wider adoption and be used to meet regulatory needs. Global requirements for sensitisation testing need continued harmonisation for both substance and mixture assessments. This paper highlights where alternative approaches or elimination of tests can reduce and refine animal use for acute toxicity requirements.

Published

2010

13. Meeting report: Validation of toxicogenomics-based test systems: ECVAM-ICCVAM/NICEATM considerations for regulatory use.

Author

Corvi R, Ahr HJ, Albertini S, Blakey DH, Clerici L, Coecke S, Douglas GR, Gribaldo L, Groten JP, Haase B, Hamernik K, Hartung T, Inoue T, Indans I, Maurici D, Orphanides G, Rembges D, Sansone SA, Snape JR, Toda E, Tong W, van Delft JH, Weis B, and Schechtman LM

Subjects

Animal Testing Alternatives legislation & jurisprudence, Computational Biology, Government Regulation, Reproducibility of Results, Toxicity Tests methods, Toxicogenetics legislation & jurisprudence

Abstract

This is the report of the first workshop "Validation of Toxicogenomics-Based Test Systems" held 11-12 December 2003 in Ispra, Italy. The workshop was hosted by the European Centre for the Validation of Alternative Methods (ECVAM) and organized jointly by ECVAM, the U.S. Interagency Coordinating Committee on the Validation of Alternative Methods (ICCVAM), and the National Toxicology Program (NTP) Interagency Center for the Evaluation of Alternative Toxicological Methods (NICEATM). The primary aim of the workshop was for participants to discuss and define principles applicable to the validation of toxicogenomics platforms as well as validation of specific toxicologic test methods that incorporate toxicogenomics technologies. The workshop was viewed as an opportunity for initiating a dialogue between technologic experts, regulators, and the principal validation bodies and for identifying those factors to which the validation process would be applicable. It was felt that to do so now, as the technology is evolving and associated challenges are identified, would be a basis for the future validation of the technology when it reaches the appropriate stage. Because of the complexity of the issue, different aspects of the validation of toxicogenomics-based test methods were covered. The three focus areas include a) biologic validation of toxicogenomics-based test methods for regulatory decision making, b) technical and bioinformatics aspects related to validation, and c) validation issues as they relate to regulatory acceptance and use of toxicogenomics-based test methods. In this report we summarize the discussions and describe in detail the recommendations for future direction and priorities.

Published

2006

14. Statistical evaluation of an acute dermal toxicity test using the dermal fixed dose procedure.

Author

Stallard N, Whitehead A, and Indans I

Subjects

Administration, Cutaneous, Animals, Animals, Laboratory, Lethal Dose 50, Animal Welfare, Endpoint Determination, Guidelines as Topic, Models, Statistical

Abstract

The conventional method for the assessment of acute dermal toxicity (OECD Test Guideline 402, 1987) uses death of animals as an endpoint to identify the median lethal dose (LD50). A new OECD Testing Guideline called the dermal fixed dose procedure (dermal FDP) is being prepared to provide an alternative to Test Guideline 402. In contrast to Test Guideline 402, the dermal FDP does not provide a point estimate of the LD50, but aims to identify that dose of the substance under investigation that causes clear signs of nonlethal toxicity. This is then used to assign classification according to the new Globally Harmonised System of Classification and Labelling scheme (GHS). The dermal FDP has been validated using statistical modelling rather than by in vivo testing. The statistical modelling approach enables calculation of the probability of each GHS classification and the expected numbers of deaths and animals used in the test for imaginary substances with a range of LD50 values and dose-response curve slopes. This paper describes the dermal FDP and reports the results from the statistical evaluation. It is shown that the procedure will be completed with considerably less death and suffering than guideline 402, and will classify substances either in the same or a more stringent GHS class than that assigned on the basis of the LD50 value.

Published

2004

15. The Third FRAME Toxicity Committee: working toward greater implementation of alternatives in toxicity testing.

Author

Combes RD, Balls M, Bansil L, Barratt M, Bell D, Botham P, Broadhead C, Clothier R, George E, Fentem J, Jackson M, Indans I, Loizou G, Navaratnam V, Pentreath V, Phillips B, Stemplewski H, and Stewart J

Subjects

Animals, Animals, Genetically Modified, Carcinogenicity Tests, Endocrine Disruptors toxicity, In Vitro Techniques, Models, Animal, Risk Assessment, United Kingdom, Animal Testing Alternatives, Toxicity Tests

Abstract

FRAME (the Fund for the Replacement of Animals in Medical Experiments; http://www. frame.org.uk) is a scientific charity, which has, for over 30 years, been advocating and conducting its own research on the application of the Three Rs (reduction, refinement and replacement) to animal experimentation. FRAME develops and validates scientifically based replacement alternative methods to facilitate their acceptance by scientists and regulators. As part of these activities, FRAME established a FRAME Toxicity Committee in 1979, and a report of its work was published in 1982, and discussed in the proceedings of a subsequent meeting, published in 1983. A Second Toxicity Committee formed in 1988, reported its work in 1990, which was discussed in the proceedings of a subsequent conference, published in 1991. The work of these committees was extremely successful and influential in laying the foundation for later activities in alternatives research. A Third FRAME Toxicity Committee was formed in 1999, since much progress had been achieved in the previous decade, especially with regard to the successful validation of several non-animal replacement methods and the start of their regulatory acceptance. Moreover, some new test methods are on the point of being validated, and many new techniques and discoveries are impacting on toxicity testing. Also, interest in reduction and refinement in toxicology has increased. However, there is considerable scope and need for the further implementation of the Three Rs in toxicity testing, especially due to recent plans for the large-scale testing of high-production volume, hormonally-active and existing chemicals, and the increasing use of transgenic animal models. The new committee comprises 18 experts from industry, academia, animal welfare, legislative and regulatory bodies, with one observer from the UK Government Home Office. The main objective is to review progress made in the application of the Three Rs in the development and safety evaluation of medicines, biologicals, cosmetics, agrochemicals and other products, as well as industrial chemicals, and to make recommendations as a basis for further sensible progress according to sound scientific and ethical criteria. The main committee is to be augmented by several working parties that will focus on specific scientific issues: 1) targeted risk assessment versus hazard identification; 2) data sharing; 3) endocrine disruption; and 4) carcinogenicity testing. The Committee is also to publish a status report on the current situation regarding alternatives in toxicity testing, based on the recommendations of the Second Toxicity Committee, and will organise a conference to discuss its overall conclusions and recommendations.

Published

2004

16. Statistical evaluation of the fixed concentration procedure for acute inhalation toxicity assessment.

Author

Stallard N, Whitehead A, and Indans I

Subjects

Animals, Animals, Laboratory, Endpoint Determination, Lethal Dose 50, Reference Values, Animal Welfare, Guidelines as Topic, Inhalation Exposure, Models, Statistical

Abstract

The conventional method for the assessment of acute inhalation toxicity (OECD Test Guideline 403, 1981) uses death of animals as an endpoint to identify the median lethal concentration (LC50). A new OECD Testing Guideline called the Fixed Concentration Procedure (FCP) is being prepared to provide an alternative to Test Guideline 403. Unlike Test Guideline 403, the FCP does not provide a point estimate of the LC50 but aims to identify an airborne exposure level that causes clear signs of nonlethal toxicity. This is then used to assign classification according to the new Globally Harmonized System of Classification and Labelling scheme (GHS). The FCP has been validated using statistical simulation rather than by in vivo testing. The statistical simulation approach predicts the GHS classification outcome and the numbers of deaths and animals used in the test for imaginary substances with a range of LC50 values and dose-response curve slopes. This paper describes the FCP and reports the results from the statistical simulation study assessing its properties. It is shown that the procedure will be completed with considerably less death and suffering than Test Guideline 403, and will classify substances either in the same or a more stringent GHS class than that assigned on the basis of the LC50 value.

Published

2003

17. An assessment of progress in the use of alternatives in toxicity testing since the publication of the report of the second FRAME Toxicity Committee (1991).

Author

Combes R, Balls M, Bansil L, Barratt M, Bell D, Botham P, Broadhead C, Clothier R, George E, Fentem J, Jackson M, Indans I, Loizu G, Navaratnam V, Pentreath V, Phillips B, Stemplewski H, and Stewart J

Subjects

Animals, Animals, Laboratory, Europe, Health Planning Guidelines, In Vitro Techniques, Reproducibility of Results, Animal Testing Alternatives trends, Research Design trends, Toxicity Tests methods, Toxicity Tests trends

Published

2002

18. The use and interpretation of in vitro data in regulatory toxicology: cosmetics, toiletries and household products.

Author

Indans I

Subjects

Animal Testing Alternatives methods, Animals, Consumer Product Safety legislation & jurisprudence, Consumer Product Safety standards, Cosmetics adverse effects, Cosmetics toxicity, Dermatologic Agents adverse effects, Dermatologic Agents toxicity, Eye drug effects, Eye pathology, Humans, In Vitro Techniques, Risk Assessment, Skin drug effects, Skin pathology, Toxicology trends, Toxicity Tests methods, Toxicology methods

Abstract

There is currently a drive to eliminate animal testing for cosmetics, toiletries and household products; indeed, the European Union Cosmetics Directive aims to prohibit the use of experimental animals for the testing of finished cosmetic products after 2002. At present, national prohibitions are in place in the UK, Germany, Austria and the Netherlands, for the testing of finished cosmetic products and cosmetic ingredients. In the USA animal testing for certain types of finished products is mandatory. Against this background, the currently available regulatory in vitro tests comprise methods for eye irritation, skin corrosivity, genotoxicity, dermal penetration and photoirritation. The draft updates to the Organisation for Economic Co-operation and Development guidelines for eye and skin irritation advocate the use of in vitro or ex vivo methods prior to the commencement of animal studies. At present, testing for these endpoints cannot be completed in vitro, but potentially corrosive substances and products can be classified without the need for animal studies. Regulatory genotoxicity testing can be completed using only in vitro methods, provided that a clear negative outcome is obtained for each test. Data from dermal penetration studies may be used to refine risk assessments. Current developments in areas such as skin sensitisation and skin irritation promise that in the reasonably near future such information may be generated without the use of animals.

Published

2002