Your search keyword '"Christensen FM"' showing total 14 results

1. The SAM-Krom biomonitoring study shows occupational exposure to hexavalent chromium and increased genotoxicity in Denmark.

Author

Saber AT, Levin M, Kines P, Aimonen K, Givelet L, Andersen C, Huusom AJ, Carøe T, Ebbehøj NE, Christensen FM, Jiang Z, Lundh T, Tinnerberg H, Albin M, Engfeldt M, Broberg K, Catalan J, Loeschner K, Fuglsang K, and Vogel U

Abstract

Background: Hexavalent chromium (Cr(VI)) is a carcinogen. Exposure to Cr(VI) may occur in different industrial processes such as chrome plating and stainless steel welding. The aim of this study was to assess occupational exposure to Cr(VI) in Denmark., Methods: This cross-sectional study included 28 workers and 8 apprentices with potential Cr(VI) exposure and 24 within company controls, all recruited from six companies and one vocational school. Use of occupational safety and health (OSH) risk prevention measures were assessed through triangulation of interviews, a questionnaire and systematic observations. Inhalable Cr(VI) and Cr-total were assessed by personal air exposure measurements on Cr(VI) exposed participants and stationary measurements. Cr concentrations were measured in urine and in red blood cells (RBC) (the latter reflecting Cr(VI)). Genotoxicity was assessed by measurement of micronuclei in peripheral blood reticulocytes (MNRET)., Results: At announced visits, a consistent high degree of compliance to OSH risk prevention measures were seen in 'chromium bath plating' for both technical devices (e.g. ventilation, plastic balls, sheet coverings) and in the use of personal protective equipment (e.g. gloves, respirators), yet a lesser degree of compliance was observed in 'stainless steel welding'. The geometric mean of the air concentration of Cr(VI) was 0.26 μg/m 3 (95% confidence interval (CI): 0.12-0.57) for the Cr(VI)-exposed workers and 3.69 μg/m 3 (95% CI: 1.47-9.25) for the Cr(VI)-exposed apprentices. Subdivided by company type, the exposure levels were 0.13 μg/m 3 (95% CI: 0.04-0.41) for companies manufacturing and processing metal products, and 0.81 μg/m 3 (95% CI: 0.46-1.40) for bath plating companies. Workers with occupational exposure to Cr(VI) had significantly higher median levels of urinary Cr (2.42 μg/L, 5th-95th percentile 0.28-58.39), Cr in RBC (0.89 μg/L, 0.54-4.92) and MNRET (1.59 ‰, 0.78-10.92) compared to the within company controls (urinary: 0.40 μg/L, 0.16-21.3, RBC: 0.60 μg/L, 0.50-0.93,MNRET: 1.06 ‰, 0.71-2.06). When sub-dividing by company type, urinary Cr (4.61 μg/L, 1.72-69.5), Cr in RBC (1.33 μg/L, 0.95-4.98) and MNRET (1.89 μg/L, 0.78-12.92) levels were increased for workers with potential Cr(VI) exposure in bath-plating companies, and when subdividing by work task, workers engaged in process operation had increased levels of urinary Cr (8.51 μg/L, 1.71-69.5), Cr in RBC (1.33 μg/L, 0.95-4.98) and MNRET (1.89 μg/L, 0.82-12.92) levels., Conclusion: This biomonitoring study shows that bath platers were highly exposed to Cr(VI), as suggested by relatively high levels of urinary Cr, Cr in RBC and increased levels of micronuclei. The urinary Cr concentrations were high when compared to the French biological limit value of 2.5 μg Cr/L, corresponding to the Danish occupational exposure limit of 1 μg/m 3 . This, in turn, indirectly suggests that additional exposure routes than via air may contribute to the exposure. For welders, no statistically significant increases compared to within company controls were observed, however, the observed urinary Cr levels were similar to the levels observed in a European study (HBM4EU), and were higher than the levels observed for welders in Sweden (SafeChrom). In spite of a high degree of self-reported and observed compliance to OSH risk prevention measures during announced visits, the biomarkers of exposure reflecting recent exposure (urinary Cr) or exposure during the last four months (Cr in RBC) may point to variation in compliance to OSH risk prevention measures in general. Reduced occupational exposure to Cr(VI) may be achieved by applying the hierarchy of controls in eliminating or substituting Cr(VI), and the use of more effective technical solutions (e.g. automation)., (Copyright © 2024 The Authors. Published by Elsevier GmbH.. All rights reserved.)

Published

2024

2. Analysis of currently available data for characterising the risk of engineered nanomaterials to the environment and human health--lessons learned from four case studies.

Author

Aschberger K, Micheletti C, Sokull-Klüttgen B, and Christensen FM

Subjects

Animals, Chlorophyta drug effects, Daphnia drug effects, Environment, Environmental Exposure statistics & numerical data, Environmental Pollutants analysis, Fullerenes analysis, Fullerenes toxicity, Humans, Manufactured Materials toxicity, Metal Nanoparticles analysis, Metal Nanoparticles toxicity, Nanostructures analysis, Nanotubes, Carbon analysis, Nanotubes, Carbon toxicity, Risk Assessment methods, Environmental Exposure analysis, Environmental Pollutants toxicity, Nanostructures toxicity

Abstract

Production volumes and the use of engineered nanomaterials in many innovative products are continuously increasing, however little is known about their potential risk for the environment and human health. We have reviewed publicly available hazard and exposure data for both, the environment and human health and attempted to carry out a basic risk assessment appraisal for four types of nanomaterials: fullerenes, carbon nanotubes, metals, and metal oxides (ENRHES project 2009(1)). This paper presents a summary of the results of the basic environmental and human health risk assessments of these case studies, highlighting the cross cutting issues and conclusions about fate and behaviour, exposure, hazard and methodological considerations. The risk assessment methodology being the basis for our case studies was that of a regulatory risk assessment under REACH (ECHA, 2008(2)), with modifications to adapt to the limited available data. If possible, environmental no-effect concentrations and human no-effect levels were established from relevant studies by applying assessment factors in line with the REACH guidance and compared to available exposure data to discuss possible risks. When the data did not allow a quantitative assessment, the risk was assessed qualitatively, e.g. for the environment by evaluating the information in the literature to describe the potential to enter the environment and to reach the potential ecological targets. Results indicate that the main risk for the environment is expected from metals and metal oxides, especially for algae and Daphnia, due to exposure to both, particles and ions. The main risks for human health may arise from chronic occupational inhalation exposure, especially during the activities of high particle release and uncontrolled exposure. The information on consumer and environmental exposure of humans is too scarce to attempt a quantitative risk characterisation. It is recognised that the currently available database for both, hazard and exposure is limited and there are high uncertainties in any conclusion on a possible risk. The results should therefore not be used for any regulatory decision making. Likewise, it is recognised that the REACH guidance was developed without considering the specific behaviour and the mode of action of nanomaterials and further work in the generation of data but also in the development of methodologies is required., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

3. Nano-TiO₂--feasibility and challenges for human health risk assessment based on open literature.

Author

Christensen FM, Johnston HJ, Stone V, Aitken RJ, Hankin S, Peters S, and Aschberger K

Subjects

Animals, Humans, Inhalation Exposure adverse effects, No-Observed-Adverse-Effect Level, Occupational Exposure adverse effects, Risk Factors, Nanoparticles toxicity, Risk Assessment, Titanium toxicity

Abstract

This study aims at investigating feasibility and challenges associated with conducting a human health risk assessment for nano-titanium-dioxide (nano-TiO₂) based on the open literature by following an approach similar to a classical regulatory risk assessment. Gaps in the available data set, both in relation to exposures and hazard, do not allow reaching any definite conclusions that could be used for regulatory decision-making. Results show that repeated inhalation in the workplace and possibly consumer inhalation may cause risks. Also short-term inhalation following spray applications may cause risks. Main future work should focus on generating occupational and consumer inhalation exposure data, as well as toxicity data on absorption following inhalation, repeated dermal contact, and contact with damaged skin. Also relevant seems further information on possible neurotoxicity and genotoxicity/carcinogenicity, as well as establishing a No Observed Adverse Effect Level (NOAEL) for acute inhalation of nano-TiO₂.

Published

2011

4. European experience in chemicals management: integrating science into policy.

Author

Christensen FM, Eisenreich SJ, Rasmussen K, Sintes JR, Sokull-Kluettgen B, and Van de Plassche EJ

Subjects

Chemical Industry legislation & jurisprudence, Environmental Policy, Environmental Pollution legislation & jurisprudence, Environmental Pollution prevention & control, Europe, European Union, Hazardous Substances toxicity, Hazardous Waste legislation & jurisprudence, Hazardous Waste prevention & control, Hazardous Waste statistics & numerical data, Risk Management legislation & jurisprudence, Hazardous Substances standards, Risk Management methods

Abstract

The European Union (EU) adopted the first legislation on chemicals management in 1967 with the Dangerous Substances Directive (DSD). Over time the underlying concepts evolved: from hazard identification over risk assessment to safety assessment. In 1981 a premarketing notification scheme was introduced. Approximately 10 years later a risk assessment program started for existing substances following a data collection and prioritization exercise. Integration of science into EU chemicals legislation occurred via several technical committees managed by the European Chemicals Bureau (ECB) and resulted in the Technical Guidance Document on Risk Assessment (TGD), which harmonized the risk assessment methodology. The TGD was revised several times to adapt to scientific developments. The revision process, and the risk assessments for new and existing substances, led to scientific research on chemical risk assessment and thus increased in complexity. The new EU chemicals policy REACH (Registration, Evaluation, Authorization and Restriction of CHemicals) builds on previous experiences and aims to further enhance health and safety. REACH places the burden of proof for chemical safety on industry focusing on managing risks. REACH formalizes the precautionary principle. Furthermore, it underlines a continued scientific underpinning in its implementation, also via stakeholder involvement, and a focus on aligning with international fora.

Published

2011

5. Review of fullerene toxicity and exposure--appraisal of a human health risk assessment, based on open literature.

Author

Aschberger K, Johnston HJ, Stone V, Aitken RJ, Tran CL, Hankin SM, Peters SA, and Christensen FM

Subjects

Cosmetics toxicity, Humans, No-Observed-Adverse-Effect Level, Risk Assessment, Time Factors, Antioxidants toxicity, Consumer Product Safety, Environmental Exposure, Fullerenes toxicity, Health Policy, Occupational Exposure

Abstract

Fullerenes have gained considerable attention due to their anti-oxidant and radical scavenging properties. Their current applications include targeted drug delivery, energy application, polymer modifications and cosmetic products. The production of fullerenes and their use in consumer products is expected to increase in future. This study aims to investigate the feasibility and challenges associated with conducting a human health risk assessment for fullerenes based on the open literature, utilising an approach similar to that of a classical regulatory risk assessment. Available data relates to different types of fullerenes (with varying size, surface chemistry, solubility, aggregation/agglomeration) and care should therefore be taken when drawing general conclusions across the parameters. Pristine fullerenes have shown low toxicity and there is probably no risks expected for humans exposed to fullerenes in the workplace under good hygiene conditions. The main concern for consumers is exposure via direct dermal application of fullerenes present in cosmetics. Available studies do not indicate a short term risk from the tested fullerene types, however no extrapolation to all fullerene types and to chronic exposure can be made. In conclusion, the current dataset on fullerenes in relation to both, human exposure and hazard is limited and does not allow reaching any definite conclusions suitable for regulatory decision making. Main future work should focus on generating occupational and consumer exposure data, as well as suitable data on toxicokinetics and potential toxic effects following repeated inhalation and dermal exposure allowing to determine a NOAEL. It seems also relevant to clarify whether certain fullerene types may potentially induce genotoxic and/or carcinogenic effects via physiologically relevant routes., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2010

6. Review of carbon nanotubes toxicity and exposure--appraisal of human health risk assessment based on open literature.

Author

Aschberger K, Johnston HJ, Stone V, Aitken RJ, Hankin SM, Peters SA, Tran CL, and Christensen FM

Subjects

Asbestos toxicity, Environmental Health, Humans, Mesothelioma chemically induced, Risk Assessment, Inhalation Exposure, Nanotubes, Carbon toxicity, Occupational Exposure

Abstract

Carbon nanotubes (CNTs) possess many unique electronic and mechanical properties and are thus interesting for numerous novel industrial and biomedical applications. As the level of production and use of these materials increases, so too does the potential risk to human health. This study aims to investigate the feasibility and challenges associated with conducting a human health risk assessment for carbon nanotubes based on the open literature, utilising an approach similar to that of a classical regulatory risk assessment. Results indicate that the main risks for humans arise from chronic occupational inhalation, especially during activities involving high CNT release and uncontrolled exposure. It is not yet possible to draw definitive conclusions with regards the potential risk for long, straight multi-walled carbon nanotubes to pose a similar risk as asbestos by inducing mesothelioma. The genotoxic potential of CNTs is currently inconclusive and could be either primary or secondary. Possible systemic effects of CNTs would be either dependent on absorption and distribution of CNTs to sensitive organs or could be induced through the release of inflammatory mediators. In conclusion, gaps in the data set in relation to both exposure and hazard do not allow any definite conclusions suitable for regulatory decision-making. In order to enable a full human health risk assessment, future work should focus on the generation of reliable occupational, environmental and consumer exposure data. Data on toxicokinetics and studies investigating effects of chronic exposure under conditions relevant for human exposure should also be prioritised.

Published

2010

7. Nano-silver - feasibility and challenges for human health risk assessment based on open literature.

Author

Christensen FM, Johnston HJ, Stone V, Aitken RJ, Hankin S, Peters S, and Aschberger K

Subjects

Animals, Environmental Exposure, Humans, Inhalation Exposure, Nanoparticles chemistry, Occupational Exposure, Risk Assessment, Silver chemistry, Nanoparticles toxicity, Silver toxicity

Abstract

This study aims at investigating feasibility and challenges associated with conducting a human health risk assessment for nano-silver based on the open literature by following an approach similar to a classical regulatory risk assessment. Gaps in the available data set, both in relation to exposures and hazard, do not allow reaching any definite conclusions that could be used for regulatory decision making. Results show that repeated inhalation in the workplace and possibly consumer inhalation may cause risks. Also (uncontrolled) nano-silver drug intake and burn treatment of large parts of the body with wound dressings may cause risks. Main future work should focus on generating occupational and consumer exposure data, as well as toxicity data on absorption (are particles or only ions absorbed?), information on genetoxicity, and further information on the toxicity following inhalation exposure to sizes and agglomeration states as uncounted in the workplace.

Published

2010

8. A critical review of the biological mechanisms underlying the in vivo and in vitro toxicity of carbon nanotubes: The contribution of physico-chemical characteristics.

Author

Johnston HJ, Hutchison GR, Christensen FM, Peters S, Hankin S, Aschberger K, and Stone V

Subjects

Animals, Cardiovascular System drug effects, Cardiovascular System metabolism, Cells, Cultured, Environmental Exposure adverse effects, Humans, Immune System drug effects, Immune System immunology, Lung drug effects, Lung metabolism, Models, Biological, Organ Specificity, Oxidative Stress drug effects, Skin drug effects, Skin metabolism, Surface Properties, Tissue Distribution, Nanotubes, Carbon chemistry, Nanotubes, Carbon toxicity, Toxicity Tests

Abstract

This critical review of the available human health safety data, relating to carbon nanotubes (CNTs), was conducted in order to assess the risks associated with CNT exposure. Determining the toxicity related to CNT exploitation is of great relevance and importance due to the increased potential for human exposure to CNTs within occupational, environmental and consumer settings. When this information is combined with knowledge on the likely exposure levels of humans to CNTs, it will enable risk assessments to be conducted to assess the risks posed to human health. CNTs are a diverse group of materials and vary with regards to their wall number (single and multi-walled CNTs are evident), length, composition, and surface chemistry. The attributes of CNTs that were identified as being most likely to drive the observed toxicity have been considered, and include CNT length, metal content, tendency to aggregate/agglomerate and surface chemistry. Of particular importance, is the contribution of the fibre paradigm to CNT toxicity, whereby the length of CNTs appears to be critical to their toxic potential. Mechanistic processes that are critical to CNT toxicity will also be discussed, with the findings insinuating that CNTs can exert an oxidative response that stimulates inflammatory, genotoxic and cytotoxic consequences. Consequently, it may transpire that a common mechanism is responsible for driving CNT toxicity, despite the fact that CNTs are a diverse population of materials. The similarity of the structure of CNTs to that of asbestos has prompted concern surrounding the exposure of humans, and so the applicability of the fibre paradigm to CNTs will be evaluated. It is also necessary to determine the systemic availability of CNTs following exposure, to determine where potential targets of toxicity are, and to thereby direct in vitro investigations within the most appropriate target cells. CNTs are therefore a group of materials whose useful exploitable properties prompts their increased production and utilization within diverse applications, so that ensuring their safety is of vital importance.

Published

2010

9. A review of the in vivo and in vitro toxicity of silver and gold particulates: particle attributes and biological mechanisms responsible for the observed toxicity.

Author

Johnston HJ, Hutchison G, Christensen FM, Peters S, Hankin S, and Stone V

Subjects

Dust analysis, Humans, Particle Size, Particulate Matter toxicity, Risk Assessment, Tissue Distribution, Gold pharmacology, Metals pharmacology, Nanoparticles toxicity, Silver pharmacology, Silver Compounds pharmacology

Abstract

This review is concerned with evaluating the toxicity associated with human exposure to silver and gold nanoparticles (NPs), due to the relative abundance of toxicity data available for these particles, when compared to other metal particulates. This has allowed knowledge on the current understanding of the field to be gained, and has demonstrated where gaps in knowledge are. It is anticipated that evaluating the hazards associated with silver and gold particles will ultimately enable risk assessments to be completed, by combining this information with knowledge on the level of human exposure. The quantity of available hazard information for metals is greatest for silver particulates, due to its widespread inclusion within a number of diverse products (including clothes and wound dressings), which primarily arises from its antibacterial behaviour. Gold has been used on numerous occasions to assess the biodistribution and cellular uptake of NPs following exposure. Inflammatory, oxidative, genotoxic, and cytotoxic consequences are associated with silver particulate exposure, and are inherently linked. The primary site of gold and silver particulate accumulation has been consistently demonstrated to be the liver, and it is therefore relevant that a number of in vitro investigations have focused on this potential target organ. However, in general there is a lack of in vivo and in vitro toxicity information that allows correlations between the findings to be made. Instead a focus on the tissue distribution of particles following exposure is evident within the available literature, which can be useful in directing appropriate in vitro experimentation by revealing potential target sites of toxicity. The experimental design has the potential to impact on the toxicological observations, and in particular the use of excessively high particle concentrations has been observed. As witnessed for other particle types, gold and silver particle sizes are influential in dictating the observed toxicity, with smaller particles exhibiting a greater response than their larger counterparts, and this is likely to be driven by differences in particle surface area, when administered at an equal-mass dose. A major obstacle, at present, is deciphering whether the responses related to silver nanoparticulate exposure derive from their small size, or particle dissolution contributes to the observed toxicity. Alternatively, a combination of both may be responsible, as the release of ions would be expected to be greater for smaller particles.

Published

2010

10. The biological mechanisms and physicochemical characteristics responsible for driving fullerene toxicity.

Author

Johnston HJ, Hutchison GR, Christensen FM, Aschberger K, and Stone V

Subjects

Animals, Antioxidants chemistry, Antioxidants metabolism, Fullerenes chemistry, Fullerenes metabolism, Humans, Mice, Nanoparticles adverse effects, Nanoparticles chemistry, Nanotechnology, Rats, Risk Assessment, Solubility, Antioxidants toxicity, Fullerenes toxicity

Abstract

This review provides a comprehensive critical review of the available literature purporting to assess the toxicity of carbon fullerenes. This is required as prior to the widespread utilization and production of fullerenes, it is necessary to consider the implications of exposure for human health. Traditionally, fullerenes are formed from 60 carbon atoms, arranged in a spherical cage-like structure. However, manipulation of surface chemistry and molecular makeup has created a diverse population of fullerenes, which exhibit drastically different behaviors. The cellular processes that underlie observed fullerene toxicity will be discussed and include oxidative, genotoxic, and cytotoxic responses. The antioxidant/cytoprotective properties of fullerenes (and the attributes responsible for driving these phenomena) have been considered and encourage their utilization within the treatment of oxidant-mediated disease. A number of studies have focused on improving the water solubility of fullerenes in order to enable their exploitation within biological systems. Manipulating fullerene water solubility has included the use of surface modifications, solvents, extended stirring, and mechanical processes. However, the ability of these processes to also impact on fullerene toxicity requires assessment, especially when considering the use of solvents, which particularly appear to enhance fullerene toxicity. A number of the discussed investigations were not conducted to reveal if fullerene behavior was due to their nanoparticle dimensions but instead addressed the biocompatibility and toxicity of fullerenes. The hazards to human health, associated with fullerene exposure, are uncertain at this time, and further investigations are required to decipher such effects before an effective risk assessment can be conducted.

Published

2010

11. Identification of the mechanisms that drive the toxicity of TiO(2 )particulates: the contribution of physicochemical characteristics.

Author

Johnston HJ, Hutchison GR, Christensen FM, Peters S, Hankin S, and Stone V

Abstract

This review focuses on outlining the toxicity of titanium dioxide (TiO(2)) particulates in vitro and in vivo, in order to understand their ability to detrimentally impact on human health. Evaluating the hazards associated with TiO(2 )particles is vital as it enables risk assessments to be conducted, by combining this information with knowledge on the likely exposure levels of humans. This review has concentrated on the toxicity of TiO(2), due to the fact that the greatest number of studies by far have evaluated the toxicity of TiO(2), in comparison to other metal oxide particulates. This derives from historical reasons (whereby the size dependency of particulate toxicity was first realised for TiO(2)) and due to its widespread application within consumer products (such as sunscreens). The pulmonary and dermal hazards of TiO(2 )have been a particular focus of the available studies, due to the past use of TiO(2 )as a (negative) control when assessing the pulmonary toxicity of particulates, and due to its incorporation within consumer products such as sunscreens. Mechanistic processes that are critical to TiO(2 )particulate toxicity will also be discussed and it is apparent that, in the main, the oxidant driven inflammatory, genotoxic and cytotoxic consequences associated with TiO(2 )exposure, are inherently linked, and are evident both in vivo and in vitro. The attributes of TiO(2 )that have been identified as being most likely to drive the observed toxicity include particle size (and therefore surface area), crystallinity (and photocatalytic activity), surface chemistry, and particle aggregation/agglomeration tendency. The experimental set up also influences toxicological outcomes, so that the species (or model) used, route of exposure, experiment duration, particle concentration and light conditions are all able to influence the findings of investigations. In addition, the applicability of the observed findings for particular TiO(2 )forms, to TiO(2 )particulates in general, requires consideration. At this time it is inappropriate to consider the findings for one TiO(2 )form as being representative for TiO(2 )particulates as a whole, due to the vast number of available TiO(2 )particulate forms and large variety of potential tissue and cell targets that may be affected by exposure. Thus emphasising that the physicochemical characteristics are fundamental to their toxicity.

Published

2009

12. A constant flux of diverse thermophilic bacteria into the cold Arctic seabed.

Author

Hubert C, Loy A, Nickel M, Arnosti C, Baranyi C, Brüchert V, Ferdelman T, Finster K, Christensen FM, Rosa de Rezende J, Vandieken V, and Jørgensen BB

Subjects

Anaerobiosis, Arctic Regions, Bacterial Physiological Phenomena, Cold Temperature, Fatty Acids, Volatile metabolism, Fermentation, Hot Temperature, Oxidation-Reduction, Phylogeny, Sulfates metabolism, Bacteria classification, Bacteria isolation & purification, Biodiversity, Cold Climate, Ecosystem, Geologic Sediments microbiology, Spores, Bacterial physiology

Abstract

Microorganisms have been repeatedly discovered in environments that do not support their metabolic activity. Identifying and quantifying these misplaced organisms can reveal dispersal mechanisms that shape natural microbial diversity. Using endospore germination experiments, we estimated a stable supply of thermophilic bacteria into permanently cold Arctic marine sediment at a rate exceeding 10(8) spores per square meter per year. These metabolically and phylogenetically diverse Firmicutes show no detectable activity at cold in situ temperatures but rapidly mineralize organic matter by hydrolysis, fermentation, and sulfate reduction upon induction at 50 degrees C. The closest relatives to these bacteria come from warm subsurface petroleum reservoir and ocean crust ecosystems, suggesting that seabed fluid flow from these environments is delivering thermophiles to the cold ocean. These transport pathways may broadly influence microbial community composition in the marine environment.

Published

2009

13. Risk terminology--a platform for common understanding and better communication.

Author

Christensen FM, Andersen O, Duijm NJ, and Harremoës P

Subjects

Communication, Humans, Risk Assessment, Risk Management, Terminology as Topic

Abstract

The sciences analyzing and describing risks are relatively new and developing, and the associated terminologies are developing as well. This has led to ambiguity in the use of terms, both between different risk sciences and between the different parties involved in risk debates. Only recently, major vocabularies have been compiled by authoritative agencies. Some of these vocabularies are examined and explained based on a division into fundamental and action oriented risk terms. Fundamental terms are associated with description and characterization of the chemical, biological and physical processes leading from risk source(s) to possible consequences/effects. The approach to these terms is based on a cause-effect skeleton. The action oriented terms cover administrative, scientific, sociological, etc. processes associated with the work of identifying, characterizing, regulating and communicating risks in the society, and their internal connection and iterative character have been illustrated. Focus is laid on engineering and toxicological risks, but to some extent, the thoughts presented may be extrapolated to other areas. Differences in applied terminology probably cannot be eliminated, but they can be identified and clarified for better understanding. With the present paper, the authors hope to contribute to reducing the probability of derailing risk discussions from the risk issue itself.

Published

2003

14. Pharmaceuticals in the environment--a human risk?

Author

Christensen FM

Subjects

Biodegradation, Environmental, Cyclophosphamide analysis, Cyclophosphamide metabolism, Ethinyl Estradiol analysis, Ethinyl Estradiol metabolism, Humans, Penicillin V analysis, Penicillin V metabolism, Pharmaceutical Preparations metabolism, Risk Assessment, Environmental Exposure, Environmental Pollutants, Pharmaceutical Preparations analysis

Abstract

Pharmaceuticals in the environment and their potential toxic effects are emerging research areas, which is also reflected in the drug approval regulation. This far, focus has mainly been directed toward potential effects on nature and wildlife. In this paper, human risk as a consequence of exposure via the environment has been addressed and assessed. The synthetic estrogen 17alpha-ethinylestradiol (EE2), the antibiotic phenoxymethylpenicillin (Pen V), and the antineoplastic drug cyclophosphamide (CP) were chosen as modeling substances based on criteria of receptor specificity, elevated risk for human population groups for which the pharmaceuticals are not therapeutically intended, different modes of action, and prescription frequency. Attention has been focused on emissions from the use phase and subsequent diffuse release via the sewer systems. A reasonable worst-case environmental fate and human exposure were estimated using the software EUSES on worst-case emission quantities. The results indicate a negligible human risk connected to the environmental exposure for these substances. Danish conditions have been used as the modeling area, but the results are assumed to be valid for regions with similar drug consumption profiles., (Copyright 1998 Academic Press.)

Published

1998