82 research outputs found
Recommended from our members
Biocontrol Agents and Plant Inoculants: Implications for Strengthening the BTWC
Ye
Recommended from our members
Biomedical Community and the Biological and Toxin Weapons Convention
YesNegotiations to find a legally binding way to strengthen
the Biological and Toxin Weapons Convention (BTWC)
of 1972 [1]are in danger of failing. The crisis was precipitated
during the current round of talks, now in its final
week in Geneva, when the US, alone amongst the negotiating
States, rejected the text of a protocol that has taken
six and a half years to negotiate
Recommended from our members
Preventing Biological Threats: What You Can Do.
yesThe outbreak of Ebola in West Africa in 2014 has underlined the risks posed by
outbreaks of highly virulent and deadly diseases, whether caused naturally,
accidentally or deliberately. It also emphasised the responsibility of all those engaged
in the life sciences, whether in government, industry or academia, to ensure that
research is done safely and securely.
This book, Preventing Biological Threats, is intended to raise awareness and
knowledge of biological security of everyone active in the life sciences, ranging from
those engaged in research to those engaged in management and policy-making, both
nationally and internationally. The advances in biotechnology over the past decades
and in the future have brought and will bring significant benefits to humankind,
animals and plants -- however, these advances also bring risks that we need to be
aware of and ensure that they cause no harm.
The continuing debate about the potential danger of carrying out ‘Gain-of-Function’
experiments with highly pathogenic viruses such as avian influenza has brought the
problem of biological security to the attention of many within but also beyond the life
science community. It also has left some of them wondering what biological security
is and how it can be incorporated into the life sciences. What steps should be taken to
ensure that these and other dual use research activities are not misused?
It is being increasingly recognised that biosecurity and biosafety are not only relevant
to activities within a laboratory, but also extend to the effects that these activities can
have outside the laboratory if they result in accidental outbreaks of diseases in
humans, animals or plants.
The international basis for the prevention of the hostile misuse of life sciences is the
Biological and Toxin Weapons Convention which this year, on 26 March 2015, has
been in force for forty years. The Convention was the first treaty to prohibit the
development and possession of an entire category of weapons. At this moment 173
States Parties have ratified the Convention (and the Convention has a further 9
Signatories). At the Seventh Review Conference of the Biological and Toxin
Weapons Convention in 2011, of which I was President, the States Parties agreed on
the need for all those engaged in the life sciences to be involved as key stakeholders
in the protection of their work from hostile misuse, and therefore on the importance of
broad biosecurity education.
This book with its 21 chapters addresses the need for biosecurity education, in six
sections on the history of threats and responses; scientists, organisations and
biosecurity; biosecurity and law enforcement; states and biosecurity; and biosecurity
and active learning. It is a significant and welcome step forward both in its integrated
content and the active learning focus in the associated Team Based Learning
exercises. I am convinced that this approach will help all those engaged in the life
sciences - in government, industry or academia – to become more aware of
biosecurity and of their responsibilities for it.
It is therefore a great pleasure to commend the authors and editors for their work and
the Governments of Canada, Jordan and the United Kingdom for their funding and
involvement in the production of this book under the Global Partnership.
Ambassador Paul van den IJsse
Recommended from our members
Strengthening the Biological and Toxin Weapons Convention: The vital importance of a web of prevention for effective biosafety and biosecurity in the 21st Century
N
Recommended from our members
After COVID-19: time to agree a biosecurity code of conduct under the Biological and Toxin Weapons Convention
YesThe devastating COVID-19 disease outbreak of 2020 is likely to cause a profound rethink of how national and international communities deal with such outbreaks whether they are caused naturally, accidentally or deliberately. This paper suggests that now is the time to build on two decades of work within the BTWC and for States Parties to agree on a Biosecurity Code of Conduct under the Convention as proposed by China. Over the past two decades, as part of their attempts to strengthen the BTWC and thereby to help prevent the development of biological and toxin weapons, States Parties have given considerable attention to the potential utility of Codes of Conduct for life and associated scientists. This paper reviews these debates about this novel dual-use ethical challenge within the Convention and concludes that a Code of Conduct should be agreed at the 2021 Review Conference, but that radical reorientation of the mandatory education of such scientists will also be needed to make the agreed code effective
Recommended from our members
Strengthening biological security after COVID-19: Using cartoons for engaging life science stakeholders with the Biological and Toxin Weapons Convention (BTWC)
YesThe devastating effects of the COVID-19 pandemic have acutely shown the need for maintaining robust international and national systems for biological security and ensuring that life sciences are used only for peaceful purposes. Life science stakeholders can play an important role in safeguarding scientific and technological advances in biology and related fields against accidental or deliberate misuse, not least because they are on the frontlines of driving innovation. In this paper, we argue that enhancing awareness and understanding of the risk of deliberate disease is essential for effective biological security. We first discuss the issue of ‘dual use’ in science and technology as it relates to disarmament and non-proliferation of weapons of mass destruction. Second, we review how scientist engagement with dual-use risks has been addressed in the context of the Biological and Toxin Weapons Convention (BTWC). Third, we report on the development of an innovative awareness-raising tool, a cartoon series, that can be used for engaging life science stakeholders with BTWC issues. Finally, we outline a set of practical considerations for promoting sustainable life science engagement with the BTWC.The graphic design of the Cartoon Series and the publication of this manuscript have been funded by a grant provided by the UK Research and Innovation Strategic Priorities Fund and HEIF Rescaling Fund through London Metropolitan University, UK
Polyurea-Functionalized Multiwalled Carbon Nanotubes
An in situ polycondensation approach was applied to functionalize multiwalled carbon nanotubes (MWNTs), resulting in various linear or hyperbranched polycondensed polymers [e.g., polyureas, polyurethanes, and poly(urea-urethane)-bonded carbon nanotubes]. The quantity of the grafted polymer can be easily controlled by the feed ratio of monomers. As a typical example, the polyurea-functionalized MWNTs were measured and characterized in detail. The oxidized MWNTs (MWNT-COOH) were converted into acyl chloride-functionalized MWNTs (MWNT-COCl) by reaction with neat thionyl chloride (SOCl2). MWNT-COCl was reacted with excess 1,6-diaminohexane, affording amino-functionalized MWNTs (MWNT-NH2). In the presence of MWNT-NH2, the polyurea was covalently coated onto the surfaces of the nanotube by in situ polycondensation of diisocyanate [e.g., 4,4‘-methylenebis(phenylisocyanate)] and 1,6-diaminohexane, followed by the removal of free polymer via repeated filtering and solvent washing. The coated polyurea content can be controlled to some extent by adjusting the feed ratio of the isocyanato and amino groups. The structure and morphology of the resulting nanocomposites were characterized by FTIR, NMR, Raman, confocal Raman, TEM, EDS, and SEM measurements. The polyurea-coated MWNTs showed interesting self-assembled flat- or flowerlike morphologies in the solid state. The signals corresponding to that of the D and G bands of the carbon nanotubes were strongly attenuated after polyurea was chemically tethered to the MWNT surfaces. Comparative experiments showed that the grafted polymer species and structures have a strong effect on the Raman signals of polymer-functionalized MWNTs
Recommended from our members
Meeting the challenges of chemical and biological weapons: strengthening the chemical and biological disarmament and non-proliferation regimes
YesIn this report, we identify some of the key technical and political challenges currently
facing the broader Chemical and Biological Weapon (CBW) regime- with a particular
emphasis on major forthcoming diplomatic meetings. Most significantly the Ninth Review
Conference of the Biological and Toxins Weapons Convention (1972) (BTWC) which will
take place in 2022 and preparations for the Fifth Review Conference of the Chemical
Weapons Convention (1993) (CWC), expected in 2023. This report is an output of an
ongoing project, designed to stimulate thinking and discussion about these issues, within
relevant stakeholder communities. The report provides an introduction to this issue area
for the general reader before surveying key issues and developing a series of practical
policy suggestions for further consideration
Multilaboratory assessment of Epstein-Barr virus serologic assays: the case for standardization
IgA antibodies targeting Epstein-Barr virus (EBV) have been proposed for screening for nasopharyngeal carcinoma (NPC). However, methods differ, and the antigens used in these assays differ considerably between laboratories. To enable formal comparisons across a range of established EBV serology assays, we created a panel of 66 pooled serum samples and 66 pooled plasma samples generated from individuals with a broad range of IgA antibody levels. Aliquots from these panels were distributed to six laboratories and were tested by 26 assays measuring antibodies against VCA, EBNA1, EA-EBNA1, Zta, or EAd antigens. We estimated the correlation between assay pairs using Spearman coefficients (continuous measures) and percentages of agreement (positive versus negative, using predefined positivity cutoffs by each assay developer/manufacturer). While strong correlations were observed between some assays, considerable differences were also noted, even for assays that targeted the same protein. For VCA-IgA assays in serum, two distinct clusters were identified, with a median Spearman coefficient of 0.41 (range, 0.20 to 0.66) across these two clusters. EBNA1-IgA assays in serum grouped into a single cluster with a median Spearman coefficient of 0.79 (range, 0.71 to 0.89). Percentages of agreement differed broadly for both VCA-IgA (12% to 98%) and EBNA1-IgA (29% to 95%) assays in serum. Moderate-to-strong correlations were observed across assays in serum that targeted other proteins (correlations ranged from 0.44 to 0.76). Similar results were noted for plasma. We conclude that standardization of EBV serology assays is needed to allow for comparability of results obtained in different translational research studies across laboratories and populations
A systematic review and meta-analysis to determine the contribution of mr imaging to the diagnosis of foetal brain abnormalities In Utero.
OBJECTIVES: This systematic review was undertaken to define the diagnostic performance of in utero MR (iuMR) imaging when attempting to confirm, exclude or provide additional information compared with the information provided by prenatal ultrasound scans (USS) when there is a suspicion of foetal brain abnormality. METHODS: Electronic databases were searched as well as relevant journals and conference proceedings. Reference lists of applicable studies were also explored. Data extraction was conducted by two reviewers independently to identify relevant studies for inclusion in the review. Inclusion criteria were original research that reported the findings of prenatal USS and iuMR imaging and findings in terms of accuracy as judged by an outcome reference diagnosis for foetal brain abnormalities. RESULTS: 34 studies met the inclusion criteria which allowed diagnostic accuracy to be calculated in 959 cases, all of which had an outcome reference diagnosis determined by postnatal imaging, surgery or autopsy. iuMR imaging gave the correct diagnosis in 91 % which was an increase of 16 % above that achieved by USS alone. CONCLUSION: iuMR imaging makes a significant contribution to the diagnosis of foetal brain abnormalities, increasing the diagnostic accuracy achievable by USS alone. KEY POINTS: • Ultrasound is the primary modality for monitoring foetal brain development during pregnancy • iuMRI used together with ultrasound is more accurate for detecting foetal brain abnormalities • iuMR imaging is most helpful for detecting midline brain abnormalities • The moderate heterogeneity of reviewed studies may compromise findings
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