互动学习和行动:实现合成生物学对全球健康的承诺。

Systems and Synthetic Biology Pub Date : 2013-09-01 Epub Date: 2013-07-27 DOI:10.1007/s11693-013-9113-7
A Wieke Betten, Anneloes Roelofsen, Jacqueline E W Broerse
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引用次数: 15

摘要

合成生物学这一新兴领域具有改善全球健康的潜力。例如,在国际社会认为疫苗和免疫对国际发展努力,特别是千年发展目标至关重要的情况下,合成生物学可以为疫苗开发工作做出贡献。然而,过去的创新经验表明,实现一项技术的潜力可能既困难又复杂。为了实现合成生物学更好的社会嵌入并确保其发挥潜力,科学和技术发展应该更加包容和互动。负责任的研究和创新的前提是,具有不同观点、需求和想法的广泛利益相关者应该在技术开发和部署过程中有发言权。互动学习与行动方法已被开发为一种方法,将社会利益攸关方纳入科学和技术发展进程。本文提出了一个ILA,分五个阶段进行国际努力,结合国家案例研究,以疫苗开发为例,开发合成生物学在全球健康中的社会稳健应用。该设计基于ILA最近启动的合成生物学项目的结果;文献中所述其他互动举措的成果;以及目前正在开发的合成生物学在全球健康方面可能应用的例子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interactive learning and action: realizing the promise of synthetic biology for global health.

The emerging field of synthetic biology has the potential to improve global health. For example, synthetic biology could contribute to efforts at vaccine development in a context in which vaccines and immunization have been identified by the international community as being crucial to international development efforts and, in particular, the millennium development goals. However, past experience with innovations shows that realizing a technology's potential can be difficult and complex. To achieve better societal embedding of synthetic biology and to make sure it reaches its potential, science and technology development should be made more inclusive and interactive. Responsible research and innovation is based on the premise that a broad range of stakeholders with different views, needs and ideas should have a voice in the technological development and deployment process. The interactive learning and action (ILA) approach has been developed as a methodology to bring societal stakeholders into a science and technology development process. This paper proposes an ILA in five phases for an international effort, with national case studies, to develop socially robust applications of synthetic biology for global health, based on the example of vaccine development. The design is based on results of a recently initiated ILA project on synthetic biology; results from other interactive initiatives described in the literature; and examples of possible applications of synthetic biology for global health that are currently being developed.

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