This chapter discusses the important role that scientists play in elevating the visibility of the research enterprise. The author provides compelling survey data regarding the invisibility of science and scientists among the public and how that impacts decision-making by policymakers who tend to either ignore or on occasion undercut science. She argues that if scientists overcome their reluctance to engage with non-scientists and actively advocate the value of research, it will be a much higher public and national priority.
Various types of organ transplantation are now considered as standard procedures: heart, liver, kidney transplants. A recent development is the success of uterus and penis transplantation. This chapter identifies and discusses some of the main ethical issues associated with uterus and penis transplantation; it will discuss the rationale for these procedures, issues pertaining to the identification of patients who can benefit from these procedures; issues pertaining to the alternatives to transplant surgery (adoption and gestational surrogacy and phalloplasty in alternative to penis transplantation). People affected by gender dysphoria represent a special group, which is also discussed. These new developments offered by medical science change not only clinical practice, but family structure and parentage, and challenge the notions of man and woman. These developments reverse misfortune (so that, say, a man who has lost his penis can still fertilise his partner and have genetically related children); but they also challenge the moral relationships between healthcare professionals and patients, and between individuals and society.
Norms and assumptions concerning the structure of the family constrain the direction of scientific progress in the area of human reproduction. It is one’s family status that determines whether one’s reproductive aspirations are classified as medical needs and thus eligible for treatment. In turn, needs deemed eligible for medical treatment form the basis of future research priorities. Conversely, innovations in human reproduction, facilitated by scientific progress, challenge these norms and assumptions and require adjustments in ethics and law.
Advances in robotics and artificial intelligence are posited by some as one of – if not the – greatest potential threats to humanity. This chapter examines this view and casts it in a new light. Artificial intelligence can be divided into that which exists – unconscious artificial intelligence – and the posited superintelligent AI, with intelligence equal to or greater than our own. Regulation and policy around the development of these two types presents different challenges – the former raises questions around liability, ownership, the workforce, and more; but the latter presents issues we have never before faced. A sapient intelligence may in effect be a novel being, a potential person – and there is reason to think we should treat it as such. The possibility of non-Homo sapiens persons engenders questions about the very nature of humanity and our place at the top of the moral status ‘ladder’. Ultimately, it may be that there is no good reason to treat an artificial intelligence of this type as being substantively different to ourselves.
The standard view on science and human freedom claims that science contributes to human autonomy or self-determination through the discovery of natural laws and processes. In other words, by providing knowledge and devices to solve practical problems and stimulate economic growth. A more likely hypothesis is that the invention of the scientific method in the modern age has introduced a new way of thinking into human communities. In this way, some new psychological skills have been made available to an increasing number of people. These skills allowed human beings to achieve important cognitive and moral improvements, which made liberal and democratic governments possible. The chapter defends this hypothesis. Specifically, it suggests that science education has the potential to make people more cooperative, less self-centred and impulsive, and more self-controlled (in the sense of autonomous). The chapter discusses strategies to enhance individual capacities and to make social communities flourish.
Recognising that there will continue to be constraints placed on scientific freedom by international policymakers on security grounds, this chapter presents arguments for reciprocal responsibilities of the scientific community and international policymakers in appropriately governing the security aspects of scientific research involving dangerous pathogens. It also explores how the international community is responding to the need to balance certain freedoms and responsibilities in relevant policy processes. In the context of tensions between health-related and security-related approaches to the international governance of pathogens, the chapter explores how the scientific and policymaking communities can best support each other in developing and implementing international biosecurity measures. These tensions arise because scientific work on pathogens is necessary for the protection of health, but such work also poses risks to health, through accidental or deliberate releases. Effective management of these tensions requires ongoing dialogue and improved science advisory mechanisms within relevant policy processes.
Immortality may not yet be on the cards for us, at least not on this earth, but we live longer than the previous generation, and the next generations will live longer than us. This offers us hope for a long life, and is perhaps the fulfilment of one of our most ancient and rooted dreams. But the sweetest of dreams can easily turn into the worst nightmare. With increased longevity, the amount of ill health and disability will also increase, the workforce will decrease, chronic conditions, multiple morbidities and cognitive impairments will become more common, raising long-term expenditure to unknown levels. At the same time families will face increasing pressure to balance care with other responsibilities, particularly work. As the population ages, so will the workforce. How can nations’ economic well-being be preserved? This chapter shows that many worries are based on misconceptions and misunderstandings relating to diseases and old age. Moreover, many important steps can be taken to prevent certain negative outcomes from materialising.
Thousands of people died in Rotterdam during the Second World War in more than
300 German and Allied bombardments. Civil defence measures had been taken before
the German invasion of the Netherlands in May 1940 and these efforts were
intensified during the country’s occupation as Allied bombers attacked
Rotterdam’s port, factories, dry docks and oil terminals. Residential
neighbourhoods were also hit through imprecise targeting and by misfired flak
grenades. Inadequate air raid shelters and people’s reluctance to enter
them caused many casualties. The condition of the corpses and their post-mortem
treatment was thus co-constituted by the relationship between the victims and
their material circumstances. This article concludes that an understanding of
the treatment of the dead after war, genocide and mass violence must pay
systematic attention to the materiality of death because the condition,
collection and handling of human remains is affected by the material means that
impacted on the victims.