Human enhancement drugs and Armed Forces: an overview of some key ethical considerations of creating 'Super-Soldiers'.

There is a long history and growing evidence base that the use of drugs, such as anabolic-androgenic steroids, to enhance human performance is common amongst armed forces, including in Australia. We should not be surprised that this might have occurred for it has long been predicted by observers. It is a commonplace of many recent discussion of the future of warfare and future military technology to proclaim the imminent arrival of Super Soldiers, whose capacities are modified via drugs, digital technology and genetic engineering, in ways that increase their performance exponentially.

Distributive justice, equality and the enhancement of human cognition: A commentary on fairness and 'cognitive doping'.

What implications might the use of techniques to enhance human cognition have for the kind of polities or civil societies we inhabit? What might political philosophy, if anything, have to tell us about the desirability of using drugs to increase our intellectual powers? Much of the focus in contemporary debates about human enhancement has been upon the ethical desirability of endeavouring to enhance our capacities: should we be meddling with 'human nature', as it were? Therapeutic uses of drugs are regarded as acceptable but enhancement is frowned upon in much of this literature. This rejection of enhancement is especially prevalent in the area of sport where there is a great deal of opposition to doping. Herein I take a somewhat different approach and explore enhancement as a problem in political philosophy and, more specifically, as a problem of distributive justice.

Chemisorption of iodine-125 to gold nanoparticles allows for real-time quantitation and potential use in nanomedicine.

Gold nanoparticles have been available for many years as a research tool in the life sciences due to their electron density and optical properties. New applications are continually being developed, particularly in nanomedicine. One drawback is the need for an easy, real-time quantitation method for gold nanoparticles so that the effects observed in in vitro cell toxicity assays and cell uptake studies can be interpreted quantitatively in terms of nanoparticle loading.

Design principles for maximizing photovoltage in metal-oxide-protected water-splitting photoanodes.

Metal oxide protection layers for photoanodes may enable the development of large-scale solar fuel and solar chemical synthesis, but the poor photovoltages often reported so far will severely limit their performance. Here we report a novel observation of photovoltage loss associated with a charge extraction barrier imposed by the protection layer, and, by eliminating it, achieve photovoltages as high as 630 mV, the maximum reported so far for water-splitting silicon photoanodes. The loss mechanism is systematically probed in metal-insulator-semiconductor Schottky junction cells compared to buried junction p(+)n cells, revealing the need to maintain a characteristic hole density at the semiconductor/insulator interface.

Compensation for Blood Plasma Donation as a Distinctive Ethical Hazard: Reformulating the Commodification Objection.

In this essay, I argue that the Commodification Objection (suitably redescribed), locates a phenomenon of real moral significance. In defending the Commodification Objection, I review three common criticisms of it, which claim firstly, that commodification doesn't always lead to instrumentalization; secondly, that commodification isn't the only route to such an outcome; and finally, that the Commodification Objection applies only to persons, and human organs (and, therefore, blood products) are not persons. In response, I conclude that (i) moral significance does not require that an undesirable outcome be a necessary consequence of the phenomenon under examination; (ii) the relative likelihood of an undesirable mode of regard arising provides a morally-relevant distinguishing marker for assessing the comparative moral status of social institutions and arrangements; and (iii) sales in blood products (and human organs more generally) are sufficiently distinct from sales of everyday artefacts and sufficiently close to personhood to provide genuine grounds for concern.

Kinetics of gold nanoparticles in the human placenta.

We studied the transfer of PEGylated gold nanoparticles through perfused human placenta. In 'once-through' perfusions using 15 and 30nm nanoparticles both maternal and fetal outflows were collected. Recirculating perfusions using 10 or 15nm nanoparticles lasted 6h.

Adaptive conditioning of skeletal muscle in a large animal model (Sus domesticus).

Recognition of the adaptive capacity of mammalian skeletal muscle has opened the way to a number of clinical applications. For most of these, the fast, fatigue-susceptible fibres need to be transformed stably to fast, fatigue-resistant fibres that express the 2A myosin heavy chain isoform. The thresholds for activity-induced change are size-dependent, so although the requisite patterns of electrical stimulation are known for the rabbit, in humans these same patterns would produce type 1 fibre characteristics, with an undesirable loss of contractile speed and power.