How can ethics relate to science? The case of stem cell research

We live in an era of an important turning point in the relationship between ethics (or, more accurately, bioethics) and science, notably due to both public interest and the gradual tightening of the gap in time between scientific discoveries and ethical reflection. The current bioethics debates of emerging situations (pluripotent stem cells, gene therapy, nanotechnology) have undoubtedly contributed to this change. Today, science happens and bioethics reflects on the possibilities, considers the risks, and advances proposals, which, without being scientific, can also imprint a mark on the path of scientific development. In this article, through the narrative of stem cell research, we will try to illustrate how bringing a bioethical viewpoint to the scientific debate can become a healthy exercise in both ethics and science, especially as narratives shift, as was the case in this field due to the introduction of induced pluripotent stem cells, the advent of which is not easily dissociated from the controversies related to embryo research. We should perhaps welcome this trend as promising for the future relationship between ethics and scientific research, providing a stimulus (and not a block) to the ever-evolving scientific discourse.info:eu-repo/semantics/publishedVersio

Targeting adenosine receptors in the development of cardiovascular therapeutics.

Item does not contain fulltextAdenosine receptor stimulation has negative inotropic and dromotropic actions, reduces cardiac ischemia-reperfusion injury and remodeling, and prevents cardiac arrhythmias. In the vasculature, adenosine modulates vascular tone, reduces infiltration of inflammatory cells and generation of foam cells, and may prevent the development of atherosclerosis as a result. Modulation of insulin sensitivity may further add to the anti-atherosclerotic properties of adenosine signaling. In the kidney, adenosine plays an important role in tubuloglomerular feedback and modulates tubular sodium reabsorption. The challenge is to take advantage of the beneficial actions of adenosine signaling while preventing its potential adverse effects, such as salt retention and sympathoexcitation. Drugs that interfere with adenosine formation and elimination or drugs that allosterically enhance specific adenosine receptors seem to be most promising to meet this challenge.1 maart 201