How doctors generate diagnostic hypotheses: a study of radiological diagnosis with functional magnetic resonance imaging.

In medical practice, diagnostic hypotheses are often made by physicians in the first moments of contact with patients; sometimes even before they report their symptoms. We propose that generation of diagnostic hypotheses in this context is the result of cognitive processes subserved by brain mechanisms that are similar to those involved in naming objects or concepts in everyday life

Cephalopods in neuroscience: regulations, research and the 3Rs

Cephalopods have been utilised in neurosci- ence research for more than 100 years particularly because of their phenotypic plasticity, complex and centralised nervous system, tractability for studies of learning and cellular mechanisms of memory (e.g. long-term potentia- tion) and anatomical features facilitating physiological studies (e.g. squid giant axon and synapse). On 1 January 2013, research using any of the about 700 extant species of ‘‘live cephalopods’’ became regulated within the European Union by Directive 2010/63/EU on the ‘‘Protection of Animals used for Scientific Purposes’’, giving cephalopods the same EU legal protection as previously afforded only to vertebrates. The Directive has a number of implications, particularly for neuroscience research. These include: (1) projects will need justification, authorisation from local competent authorities, and be subject to review including a harm-benefit assessment and adherence to the 3Rs princi- ples (Replacement, Refinement and Reduction). (2) To support project evaluation and compliance with the new EU law, guidelines specific to cephalopods will need to be developed, covering capture, transport, handling, housing, care, maintenance, health monitoring, humane anaesthesia, analgesia and euthanasia. (3) Objective criteria need to be developed to identify signs of pain, suffering, distress and lasting harm particularly in the context of their induction by an experimental procedure. Despite diversity of views existing on some of these topics, this paper reviews the above topics and describes the approaches being taken by the cephalopod research community (represented by the authorship) to produce ‘‘guidelines’’ and the potential contribution of neuroscience research to cephalopod welfare

Welfare and Diseases Under Culture Conditions

16 pagesThis chapter reviews the welfare and diseases that have been reported since cephalopods are maintained, reared or cultured in captivity. Although cephalopod welfare is only going to be assured in terms of the European Union (EU) legislation from January 2013, it has long been enforced in other regions or countries all over the world. Pathologies registered under captive conditions derive, most of the times, from bad welfare practices. A revision of cephalopods’ immune system and the most important pathologies are presented, which are divided into viral, bacterial, fungal and parasitic pathogenic agents as well as chemical and mechanical damages. In addition, information regarding healing, antibiotics application and surgery is provided. Welfare under research and commercial culture conditions is discussed in terms of the use of anaesthesia and euthanasia agents and their assessment in terms of effectiveness. Further research on the different aspects considered is suggestedN