4,412 research outputs found
The baby effect and young male syndrome : social influences on cooperative risk-taking in women and men
Parental investment theory predicts differences in risk-taking for females and males as a consequence of reproductive context, with females attempting to reduce risks in relation to their own offspring (here called the baby effect) and males taking more risks in competition with one another (young male syndrome). The experiment we report tests these predictions in a cooperative context by introducing the Social Balloon Analogue Risk Taskāthe Balloon Analogue Risk Task modified to include a social partner (adult male, adult female, or baby)āalong with a commitment device in which participants choose among several possible social partners, with whom they will share their earnings. Results were consistent with the predictions of parental investment theory. Females did not change their levels of risk-taking when paired with adult males or females, but showed a strong reduction in risk when paired with babies. Consistent with previous research, males were strongly inclined to take more risks when paired with another male of the same age, but males showed no change in risk-taking when paired with a female of the same age or a child. The current work provides the first experimental evidence of gender differences in cooperative social risk-taking, as well as the first experimental evidence of a mediator of female risk-taking, i.e., babies
Adaptive Survival Trials
Mid-study design modifications are becoming increasingly accepted in
confirmatory clinical trials, so long as appropriate methods are applied such
that error rates are controlled. It is therefore unfortunate that the important
case of time-to-event endpoints is not easily handled by the standard theory.
We analyze current methods that allow design modifications to be based on the
full interim data, i.e., not only the observed event times but also secondary
endpoint and safety data from patients who are yet to have an event. We show
that the final test statistic may ignore a substantial subset of the observed
event times. Since it is the data corresponding to the earliest recruited
patients that is ignored, this neglect becomes egregious when there is specific
interest in learning about long-term survival. An alternative test
incorporating all event times is proposed, where a conservative assumption is
made in order to guarantee type I error control. We examine the properties of
our proposed approach using the example of a clinical trial comparing two
cancer therapies.Comment: 22 pages, 7 figure
Boundary layer flow induced by waves with acceleration skewness
Young Coastal Scientists and Engineers Conference 2007, PlymouthPeer reviewedPostprin
The Role of HOSCN in the Oxidation of Proteins and Cellular Damage in Atherosclerosis
Myeloperoxidase forms the reactive oxidants hypochlorous acid (HOCl) and hypothiocyanous acid (HOSCN). While HOCl is an extremely reactive oxidant that causes extensive damage to all manner of biomolecules, HOSCN reacts preferentially with protein thiols. This targeting of thiols can lead to protein inactivation and inhibition, and has led to HOSCN being implicated in the alteration of numerous cellular redox pathways. This Thesis compares the ability of HOCl and HOSCN to form reversibly oxidised cysteine products in murine J774A.1 macrophages, examining changes to the protein thiol levels and the manner of oxidised cysteine products formed in the cells upon oxidation, with changes to the cellular chemistry observed via WB analysis, FTIR and Raman microscopy. Further studies employ real-time analysis into the functional changes in metabolism of J774A.1 cells after HOSCN treatment. Results show that HOSCN is able to affect macrophage glucose metabolism via the oxidation of glycolytic proteins. The oxidation of glycolytic proteins causes a reduction in the glycolytic end product, pyruvate, and extend to mitochondrial oxidative phosphorylation, mitochondrial permeability transition pore function and ATP production. In summary, the studies of this Thesis may be significant in understanding the inflammatory process of atherosclerosis, especially in cigarette smokers, who have elevated levels of thiocyanate, the parent ion of HOSCN in their plasma
Routines and Applications of Symbolic Algebra Software
Computing has become an essential resource in modern research and has found application
across a wide range of scientific disciplines. Developments in symbolic algebra tools have been
particularly valuable in physics where calculations in fields such as general relativity, quantum
field theory and physics beyond the standard model are becoming increasing complex and
unpractical to work with by hand. The computer algebra system Cadabra is a tensor-first
approach to symbolic algebra based on the programming language Python which has been used
extensively in research in these fields while also having a shallow learning curve making it an
excellent way to introduce students to methods in computer algebra.
The work in this thesis has been concentrated on developing Cadabra, which has involved
looking at two different elements which make up a computer algebra program. Firstly, the
implementation of algebraic routines is discussed. This has primarily been focused on the
introduction of an algorithm for detecting the equivalence of tensorial expressions related by
index permutation symmetries. The method employed differs considerably from traditional
canonicalisation routines which are commonly used for this purpose by using Young projection
operators to make such symmetries manifest.
The other element of writing a computer algebra program which is covered is the infrastruc-
ture and environment. The importance of this aspect of software design is often overlooked by
funding committees and academic software users resulting in an anti-pattern of code not being
shared and contributed to in the way in which research itself is published and promulgated.
The focus in this area has been on implementing a packaging system for Cadabra which allows
the writing of generic libraries which can be shared by the community, and interfacing with
other scientific computing packages to increase the capabilities of Cadabra
Indentation of ultrathin elastic films and the emergence of asymptotic isometry
We study the indentation of a thin elastic film floating at the surface of a
liquid. We focus on the onset of radial wrinkles at a threshold indentation
depth and the evolution of the wrinkle pattern as indentation progresses far
beyond this threshold. Comparison between experiments on thin polymer films and
theoretical calculations shows that the system very quickly reaches the Far
from Threshold (FT) regime, in which wrinkles lead to the relaxation of
azimuthal compression. Furthermore, when the indentation depth is sufficiently
large that the wrinkles cover most of the film, we recognize a novel mechanical
response in which the work of indentation is transmitted almost solely to the
liquid, rather than to the floating film. We attribute this unique response to
a nontrivial isometry attained by the deformed film, and discuss the scaling
laws and the relevance of similar isometries to other systems in which a
confined sheet is subjected to weak tensile loads.Comment: 5 pages, close to published versio
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