979 resultados para human leucocyte antigens
Resumo:
This article considers the efforts of the Australian Law Reform Commission to clarify the meaning of section 18(2) of the Australian Patents Act 1990 (Cth): ’Human beings and the biological processes for their generation are not patentable inventions.' It provides a critique of the proposals of the Commission with respect to patent law and stem cell research. The Commission has recommended that IP Australia should develop examination guidelines to explain how the criteria for patentability apply to inventions involving stem cell technologies. It has advised the Australian Government that the practice code of the United Kingdom Patent Office (UKPO) would be a good model for such guidelines, with its distinction between totipotent and pluripotent stem cells. Arguably, though, there is a need to codify this proposal in a legislative directive, and not merely in examination guidelines. The Commission has been reluctant to take account of the ethical considerations with respect to patent law and stem cell research. There could be greater scope for such considerations, by the use of expert advisory boards, opposition proceedings and the requirement of informed consent. The Commission has put forward a number of general and specific recommendations to enhance access to patented stem cell technologies. It recommends the development of a research exemption, and the modernisation of compulsory licensing and crown use provisions. It also explores the establishment of a stem cell bank and the promulgation of guidelines by funding agencies. Such proposals to promote greater public access to stem cell research are to be welcomed.
Resumo:
This thesis has made a significant contribution to future chlamydial research by uncovering the chlamydial pathogenic mechanisms which will potentially help in the development of targeted vaccine against the pathogen. This thesis has made important new contributions to our understanding of Chlamydia pneumoniae specific adaptations to stress responses and has provided new perspectives on the survival of this successful pathogen. This thesis has used two well established microbial stressors and has identified major differences in stress responses between human and animal Chlamydia pneumoniae isolates.
Resumo:
The aim of this study was to develop a new method for quantifying intersegmental motion of the spine in an instrumented motion segment L4–L5 model using ultrasound image post-processing combined with an electromagnetic device. A prospective test–retest design was employed, combined with an evaluation of stability and within- and between-day intra-tester reliability during forward bending by 15 healthy male patients. The accuracy of the measurement system using the model was calculated to be ± 0.9° (standard deviation = 0.43) over a 40° range and ± 0.4 cm (standard deviation = 0.28) over 1.5 cm. The mean composite range of forward bending was 15.5 ± 2.04° during a single trial (standard error of the mean = 0.54, coefficient of variation = 4.18). Reliability (intra-class correlation coefficient = 2.1) was found to be excellent for both within-day measures (0.995–0.999) and between-day measures (0.996–0.999). Further work is necessary to explore the use of this approach in the evaluation of biomechanics, clinical assessments and interventions.
Resumo:
Modern non-invasive brain imaging technologies, such as diffusion weighted magnetic resonance imaging (DWI), enable the mapping of neural fiber tracts in the white matter, providing a basis to reconstruct a detailed map of brain structural connectivity networks. Brain connectivity networks differ from random networks in their topology, which can be measured using small worldness, modularity, and high-degree nodes (hubs). Still, little is known about how individual differences in structural brain network properties relate to age, sex, or genetic differences. Recently, some groups have reported brain network biomarkers that enable differentiation among individuals, pairs of individuals, and groups of individuals. In addition to studying new topological features, here we provide a unifying general method to investigate topological brain networks and connectivity differences between individuals, pairs of individuals, and groups of individuals at several levels of the data hierarchy, while appropriately controlling false discovery rate (FDR) errors. We apply our new method to a large dataset of high quality brain connectivity networks obtained from High Angular Resolution Diffusion Imaging (HARDI) tractography in 303 young adult twins, siblings, and unrelated people. Our proposed approach can accurately classify brain connectivity networks based on sex (93% accuracy) and kinship (88.5% accuracy). We find statistically significant differences associated with sex and kinship both in the brain connectivity networks and in derived topological metrics, such as the clustering coefficient and the communicability matrix.
