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Impressive Progress (impressive + progress)

Distribution by Scientific Domains
Medical Sciences40%

Selected Abstracts

Interactive Visualization with Programmable Graphics Hardware

COMPUTER GRAPHICS FORUM, Issue 3 2002
Thomas Ertl
One of the main scientific goals of visualization is the development of algorithms and appropriate data models which facilitate interactive visual analysis and direct manipulation of the increasingly large data sets which result from simulations running on massive parallel computer systems, from measurements employing fast high-resolution sensors, or from large databases and hierarchical information spaces. This task can only be achieved with the optimization of all stages of the visualization pipeline: filtering, compression, and feature extraction of the raw data sets, adaptive visualization mappings which allow the users to choose between speed and accuracy, and exploiting new graphics hardware features for fast and high-quality rendering. The recent introduction of advanced programmability in widely available graphics hardware has already led to impressive progress in the area of volume visualization. However, besides the acceleration of the final rendering, flexible graphics hardware is increasingly being used also for the mapping and filtering stages of the visualization pipeline, thus giving rise to new levels of interactivity in visualization applications. The talk will present recent results of applying programmable graphics hardware in various visualization algorithms covering volume data, flow data, terrains, NPR rendering, and distributed and remote applications. [source]

Progress in inflammatory bowel disease

JOURNAL OF DIGESTIVE DISEASES, Issue 2 2005
John W SINGLETON
During the past 20 years, advances have been made in Crohn's disease and chronic ulcerative colitis. Despite impressive progress, it is still necessary to call these diseases ,idiopathic', as the details of their etiology remain obscure. Four areas will be reviewed in this article: genetics; intestinal inflammation; the relationship between the gut flora and the mucosa; and medical therapy. [source]

Facial transplantation as an option in reconstructive surgery: no mountains too high?

ANZ JOURNAL OF SURGERY, Issue 12 2009
Wojciech B, ogowski
Abstract Background:, Human facial allotransplantation (FA) is a testament to the impressive progress, which was and is still happening in the field of transplantation medicine and reconstructive surgery. Like every pioneering treatment option, FA faces both the clinicians' and public opinion with a huge amount of medical and psychosocial dilemmas, which, in order to introduce FA as a scientifically and socially accepted procedure into clinical practice, need to be discussed, answered and solved. Methods:, This review is based on a detailed literature research in all relevant databases (MEDLINE, PubMed, Cochrane Library, specialist textbooks), however, recent papers (published between 2006 and 2008) were given highest priority for inclusion. Results:, In this review, two main limitations associated with facial tissue allotransplantation, that is, shortage of donations and life-long need for immunosuppressive treatment, are discussed and presented in both psychosocial and medical terms. Conclusion:, Although both of these limitations potentially could successfully inhibit the transformation of FA from an experimental therapy to the treatment of choice for patients with severe functional facial impairment, recent literature suggest that FA will find a meaningful place in facial reconstructive surgery. [source]

Application of protein engineering to enhance crystallizability and improve crystal properties

ACTA CRYSTALLOGRAPHICA SECTION D, Issue 5 2010
Zygmunt S. Derewenda
Until recently, protein crystallization has mostly been regarded as a stochastic event over which the investigator has little or no control. With the dramatic technological advances in synchrotron-radiation sources and detectors and the equally impressive progress in crystallographic software, including automated model building and validation, crystallization has increasingly become the rate-limiting step in X-ray diffraction studies of macromolecules. However, with the advent of recombinant methods it has also become possible to engineer target proteins and their complexes for higher propensity to form crystals with desirable X-ray diffraction qualities. As most proteins that are under investigation today are obtained by heterologous overexpression, these techniques hold the promise of becoming routine tools with the potential to transform classical crystallization screening into a more rational high-success-rate approach. This article presents an overview of protein-engineering methods designed to enhance crystallizability and discusses a number of examples of their successful application. [source]

Toward understanding the genetic basis of neural tube defects

CLINICAL GENETICS, Issue 4 2007
Z Kibar
Neural tube defects (NTDs) represent a common group of severe congenital malformations that result from failure of neural tube closure during early development. Their etiology is quite complex involving environmental and genetic factors and their underlying molecular and cellular pathogenic mechanisms remain poorly understood. Animal studies have recently demonstrated an essential role for the planar cell polarity pathway (PCP) in mediating a morphogenetic process called convergent extension during neural tube formation. Alterations in members of this pathway lead to NTDs in vertebrate models, representing novel and exciting candidates for human NTDs. Genetic studies in NTDs have focused mainly on folate-related genes based on the finding that perinatal folic acid supplementation reduces the risk of NTDs by 60,70%. A few variants in these genes have been found to be significantly associated with an increased risk for NTDs. The candidate gene approach investigating genes involved in neurulation has failed to identify major causative genes in the etiology of NTDs. Despite this history of generally negative findings, we are achieving a rapid and impressive progress in understanding the genetic basis of NTDs, based mainly on the powerful tool of animal models. [source]