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Paramedic Struck Off For Drink Driving Whilst On Call
Paramedic, Mr Jonathan Knight has been struck off the HPC Register after he
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BioClinica Advances Standards Support At DIA 2009
Bio-Imaging Technologies, Inc., (NASDAQ: BITI) d/b/a BioClinica, a global provider of clinical trial services with more than two decades of experience and a thorough understanding of standards, is challenging the industry to increase standards implementation for clinical trials at the Drug Information Association (DIA) 45th Annual Meeting on June 21-25 in San Diego (booth #315). Standards support has quickly become a key focus for the life science industry to streamline the clinical trial process and reduce costs. However, the complexity of the task and the re requirements put implementing standards on the "someday list" for many companies.
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Lifelong Cancer Risk For Patients Treated For Childhood Cancer
Childhood cancer survivors have a persistent and high risk for a second primary cancer throughout their lives, according to a new study published in the May 26 online issue of the Journal of the National Cancer Institute.
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Juggling Cells Using High-Precision Laser Tweezers

Researchers at the University of Gothenburg, Sweden, have developed a new method to study single cells while exposing them to controlled environmental changes. The unique method, where a set of laser tweezers move the cell around in a microscopic channel system, allows the researchers to study how single cells react to stress induced by a constantly changing environment. Studies on how cells react to changes in their environment, such as reduced availability of nutrients, have traditionally used cultures consisting of millions of cells. While such studies show how cells on average react to a new environment, they say nothing about individual variation, for example how quickly a single cell responds. Catches and moves cells Researcher Emma Eriksson and her colleagues at the Department of Physics, University of Gothenburg, Sweden, developed a method where laser tweezers are used to catch a cell the size of about one micrometer, or 0.001 of a mm, and then move the cell between different environments. Placing the cell in a system of channels made of silicone, in which each channel is finer than a human hair, enables the researchers to add and remove substances so that the environment surrounding a single cell changes in a split second - while at the same time watching the reactions through a microscope. New information The channels in the so-called microfluidic system can be likened to tiny water pipes. In a channel, a single cell can be exposed to tests and various substances for very exact time periods, which enables the researchers to repeatedly add and remove a substance to see how it affects the behaviour of the cell. This new method gives researchers information that would not be possible to obtain with traditional methods. How cells survive In its first stage, the new method has been tested on yeast cells. One of the cells" proteins was tagged with a green fluorescent protein (GFP), enabling researchers to trace the movements of the protein within the cell while it adjusts to a new environment. "The method can be used to reveal how a cell reacts to stress induced by a change in its environment. The information gained from this may eventually lead to a better understanding of how cells work and what they do to stay alive and healthy in a constantly changing environment", says Eriksson. The thesis Towards quantitative single cell analysis using optical tweezers and microfluidics was defended at a disputation on April 29th. Krister Svahn University of Gothenburg


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