Categories
Cardiovascular
Diagnostics
Endocrinology
Health Insurance
Medical Devices
Mental Health
Nutrition
Oncology
Public Health
Sexual Health
Popular Articles
Teeth Whitening

Results From A European Caregiver Survey Highlight The Impact Of Attention Deficit Hyperactivity Disorder (ADHD) On The Child And The Family
Shire plc (LSE: SHP, NASDAQ: SHPGY), the global specialty biopharmaceutical company, today announced results of a European survey that found a child"s Attention Deficit Hyperactivity Disorder (ADHD) symptoms at school were a key concern for parents, yet outside of school their child"s ADHD also had significant impact on parents" personal time.1 The survey also revealed key findings surrounding parents" role in assessment and treatment for their child.1 Additionally, the survey suggested that informational needs may not be met adequately for these children with ADHD and their families.1 Conducted in partnership with ADHD advocacy groups in four EU countries, the survey analysed parental impressions surrounding the impact of ADHD on their child, themselves and their family, as well as their child"s ADHD treatment plan.
generic viagra online
Artificial Simulator Of The Human Nervous System Created To Aid Research Into Diseases And Test New Medicines
Researchers of the University of Granada have developed a simulator, so-called EDLUT ("Event driven look up table based simulator"), which allows reproduction of any part of the body"s nervous system, such as the retina, the cerebellum, the hearing centres or the nervous centres. This scientific advance enables them to analyze and understand the functions of the nervous centres, to do research into new pathologies and diseases or test new medicines; it will also be useful to improve the robots and machines inspired by the human body and the nervous system.
plastic surgery before after
News of the day
Lifestyle Program For Patients With COPD Is Health And Cost Effective
Patients with moderate COPD were randomized to receive "usual care" or to undergo an interdisciplinary, community-based program (INTERCOM) that offered an intensive lifestyle moderation phase of four months, during which patients were instructed in detail to perform two 15-minute intervals of pleasurable walking or cycling, and offered instruction in other lifestyle changes such as nutrition and smoking cessation. After the four-month introductory period, there was a less intensive 20-month maintenance during which patients were offered guidance but not intensive intervention.
Public Health

Determining Success Or Failure In Cholesterol-Controlling Drugs

Researchers at the University of California, San Diego have discovered that a complex network of interactions between drugs and the proteins with which they bind can explain adverse drug effects. Their findings suggest that adverse drug effects might be minimized by using single or multiple drug therapies in order to fine-tune multiple off-target interactions. "The traditional way of thinking of one drug binding to only one receptor to treat a single disease is outmoded," said Philip Bourne, professor of pharmacology with UC San Diego"s Skaggs School of Pharmacy and Pharmaceutical Sciences. "We found that a drug may have a cumulative effect through acting on multiple receptors at the same time, rather than acting on a single receptor." The term polypharmacology has been coined to describe this phenomenon, which may explain the failure of an anti-cholesterol drug called Torcetrapib which - after 15 years of research and $850 million in development costs - was withdrawn from stage III clinical trials as a result of instances of cardiovascular disease which resulted in death. "Torcetrapib actually acted on a dozen different receptors, resulting in an unanticipated side effect," said Bourne. "This multi-inhibitor binding pattern may not be at all unusual." In studying protein-drug interaction networks of a class of drugs known as cholesteryl ester transfer protein (CETP) inhibitors, and aided by computational modeling done at the San Diego Supercomputer Center (SDSC) at UC San Diego, the research team found evidence that CETP inhibitors bind to a variety of receptors. Their work, published in the May 15 issue of PLoS Computational Biology, uses a novel computational strategy to identify protein-ligand binding profiles on a genome-wide scale. In this case, the strategy was applied to explain the molecular mechanisms associated with adverse drug effects. "At this time we do not have a complete structural proteome to analyze, one that maps all the protein structures in the genome - either experimental or model - to which drugs could bind," said Bourne, director of structural bioinformatics and an SDSC Distinguished Scientist. "So though we still may not have a complete understanding of off-target binding, this strategy is already useful." Studying the panel of off-targets for Torcetrapib and other CETP inhibitors from the human structural genome, the researchers mapped those targets to biological pathways using the existing literature. "The predicted protein-ligand network is consistent with experimental results from multiple s and reveals that the side-effects of CETP inhibitors are modulated through the combinatorial control of multiple, interconnected biochemical pathways," said Li Xie, lead author on the study. In other words, Xie explained, a combination of many different pathways, impacted when a molecule or ligand binds to several receptors, possibly inhibiting a number of different proteins - all lead to the overall physiological effect of that drug. Besides the CETP inhibitor, Torcetrapib, two related drugs, Anacetrapib and JTT-705, were also analyzed. The final panel of off-targets for these drugs is associated with many physiological processes including cell proliferation, inflammation and hypertension. "Ironically, Torcetrapib is more specific than JTT705, yet it is less effective in controlling cholesterol levels with minimal side effects," said Lei Xie, a senior scientist in the Bourne group and the major developer of the computational methodology. "This is contrary to conventional wisdom, which implies that the more specific the binding, the fewer the side-effects." For example, JTT-705 has a binding profile that impacts numerous biological pathways, but none of them result in hypertension - a side effect that is observed in the Torcetrapib, which binds more specifically. Among a number of cumulative effects, the scientists predicted different binding profiles of CETP inhibitors to several nuclear receptors. They discovered that JTT-705, unlike Torcetrapib, is involved in the activation of nuclear receptors that contribute to both positive and negative control of aldosterone, a hormone responsible for increased blood pressure. This differs from Torcetrapib, which only increases aldosterone production and therefore has a purely positive, or increased, effect on blood pressure. Mapping the off-targets to biochemical pathways that are currently known provides new insights with the potential to improve the design of effective and safe pharmaceuticals. "This work extends the scope of chemogenomics - the study of genomic responses to chemical compounds - and exemplifies the role that systems biology has in the future of drug discovery," Bourne said. An additional contributor includes Jerry Li, from Torrey Pines High School in San Diego. This work was supported by a grant from the National Institutes of Health. Debra Kain University of California - San Diego


Add your comment:
Name:
Site address: http://
Your message:
Enter today\\\\'s date, 2 digits
(spam protection):

© Copyright 2009