Although theoretically 3rd generation beta blockers such as nebivolol are supposed to be more advantagious over cardioselective ones due to their additional vasodilating property because of action on alpha receptors, Randomized Controlled trials have failed to show their additional benefits. Since s-metoprolol has more benefits compared to r isomer, it can be predicted that it would be advantagious over both cardioselective as well as 3rd generation beta blockers. As per my knowledge, this hypothesis is still to be tested in clinical trials and is a potential area of research.
Reference: http://heart.bmj.com/cgi/content/abstract/79/1/86
http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6VRS-4W4CMKG-1&_user=10&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=df55a75133229d114817e3a9d61ec2c2
Saturday, May 23, 2009
Saturday, May 9, 2009
New drug target for epilepsy
Scientists have identified a specific molecular target whose increased activity is linked with seizure disorders- a potassium channel known as the BK channel.
A new anticonvulsant compound that eliminates seizures in a model of epilepsy. The drug works by inhibiting ion channels whose role in epilepsy was only recently discovered. Understanding how these channels work in seizure disorders, and being able to target them with a simple treatment, represents a significant advance in our ability to understand and treat epilepsy. Researchers have found that after a first seizure, BK channel function was markedly enhanced.
Thus, the neurons became overly excitable and were firing with more speed, intensity and spontaneity, which led the researchers to believe that the abnormal increase in the activity of the channels might play a role in causing subsequent seizures and the emergence of epilepsy. In a recent study the researchers tested this theory by blocking the ion channels using a BK-channel antagonist called paxilline.
Using an experimental model for epilepsy, Barth tested whether paxilline could reduce or prevent experimentally induced seizures, as it could normalize aberrant brain activity induced by previous seizures.
And to their surprise, the researchers discovered that the compound was effective at completely blocking subsequent seizures. The drug is orally available, and works in the low nanomolar range.
As the drug is effective in low concentrations and can be taken as a pill, it could turn out to be an especially promising compound for treatment in epilepsy patients.
The findings have been published in the current issue of the journal Epilepsia.
A new anticonvulsant compound that eliminates seizures in a model of epilepsy. The drug works by inhibiting ion channels whose role in epilepsy was only recently discovered. Understanding how these channels work in seizure disorders, and being able to target them with a simple treatment, represents a significant advance in our ability to understand and treat epilepsy. Researchers have found that after a first seizure, BK channel function was markedly enhanced.
Thus, the neurons became overly excitable and were firing with more speed, intensity and spontaneity, which led the researchers to believe that the abnormal increase in the activity of the channels might play a role in causing subsequent seizures and the emergence of epilepsy. In a recent study the researchers tested this theory by blocking the ion channels using a BK-channel antagonist called paxilline.
Using an experimental model for epilepsy, Barth tested whether paxilline could reduce or prevent experimentally induced seizures, as it could normalize aberrant brain activity induced by previous seizures.
And to their surprise, the researchers discovered that the compound was effective at completely blocking subsequent seizures. The drug is orally available, and works in the low nanomolar range.
As the drug is effective in low concentrations and can be taken as a pill, it could turn out to be an especially promising compound for treatment in epilepsy patients.
The findings have been published in the current issue of the journal Epilepsia.
New Target for treatment of epilepsy
scientists have identified a specific molecular target whose increased activity is linked with seizure disorders- a potassium channel known as the BK channel. works by inhibiting ion channels whose role in epilepsy was only recently discovered. Understanding how these channels work in seizure disorders, and being able to target them with a simple treatment, represents a significant advance in our ability to understand and treat epilepsy." he researchers found that after a first seizure, BK channel function was markedly enhanced.
Thus, the neurons became overly excitable and were firing with more speed, intensity and spontaneity, which led the researchers to believe that the abnormal increase in the activity of the channels might play a role in causing subsequent seizures and the emergence of epilepsy. n the current study, the researchers tested this theory by blocking the ion channels using a BK-channel antagonist called paxilline.
As the drug is effective in low concentrations and can be taken as a pill, it could turn out to be an especially promising compound for treatment in epilepsy patients.
Thus, the neurons became overly excitable and were firing with more speed, intensity and spontaneity, which led the researchers to believe that the abnormal increase in the activity of the channels might play a role in causing subsequent seizures and the emergence of epilepsy. n the current study, the researchers tested this theory by blocking the ion channels using a BK-channel antagonist called paxilline.
Using an experimental model for epilepsy, Barth tested whether paxilline could reduce or prevent experimentally induced seizures, as it could normalize aberrant brain activity induced by previous seizures.
And to their surprise, the researchers discovered that the compound was effective at completely blocking subsequent seizures. The drug is orally available, and works in the low nanomolar range," said Barth.
And to their surprise, the researchers discovered that the compound was effective at completely blocking subsequent seizures. The drug is orally available, and works in the low nanomolar range," said Barth.
As the drug is effective in low concentrations and can be taken as a pill, it could turn out to be an especially promising compound for treatment in epilepsy patients.
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