Showing posts with label Neuropathic Pain. Show all posts
Showing posts with label Neuropathic Pain. Show all posts

Saturday, August 4, 2012

BioLineRx receives two U.S. patent allowances for BL-1021 to treat neuropathic pain

BioLineRx, a biopharmaceutical development company, announced today that two Notices of Allowance have been issued by the United States Patent and Trademark Office (USPTO) for BL-1021 (see structure), an orally available small molecule for treating neuropathic pain. The first has been issued for a patent application claiming BL-1021's composition, that when issued, will be valid until at least September 2022. Additional patents claiming BL-1021's composition are granted or pending in Europe, Japan, Canada, Korea, Mexico, Israel, India, China and Australia. The other Notice of Allowance is for a patent application claiming the use of BL-1021 for the treatment of pain, that when issued, will be valid until at least January 2028.

BioLineRx receives two U.S. patent allowances for BL-1021 to treat neuropathic pain: BioLineRx, a biopharmaceutical development company, announced today that two Notices of Allowance have been issued by the United States Patent and Trademark Office (USPTO) for BL-1021, an orally available small molecule for treating neuropathic pain.

Friday, August 13, 2010

Etoricoxib better than tramadol for postoperative pain.....

In continuation of my update on Etoricoxib...

Researchers lead by Dr. Metha Brattwall of University Hospital Möndal in Gothenburg, Sweden, have come up with an  interesting finding, i.e., for patients with moderate pain after foot surgery, the cyclo-oxygenase 2 (COX-2) inhibitor drug etoricoxib provides better pain relief with fewer side effects than the opioid drug tramadol. The study also helps to alleviate concerns that COX-2 inhibitors and other nonsteroidal anti-inflammatory drugs (NSAIDs) may interfere with bone healing after surgery.  The researchers compared two different pain-relieving drugs in 100 women undergoing surgery for bunions (hallux valgus). One group received the COX-2 inhibitor etoricoxib, while the other group received tramadol, an opioid (narcotic-like) drug similar to codeine.

Although both drugs were effective in controlling pain in the week after surgery, pain scores were significantly lower in the etoricoxib group. Women assigned to etoricoxib had an average pain score of 12.5 (on a 100-point scale), compared to 17 in those receiving tramadol.  As per the claim by  the researchers, patients in the etoricoxib group had lower maximum pain scores throughout the week after surgery. They also had better pain relief on the second and third days after surgery, when pain scores were highest.

"Etoricoxib was also associated with fewer side effects and thus overall patient satisfaction with pain medication," the researchers write...

Interesting results from this study are that, no evidence of impaired healing in patients taking NSAIDs, at least after a relatively minor operation like bunion surgery. Etoricoxib is not currently approved for use in the United States, but is available in other countries. NSAIDs are generally considered much safer than opioid drugs.And this research further substantiate this.
"The results suggest that NSAIDs can provide superior analgesia for patients with moderate pain after bone surgery, with reduced risk," Dr. Shafer adds...


Ref : Metha Brattwall,  Ibrahim Turan, and Jan Jakobsson, Anesthesia & Analgesia

Tuesday, August 3, 2010

The Engineering of an Orally Active Conotoxin (Snail Spit) for the Treatment of Neuropathic Pain...

The mollusks use a deadly dose of conotoxins (peptide toxins, e.g., α/ω-conotoxin peptides) that disrupt myriad biological functions. The mollusks  inject into passing prey with hypodermic-needle-like teeth that shoot from their mouths like harpoons.

Within the conotoxin brew are several peptides that relieve tough-to-treat neuropathic pain just as well as morphine does but without its addictive properties. Although scientists have tried to turn such compounds into pain relievers, they've been hamstrung with problems administering such drugs. The pain reliever Prialt (see structure,  Ziconotide),  a synthetic version of ω-conotoxin MVIIA, but it must be injected directly into the spinal cord with a surgically implanted pump.

Now interestingly, scientists in Australia lead  by Prof. David Craik (Institute for Molecular Bioscience at the University of Queensland), have managed to engineer a conotoxin that can be taken orally. Researchers found that,  by linking the N-terminus of α-conotoxin Vc1.1—a compound derived from Conus victoriae—to its C-terminus, they could make the 16-residue peptide orally active.  In the cyclized peptide, which is known as α-conotoxin cVc1.1, the protein's head and tail are tethered by a string of six amino acids—two alanines flanked on each side by two glycines. Prof. Craik says he chose the linker because it was inexpensive, wouldn't add any functionality to the molecule, and would be easy to characterize with nuclear magnetic resonance. In tests with rats, the cyclized peptide proved to be as potent a painkiller as gabapentin, the most popular drug for neuropathic pain, even though the conotoxin-based peptide was administered at a dose that is less than 1% of the dose typically given for gabapentin (other orally prescribed peptide is Ciclosporin a immunosuppressant).

Craik's group has shown that cyclizing larger peptides can make them orally available. His team's analysis of the protein database shows that up to 25% of all proteins have their ends within 10 Å of one another a distance that could easily be spanned with linkers of six to 10 amino acids.

"All you need is for the ends to be roughly close to one another," Prof. Clark says.

Craik says the cyclization also enhances hydrogen bonding across the entire molecule, making it resistant to the endopeptidases that attack a protein's interior amino acids. He says it's sort of like a zipper: "A zipper can be regarded as a series of hydrogen bonds all interlocking together, and when you zip it all up, you've got a beautiful set of coordinated hydrogen bonds. But you've still got two ends, and when you pull apart those two ends of the zipper, then the first hydrogen bond goes, then the next, and then the next. Craik has discovered several other examples of cyclic peptides, which he calls cyclotides (C&EN, April 19, 2004, page 40). He's hoping to use their structural features to guide the engineering of other peptides, as he did with α-conotoxin cVc1.1 At the moment, Craik is trying to raise funds so enough preliminary experiments can be done to file an Investigational New Drug Application. "The most challenging aspect has been just raising the money to get it commercialized," he says. "Pharmaceutical companies are always a little nervous about peptides. We need more success stories so that they'll see peptides not only as fantastic leads but also as potential drugs."...

Ref : http://www3.interscience.wiley.com/journal/123500852/abstract