NeuroSigma Licenses UCLA's Thin-Film Nitinol Stent Technology
July 18, 2011 — NSVascular Inc., a newly formed subsidiary of NeuroSigma Inc., has signed an exclusive license with the University of California Los Angeles (UCLA) covering its medical applications of thin-film nitinol (TFN) technology.
Nitinol is a superelastic nickel and titanium alloy with unique properties that allow deformation and subsequent full recovery of the original shape upon exposure to body heat.
NSVascular will focus on developing and commercializing TFN-covered stents for endovascular applications, with its first two applications being flow-diverting stents for intracranial aneurysms (IA) and stents for treating peripheral artery disease (PAD).
A multidisciplinary team, comprised of researchers from the UCLA Henry Samueli School of Engineering and Applied Science in collaboration with physicians from the David Geffen School of Medicine at UCLA, has been engaged in the development and the in vitro/in vivo testing of TFN-covered IA and PAD stents.
"For the past five years our engineering team has benefited from collaborating with a top-notch UCLA medical team, spearheaded by Dr. Dan Levi and Dr. Fernando Vinuela. I am looking forward to working closely with the experienced management team at NeuroSigma and NSVascular in commercializing this promising technology," said Greg Carman, Ph.D., UCLA professor of mechanical and aerospace engineering and a co-founder of NSVascular.
Intracranial Aneurysm (IA) Flow-Diverting Stent
Intracranial aneurysms result from weaknesses in cerebral blood vessels, which can rupture and lead to stroke and death. It is estimated that up to one in fifteen people in the United States develop a brain aneurysm during their lifetime. The traditional method of surgical clipping to treat brain aneurysms is very invasive, requiring removal of a section of the skull. Since 1995, endovascular coils have gained popularity, now accounting for the majority of current procedures.
"Pre-clinical in vivo testing has shown a remarkable 100 percent aneurysm occlusion rate within minutes of treatment, an achievement unmatched by competing flow-diverting technologies," said Fernando Vinuela, M.D., director of UCLA's division of interventional neuroradiology and a co-founder and scientific advisor to NSVascular. "Furthermore, our TFN-covered flow-diverting stent keeps the flexibility of the delivery system allowing safer distal intracranial navigation and stenting of a larger number of aneurysms," he added.
The company believes that flow-diverting stents represent one of the fastest growing segments of the neurovascular market and may supplant intracranial coiling as the preferred treatment for certain aneurysms. Last month, in support of continuing preclinical trials at UCLA, NeuroSigma entered into a contract with the university to fund the development of prototype TFN-covered stents for use in upcoming human trials.
Peripheral Artery Disease (PAD) Stent
Ten million Americans suffer from PAD, a common circulatory problem in which narrowing of arteries can lead to a reduction in blood flow to the limbs and a possible precursor to amputation or death from heart attack and stroke.
The license with UCLA also includes the use of TFN-covered stents for the treatment of PAD. Since 2009, under an NIH Challenge Grant, UCLA has been conducting in vivo pre-clinical trials to demonstrate that its TFN-covered stents may eventually be used for the treatment of PAD by remaining patent even in vessels as small as 3 millimeters. A unique surface treatment of the university’s TFN film provides superhydrophylic properties, which greatly reduces the adherence of platelets.
For more information: www.neurosigma.com