drs c w k and t

Pediatric laryngotracheal stenosis (LTS), a narrowing of the airway in children, is a complex medical condition. While it can be something a child is born with or caused by injury, the condition can result in a life-threatening emergency if untreated.  Treatment, however, is challenging. Depending on the severity, doctors will use a combination of endoscopic techniques, surgical repair, tracheostomy, or deployment of stents to hold the airway open and enable breathing.

While stents are great at holding the airway open and simultaneously allowing the trachea to continue growing, they can move around, or cause damage when they’re eventually removed. New research published in Communications Biology and led by the University of Pittsburgh is poised to drastically improve the use of stents, demonstrating for the first time the successful use of a completely biodegradable magnesium-alloy tracheal stent that avoids some of these risks.  McGowan Institute for Regenerative Medicine affiliated faculty members who are co-authors on the study include:

  • Youngjae Chun, PhD, Associate Professor, Department of Industrial Engineering, with a secondary appointment in Department of Bioengineering at the University of Pittsburgh
  • William Wagner, PhD, Director of the McGowan Institute as well as a Distinguished Professor of Surgery, Bioengineering and Chemical Engineering at the University of Pittsburgh
  • Prashant Kumta, PhD, Edward R. Weidlein Chair Professor at the University of Pittsburgh Swanson School of Engineering and School of Dental Medicine, Professor in the Departments of Bioengineering, Chemical and Petroleum Engineering, Mechanical Engineering and Materials Science, and Oral Biology, the Engineering Director of the Center for Craniofacial Regeneration (CCR), and the Founding Director of the Center for Complex Engineered Multi-functional Materials (CCEMM)
  • Catalin Toma, MD, Fellow in Interventional Cardiology at the University of Pittsburgh Medical Center

“Using commercial non-biodegradable metal or silicone based tracheal stents has a risk of severe complications and doesn’t achieve optimal clinical outcomes, even in adults,” said Dr. Kumta. “Using advanced biomaterials could offer a less invasive, and more successful, treatment option.”

In the study, the balloon-expandable ultra-high ductility (UHD) biodegradable magnesium stent was shown to perform better than current metallic non-biodegradable stents in use in both in-lab testing and in rabbit models. The stent was shown to keep the airway open over time and have low degradation rates, displaying normal healing and no adverse problems.

“Our results are very promising for the use of this novel biodegradable, high ductility metal stent, particularly for pediatric patients,” said Dr. Kumta. “We hope this new approach leads to new and improved treatments for patients with this complex condition as well as other tracheal obstruction conditions including tracheal cancer.”

The paper, “In-vivo efficacy of biodegradable ultrahigh ductility Mg-Li-Zn alloy tracheal stents for pediatric airway obstruction,” was also authored by the Swanson School’s Jingyao Wu, Abhijit Roy, and Bouen Lee; UPMC’s Leila Mady, Ali Mübin Aral, Humberto E. Trejo Bittar, and David Chi; and Feng Zheng and Ke Yang from The Institute of Metal Research at the Chinese Academy of Sciences.

Read more…

University of Pittsburgh Swanson School of Engineering News Release

EurekAlert!

Science Daily

Abstract (In-vivo efficacy of biodegradable ultrahigh ductility Mg-Li-Zn alloy tracheal stents for pediatric airway obstruction.  Jingyao Wu, Leila J. Mady, Abhijit Roy, Ali Mübin Aral, Boeun Lee, Feng Zheng, Catalin Toma, Youngjae Chun, William R. Wagner, Ke Yang, Humberto E. Trejo Bittar, David Chi and Prashant N. Kumta.  Communications Biology, published December 18, 2020.)