Bicomponent nano- and microfiber aerogels for effective management of junctional hemorrhage
S. M. Shatil Shahriar, Syed Muntazir Andrabi, Al-Murtadha Al-Gahmi, Zishuo Yan, Alec McCarthy, Chenlong Wang, Zakariya A. Yusuf, Navatha Shree Sharma, Milton E. Busquets, Mallory I. Nilles, Carlos Poblete Jara, Kai Yang, Mark A. Carlson, Jingwei Xie
Abstract
Managing junctional hemorrhage is challenging due to ineffective existing techniques, with the groin being the most common site, accounting for approximately 19.2% of potentially survivable field deaths. Here, we report a bicomponent nano- and microfiber aerogel (NMA) for injection into deep, narrow junctional wounds to effectively halt bleeding. The aerogel comprises intertwined poly(lactic acid) nanofibers and poly(ε-caprolactone) microfibers, with mechanical properties tunable through crosslinking. Optimized aerogels demonstrate improved resilience, toughness, and elasticity, enabling rapid re-expansion upon blood contact. They demonstrate superior blood absorption and clotting efficacy compared to commercial products (i.e., QuikClot® Combat Gauze and XStat®). Most importantly, in a lethal swine junctional wound model (Yorkshire swine, both male and female, n = 5), aerogel treatment achieved immediate hemostasis, a 100% survival rate, no rebleeding, hemodynamic stability, and stable coagulation, hematologic, and arterial blood gas testing.