Design and evaluation of a biosynthesized cellulose drug releasing duraplasty

Decompressive craniectomy (DC) is a standard surgical procedure performed on stroke patients in which a portion of a skull is removed and a duraplasty membrane is applied onto the brain. While DC can significantly reduce the risk of death, it does not reverse the stroke damage. In this study, a novel biosynthesized cellulose (BC)-based drug releasing duraplasty was developed and studied. The BC duraplasty fabrication process allowed readily incorporation of growth factors (GFs) in a sterile manner and control of physical and mechanical properties of the resulting duraplasty. Our results showed that BC duraplasty containing the highest amount of dry cellulose presented swelling ratio of 496 ± 27%, Young's modulus of 0.37 ± 0.02 MPa, ultimate tensile strength of 0.96 ± 0.02 MPa, while releasing GFs for over 10 days. In addition, neural stem/progenitor cell (NSPC) cultures demonstrated that the GFs released from the BC duraplasty promoted NSPC proliferation and differentiation in vitro. Finally, animal studies revealed that the BC duraplasty did not cause any inflammatory reactions after the DC procedure in vivo. In summary, this newly developed GF loaded BC membrane demonstrates a promising potential as drug releasing duraplasty, not only for stroke treatments but also for traumatic brain injuries and spinal cord injuries. [Display omitted] •Blended biosynthesized cellulose (BBC) was used to prepare drug releasing duraplasties.•The BBC can be applied as part of a standard decompressive craniectomy procedure in stroke patients.•BBC process allows control of duraplasty property and sterile incorporation of growth factors.•Drug releasing BBC duraplasty stimulates NSPC proliferation in vivo.•BBC duraplasty shows excellent biocompatibility when implanted in vivo.