Fabricating An Ionic Conductive-okra Based Hydrogel For Chronic Wound Healing
Abstract
It has been reported that nearly 6.5 million people in the United States suffer from at
least one chronic wound in their lifetime. One of the community’s are affected by it
are people with diabetes mellitus. Hydrogel wound dressing presents a promising
option for due to its biodegradability, adhesivity, ability to retain moisture, and wound
healing promotion. Furthermore, in literature, electrical stimulation has been
mentioned to promote wound healing as well. Thus, we propose to design a device
that accelerates wound healing. This project is divided into phases and phase 1
comprises synthesizing the ionic conductive hydrogel patch. Phase 2 comprises of
the design and fabrication of the triboelectric nanogenerator (TENG), and phase 3
comprises of executing in vivo and in vitro studies. In this phase, a polyacrylamide
(PAM) hydrogel with various concentrations (0,5,10,15,20,30%) of LiCl was
synthesized. Furthermore, another batch of PAM/LiCl were synthesized
incorporating Okra mucilage. Both batches were compared. Conductivity and
swelling properties were measured. Results showed that the LiCl concentration
increases, the conductivity increases. However, interestingly, the swelling ratio did
not increase as the LiCl concentration increased. This may be due to the solvent in
which it was submerged.