Browsing by Subject "depot"
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(2013)Cellulose has already been used as an industrial raw material for over a century. However, during recent years the nanostructural features of the naturally occurring biopolymer have been fully investigated and characterized through different processing methods as nanofibrillar cellulose (NFC). This has led to a rapid development of novel cellulose based nanoscale materials and advancements in the field of composite materials. NFC offers interesting specific properties that differ from many other natural and synthetic polymers, such as self-renewable raw materials, semi-crystalline morphology, broad chemical modification capacity, biocompatibility and biodegradability. Biocompatibility and the biomimetic aspects of NFC have enabled the fabrication of nanoporous membranes and scaffolds that can function as medical devices (e.g. tissue engineering, wound healing, novel active implants). In this study, the properties of plant-derived NFC, as potential injectable drug releasing hydrogel "implants" were investigated. Three different sized candidate molecules were selected (123I-NaI, 123I-β-CIT and 99mTc-HSA, from small to large respectively) and investigated with the use of a small animal SPECT/CT molecular imaging device. Study compounds were mixed with the NFC biomaterial and injected into the pelvic region of mice. Drug release was observed for a period of 24 hours and the results were compared to saline/study compound control injections. In addition, 99mTc labeled NFC hydrogels were prepared for dual label tracing to observe the hydrogel positioning during the SPECT/CT acquisitions. For the smaller compounds (123I-NaI, 123I-β-CIT), no differences were found in the drug release or absorption in between the NFC biomaterial and saline injections. However, a clear difference was found with the large compound (99mTc-HSA). In the NFC hydrogel, the rate of release was slower and the distribution of 99mTc-HSA was more concentrated around the area of injection. In addition, the NFC hydrogel did not migrate from, or disintegrate, at the site of injection, suggesting a robust enough structural integrity to withstand normal movement and activity. In conclusion, the labeling of NFC was found to be a reliable and simple method. NFC hydrogels have the potential use as drug releasing medical devices with larger compounds. NFC matrix did not have any controlled release effect on the studied small molecules. Therefore further studies are required for more specific conclusions.
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