Browsing by Subject "Intervertebral disc degeneration"

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    Collagen peptide presenting nanofibrous scaffold for intervertebral disc regeneration
    (American Chemical Society, 2019) Uysal, Özge; Arslan, Elif; Gülseren, Gülcihan; Kılınç, M. C.; Doğan, İ.; Özalp, H.; Çağlar, Y. Ş.; Güler, M. O.; Tekinay, Ayşe B.
    Lower back pain (LBP) is a prevalent spinal symptom at the lumbar region of the spine, which severely effects quality of life and constitutes the number one cause of occupational disability. Degeneration of the intervertebral disc (IVD) is one of the well-known causes contributing to the LBP. Therapeutic biomaterials inducing IVD regeneration are promising candidates for IVD degeneration treatments. Here, we demonstrate a collagen peptide presenting nanofiber scaffold to mimic the structure and function of the natural extracellular matrix of the tissue for IVD regeneration. The collagen peptide presenting nanofiber was designed by using a Pro-Hyp-Gly (POG) peptide sequence on a self-assembling peptide amphiphile molecule, which assembled into nanofibers forming scaffolds. Injection of collagen peptide presenting peptide nanofiber scaffold into the degenerated rabbit IVDs induced more glycosaminoglycan and collagen deposition compared to controls. Functional recovery of the tissue was evaluated by degeneration index score, where the bioactive scaffold was shown to provide functional recovery of the IVD degeneration. These results showed that the collagen peptide presenting nanofiber scaffold can prevent the progression of IVD degeneration and provide further functional recovery of the tissue.
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    ItemOpen Access
    Development of bioactive peptide nanofibers for intervertebral disc regeneration
    (2017-08) Uysal, Özge
    Lower back pain (LBP) and neck problems are the most common orthopedic diseases worldwide, and the main reason behind LBP is intervertebral disc degeneration (IVDD). Therefore, specialized therapeutic applications to induce intervertebral disc (IVD) regeneration is a necessity. Here, we report the use of a collagen-mimetic bioactive peptide nanofiber scaffold (Col-PA/E-PA) for the improvement of disc regeneration by recapitulating the structure and function of the natural extracellular matrix (ECM) of intervertebral connective tissue. Following two weeks of degeneration, the bioactive nanofiber scaffold was topically applied and the IVD regeneration process was observed through histochemical analyses. The collagen-mimetic bioactive peptide nanofiber system was found to significantly promote glycosaminoglycan and collagen deposition at the site of injury compared to control nanofiber system and saline groups. In addition, the bioactive scaffold was consistently associated with lower values in degeneration scoring analyses, confirming the functional recovery of the tissue. Overall, the collagen-mimetic peptide nanofiber scaffold was able to prevent the progression of IVD degeneration and provide further functional recovery to the tissue.