Janja Stergar scite author profile

Corrosion resistance, biocompatibility, improved osteointegration, as well the prevention of inflammation and pain are the most desired characteristics of hip replacement implants. In this study we introduce a novel multi-layered coating on AISI 316LVM stainless steel that shows promise with regard to all mentioned characteristics. The coating is prepared from alternating layers of the biocompatible polysaccharide chitosan and the non-steroid anti-inflammatory drug (NSAID), diclofenac. Electrochemical methods were employed to characterize the corrosion behavior of coated and uncoated samples in physiological solution. It is shown that these coatings improve corrosion resistance. It was also found that these coatings release the incorporated drug in controlled, multi-mechanism manner. Adding additional layers on top of the as-prepared samples, has potential for further tailoring of the release profile and increasing the drug dose. Biocompatibility was proven on human-derived osteoblasts in several experiments. Only viable cells were found on the sample surface after incubation of the samples with the same cell line. This novel coating could prove important for prolongation of the application potential of steel-based hip replacements, which are these days often replaced by more expensive ceramic or other metal alloys.

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Intervertebral disc tissue engineering: A brief review

Stergar

Gradišnik

Velnar

et al. 2019

Bosn J of Basic Med Sci

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Intervertebral disc (IVD) degeneration (IDD) is associated with low back pain and significantly affects the patient’s quality of life. Degeneration of the IVD alters disk height and the mechanics of the spine, leading to chronic segmental spinal instability. The pathophysiology of IVD disease is still not well understood. Current therapies for IDD include conservative and invasive approaches, but none of those treatments are able to restore the disc structure and function. Recently, tissue engineering techniques emerged as a possible approach to treat IDD, by replacing a damaged IVD with scaffolds and appropriate cells. Advances in manufacturing techniques, material processing and development, surface functionalization, drug delivery systems and cell incorporation furthered the development of tissue engineering therapies. In this review, biomaterial scaffolds and cell-based therapies for IVD regeneration are briefly discussed.

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Development of multifunctional 3D printed bioscaffolds from polysaccharides and NiCu nanoparticles and their application

Milojević

Gradišnik

Stergar

et al. 2019

Applied Surface Science

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Janja Stergar

Review of aerogel-based materials in biomedical applications

Synthesis of copper–nickel nanoparticles prepared by mechanical milling for use in magnetic hyperthermia

Novel chitosan/diclofenac coatings on medical grade stainless steel for hip replacement applications

Intervertebral disc tissue engineering: A brief review

Development of multifunctional 3D printed bioscaffolds from polysaccharides and NiCu nanoparticles and their application

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