Sven Knecht scite author profile

Full-thickness defects in articular cartilage can be functionally restored by autologous chondrocyte implantation (ACI). In past years, numerous types of scaffolds for tissue-engineered cartilage implants have been developed and thoroughly characterized. However, the fixation stability of the implants has been rarely investigated despite its well-known importance for successful therapy. In this study, we have mechanically tested the fixation stability of four commonly used biomaterials for ACI attached by four different fixation techniques (unfixed, fibrin glue, chondral suture, and transosseous suture) in situ. Scaffolds based on polyglycolic acid (PGA) and polyglycolic acid and poly-L-lactic acid (PGLA), collagen membranes, and a gel-like matrix material were fixed within rectangular full-thickness cartilage defects of 10 x 15 mm(2) and loaded in tension until failure. Fibrin glue fixation of PGLA-scaffolds withstood a load of 2.18 6 +/- 0.47 N, chondral sutured PGA-scaffolds of 26.29 6 +/- 1.55 N, and transosseous fixed PGA-scaffolds of 38.18 6 +/- 9.53 N. The PGA-scaffold could be loaded highest until failure for all fixation techniques compared to the PGLA-scaffold and collagen membrane. Our findings serve as basis for selecting the most suitable fixation technique for scaffold-based tissue-engineered grafts according to the expected in vivo loads.

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Cartilage-like Tissue Engineering Using Silk Scaffolds and Mesenchymal Stem Cells

Hofmann

et al. 2006

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Silk fibroin scaffolds were studied as a new biomaterial option for tissue-engineered cartilage-like tissue. Human bone marrow-derived mesenchymal stem cells (MSCs) were seeded on silk, collagen, and crosslinked collagen scaffolds and cultured for 21 days in serum-free chondrogenic medium. Cells proliferated more rapidly on the silk fibroin scaffolds than on the collagen matrices. The total content of glycosaminoglycan deposition was three times higher on silk as compared to collagen scaffolds. Glycosaminoglycan deposition coincided with overexpression of collagen type II and aggrecan genes. Cartilage-like tissue was homogeneously distributed throughout the entire silk scaffolds, while on the collagen and crosslinked collagen systems tissue formation was restricted to the outer rim, leaving a doughnut appearance. Round or angular-shaped cells resided in deep lacunae in the silk systems and stained positively for collagen type II. The aggregate modulus of the tissue-engineered cartilage constructs was more than 2-fold higher than that of the unseeded silk scaffold controls. These results suggest that silk fibroin scaffolds are suitable biomaterial substrates for autologous cartilage tissue engineering in serum-free medium and enable mechanical improvements along with compositional features suitable for durable implants to generate or regenerate cartilage.

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Incidence of new-onset atrial fibrillation after cavotricuspid isthmus ablation for atrial flutter

Knecht

Kuehne

Reichlin

et al. 2017

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Anatomical Predictors for Acute and Mid‐Term Success of Cryoballoon Ablation of Atrial Fibrillation Using the 28 mm Balloon

Knecht

Kühne

Altmann

et al. 2012

Cardiovasc electrophysiol

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Sven Knecht

Remineralization of human dentin using ultrafine bioactive glass particles

Effect of sodium hypochlorite on human root dentine – mechanical, chemical and structural evaluation

A review on the mechanical quality of articular cartilage – Implications for the diagnosis of osteoarthritis

Initial impedance decrease as an indicator of good catheter contact: Insights from radiofrequency ablation with force sensing catheters

Mechanical testing of fixation techniques for scaffold‐based tissue‐engineered grafts

Cartilage-like Tissue Engineering Using Silk Scaffolds and Mesenchymal Stem Cells

Incidence of new-onset atrial fibrillation after cavotricuspid isthmus ablation for atrial flutter

Anatomical Predictors for Acute and Mid‐Term Success of Cryoballoon Ablation of Atrial Fibrillation Using the 28 mm Balloon

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