Experimental and Clinical Investigation of the Implant Surface Roughness Reduction Effect on Early-stage...
Capsular Contracture Associated With ImplantForeign-Body Reaction2 moreThe goal of this single-center, randomised double-blinded trial is to compare the early stage fibrosis progression around conventional textured expander and the SmoothSilk® expander with reduced surface roughness in women undergoing bilateral nipple or skin sparing mastectomy in a prophylactic setting followed by tissue-expander based breast reconstruction. Researchers will compare intra-individually, the conventional textured expander CPX®(Mentor) and the SmoothSilk® (Motiva) expander (i) to gain a comprehensive insight into immunological mechanisms occurring at the timepoint of expander insertion (within the first days after implantation) based on WBF analysis in vitro, (ii)to determine the role and function of immune cells in a rather early stage of capsule formation (6-8 months after implantation) and under well-defined conditions in humans as well as (iii)to analyze the aesthetic outcome and clinical parameters after bilateral implant-based reconstruction using two expanders with varying surface topography within the individual patient (intra-individually).
Double-Blinded Clinical Trial Using Apatone®B for Symptomatic Postoperative Total Joint Replacements...
EdematousSynovitis2 moreThis research study is being conducted to determine if taking oral (by mouth in pill form) Apatone®B (a combination of Vitamins C and K3) will reduce chronic joint discomfort and improve function of non-infected symptomatic postoperative total joint replacements.
IMPACT: Safety and Feasibility of a Single-stage Procedure for Focal Cartilage Lesions of the Knee....
Foreign-Body ReactionInflammation2 moreArticular cartilage defects in the knee have a poor intrinsic healing capacity and may lead to functional disability and osteoarthritis. Cartilage cell therapy using autologous chondrocyte implantation (ACI) has been established as the first advanced treatment therapy medicinal product. Although this technique has achieved good mid-term results, it is a costly and extensive two-stage procedure which is limited by the number of chondrocytes obtained by biopsy and the dedifferentiation resulting from the expansion phase. Therefore, there is a need for improvement. A new cartilage repair technique should aim at decreasing surgical trauma, lowering complexity, improving logistics and cost-effectiveness while retaining or improving clinical outcome. Direct contact between mesenchymal stromal cells (MSCs) and dedifferentiated articular chondrocytes in vitro showed improvement of the chondrogenic phenotype of dedifferentiated articular chondrocytes. In addition, preserving the pericellular matrix of chondrocytes improves cartilage formation. These chondrons (chondrocytes with their pericellular matrix) have shown improved cartilage formation when combined with allogeneic MSCs in extensive preclinical studies. The cells are mixed with fibrin cell carrier and applied to the cartilage lesion within one surgical procedure. This will reduce patient morbidity and improve patient care through immediate transplantation of a potent cell-based cartilage product. This is a phase I/II prospective monocenter study to evaluate the safety and feasibility of the IMPACT for treatment of focal articular cartilage lesions of the knee.