Medicine and Health Sciences Commons^™

Antimicrobial Peptide Coating Of Dental Implants: Biocompatibility Assessment Of Recombinant Human Beta Defensin-2 For Human Cells, Patrick Warnke, Eske Voss, Paul Russo, Sebastien Stephens, Michael Kleine, Hendrik Terheyden, Qin Liu

Qin Liu

Purpose: Artificial materials such as dental implants are at risk of bacterial contamination in the oral cavity. Human beta defensins (HBDs), small cationic antimicrobial peptides that exert a broad-spectrum antibacterial function at epithelial surfaces and within some mesenchymal tissues, could probably help to reduce such contamination. HBDs also have protective immunomodulatory effects and have been reported to promote bone remodeling. The aim of this study, therefore, was to investigate the influence of recombinant HBD-2 on the proliferation and survival of cells in culture.

Materials and Methods: Human mesenchymal stem cells (hMSCs), human osteoblasts, human keratinocytes (control), and the HeLa cancer …

Comparison Of In Vitro Biocompatibility Of Nanobone(®) And Biooss(®) For Human Osteoblasts, Qin Liu, Timothy Douglas, Christiane Zamponi, Stephan Becker, Eugene Sherry, Sureshan Sivananthan, Frauke Warnke, Jörg Wiltfang, Patrick Warnke

Qin Liu

Introduction:Scaffolds for bone tissue engineering seeded with the patient's own cells might be used as a preferable method to repair bone defects in the future. With the emerging new technologies of nanostructure design, new synthetic biomaterials are appearing on the market. Such scaffolds must be tested in vitro for their biocompatibility before clinical application. However, the choice between a natural or a synthetic biomaterial might be challenging for the doctor and the patient. In this study, we compared the biocompatibility of a synthetic bone substitute, NanoBone®, to the widely used natural bovine bone replacement material BioOss®.Material and methods: The in …

Nanospiderwebs: Artificial 3d Extracellular Matrix From Nanofibers By Novel Clinical Grade Electrospinning For Stem Cell Delivery, Mohammad Alamein, Qin Liu, Sebastien Stephens, Stuart Skabo, Frauke Warnke, Robert Bourke, Peter Heiner, Patrick Warnke

Qin Liu

Novel clinical grade electrospinning methods could provide three-dimensional (3D) nanostructured biomaterials comprising of synthetic or natural biopolymer nanofibers. Such advanced materials could potentially mimic the natural extracellular matrix (ECM) accurately and may provide superior niche-like spaces on the subcellular scale for optimal stem-cell attachment and individual cell homing in regenerative therapies. The goal of this study was to design several novel “nanofibrous extracellular matrices” (NF-ECMs) with a natural mesh-like 3D architecture through a unique needle-free multi-jet electrospinning method in highly controlled manner to comply with good manufacturing practices (GMP) for the production of advanced healthcare materials for regenerative medicine, and …

Ceramic Scaffolds Produced By Computer-Assisted 3d Printing And Sintering: Characterization And Biocompatibility Investigations, Patrick Warnke, Hermann Seitz, Stephan Becker, Sureshan Sivananthan, Eugene Sherry, Qin Liu, Jorge Wiltfang, Timothy Douglas

Qin Liu

Hydroxyapatite (HAP) and tricalcium phosphate (TCP) are two very common ceramic materials for bone replacement. However, in general HAP and TCP scaffolds are not tailored to the exact dimensions of the defect site and are mainly used as granules or beads. Some scaffolds are available as ordinary blocks, but cannot be customized for individual perfect fit. Using computer-assisted 3D printing, an emerging rapid prototyping technique, individual three-dimensional ceramic scaffolds can be built up from TCP or HAP powder layer by layer with subsequent sintering. These scaffolds have precise dimensions and highly defined and regular internal characteristics such as pore size. …

A Clinically-Feasible Protocol For Using Human Platelet Lysate And Mesenchymal Stem Cells In Regenerative Therapies, Patrick Warnke, Andreas Humpe, Dirk Strunk, Sebastien Stephens, Frauke Warnke, Jorge Wiltfang, Katharina Schallmoser, Mohammad Alamein, Robert Bourke, Peter Heiner, Qin Liu

Qin Liu

The transplantation of human stem cells seeded on biomaterials holds promise for many clinical applications in cranio-maxillo-facial tissue engineering and regenerative medicine. However, stem cell propagation necessary to produce sufficient cell numbers currently utilizes fetal calf serum (FCS) as a growth supplement which may subsequently transmit animal pathogens. Human platelet lysate (HPL) could potentially be utilized to produce clinical-grade stem cell-loaded biomaterials as an appropriate FCS substitute that is in line with clinically-applicable practice. The goal of this study was to investigate whether HPL can be successfully used to propagate human mesenchymal stem cells (HMSCs) seeded on clinically-approved collagen materials …

Mass Production Of Nanofibrous Extracellular Matrix With Controlled 3d Morphology For Large-Scale Soft-Tissue Regeneration, Mohammad Alamein, Sebastien Stephens, Qin Liu, Stuart Skabo, Patrick Warnke

Qin Liu

Aim: Biomaterials that mimic the nanofibrous architecture of the natural extracellular matrix (ECM) are in the focus for stem cell hosting or delivery in tissue engineering of multilayered soft tissues such as skin, mucosa, or retina. Synthetic nanofibers for such ECM are usually produced by single-syringe electrospinning with only one needle-jet at very low production rates of 0.005–0.008 g·min−1. The aim of this study was to utilize a novel industrial needle-free multijet electrospinning device with the potential for mass production of nanofibrous ECM (NF-ECM) exhibiting a controlled three-dimensional (3D) morphology for large-scale applications such as large area skin regeneration in …

The Primordium Of A Biological Joint Replacement: Coupling Of Two Stem Cell Pathways In Biphasic Ultrasound Compressed Gel Niches, Mariea Brady, Sureshan Sivananthan, Vivek Mudera, Qin Liu, Joerg Wiltfang, Patrick Warnke

Qin Liu

The impaired temporomandibular joint might be the first to benefit from applied tissue engineering techniques because it is small and tissue growth in larger amounts is challenging. Bone and cartilage require different competing environmental conditions to be cultivated in vitro. But coupling both the osteogenic and cartilaginous pathways of mesenchymal stem cell differentiation in homeostasis will be a key essential to grow osteochondral constructs or even the first biological joint replacement in the future.

The aim of this study was to test a single source biomaterial and a single source cell type to engineer a biphasic osteochondral construct in vitro …

Novel Ceramic Bone Replacement Material Ceraball® Seeded With Human Mesenchymal Stem Cells, Timothy Douglas, Qin Liu, Andreas Humpe, Jörg Wiltfang, Sureshan Sivananthan, Patrick Warnke

Qin Liu

Objectives: Hydroxyapatite (HA) and tricalcium phosphate (TCP) are two very common ceramic materials for bone replacement. A recently developed material for bone replacement is CeraBall®, which is a mixed HA-TCP scaffold available as porous spherical scaffolds of diameter 4 and 6 mm. Before their use as bone replacement materials in vivo, in vitro testing of these scaffolds is necessary. The goal of this study was to characterise 4 and 6 mm CeraBall® scaffolds in vitro with a view to their future use as bone replacement materials. Materials and methods: The proliferation of human mesenchymal stromal cells (hMSCs) seeded on CeraBall® …

Primordium Of An Artificial Bruch's Membrane Made Of Nanofibers For Engineering Of Retinal Pigment Epithelium Cell Monolayers, Patrick Warnke, Mohammad Alamein, Stuart Skabo, Sebastien Stephens, Robert Bourke, Peter Heiner, Qin Liu

Qin Liu

Transplanted Retinal Pigment Epithelium(RPE) cells hold promise for treatment of Age-related Macular Degeneration(AMD) and Stargardt Disease(SD), but it is conceivable that the degenerated host Bruch's membrane(BM) as a natural substrate for RPE might not optimally support transplanted cell survival with correct cellular organization. We fabricated novel ultrathin 3-dimensional(3D) nanofibrous membranes from Collagen type I and poly(lactic-co-glycolic acid) (PLGA) by an advanced clinical-grade needle-free-electrospinning process. The nanofibrillar 3D networks highly mimicked the fibrillar architecture of the native inner collagenous layer of human BM. Human RPE cells grown on our nanofibrous membranes bore striking resemblance to native human RPE. They exhibited a …

Proliferation Assessment Of Primary Human Mesenchymal Stem Cells On Collagen Membranes For Guided Bone Regeneration, Qin Liu, A. Humpe, D. Kletsas, F. Warnke, S. Becker, T. Douglas, S. Sivananthan, P. Warnke

Qin Liu

Purpose: Human mesenchymal stem cells (hMSCs) hold the potential for bone regeneration because of their self-renewing and multipotent character. The goal of this study was to evaluate the influence of collagen membranes on the proliferation of hMSCs derived from bone marrow. A special focus was set on short-term eluates derived from collagen membranes, as volatile toxic materials washed out from these membranes may influence cell behavior during the short time course of oral surgery.

Materials and Methods: The proliferation of hMSCs seeded directly on a collagen membrane (BioGide) was evaluated quantitatively using the cell proliferation reagent WST-1 (4-3-[4-iodophenyl]-2-[4-nitrophenyl]-2H-[5-tetrazolio]-1, …