Your search keyword '"Holter M"' showing total 3 results

1. Correction to: Skin regeneration is accelerated by a lower dose of multipotent mesenchymal stromal/ stem cells-a paradigm change.

Author

Eylert G, Dolp R, Parousis A, Cheng R, Auger C, Holter M, Lang-Olip I, Reiner V, Kamolz LP, and Jeschke MG

Published

2021

2. Skin regeneration is accelerated by a lower dose of multipotent mesenchymal stromal/stem cells-a paradigm change.

Author

Eylert G, Dolp R, Parousis A, Cheng R, Auger C, Holter M, Lang-Olip I, Reiner V, Kamolz LP, and Jeschke MG

Subjects

Animals, Skin, Swine, Umbilical Cord, Wound Healing, Burns, Mesenchymal Stem Cell Transplantation, Mesenchymal Stem Cells

Abstract

Background: Multipotent mesenchymal stromal/stem cell (MSC) therapy is under investigation in promising (pre-)clinical trials for wound healing, which is crucial for survival; however, the optimal cell dosage remains unknown. The aim was to investigate the efficacy of different low-to-high MSC dosages incorporated in a biodegradable collagen-based dermal regeneration template (DRT) Integra®., Methods: We conducted a porcine study (N = 8 Yorkshire pigs) and seeded between 200 and 2,000,000 cells/cm 2 of umbilical cord mesenchymal stromal/stem cells on the DRT and grafted it onto full-thickness burn excised wounds. On day 28, comparisons were made between the different low-to-high cell dose groups, the acellular control, a burn wound, and healthy skin., Result: We found that the low dose range between 200 and 40,000 cells/cm 2 regenerates the full-thickness burn excised wounds most efficaciously, followed by the middle dose range of 200,000-400,000 cells/cm 2 and a high dose of 2,000,000 cells/cm 2 . The low dose of 40,000 cells/cm 2 accelerated reepithelialization, reduced scarring, regenerated epidermal thickness superiorly, enhanced neovascularization, reduced fibrosis, and reduced type 1 and type 2 macrophages compared to other cell dosages and the acellular control., Conclusion: This regenerative cell therapy study using MSCs shows efficacy toward a low dose, which changes the paradigm that more cells lead to better wound healing outcome.

Published

2021

3. Plasma proteins facilitates placental transfer of polystyrene particles.

Author

Gruber MM, Hirschmugl B, Berger N, Holter M, Radulović S, Leitinger G, Liesinger L, Berghold A, Roblegg E, Birner-Gruenberger R, Bjelic-Radisic V, and Wadsack C

Subjects

Blood Proteins metabolism, Female, Humans, Immunoglobulin G, Immunoglobulins, Particle Size, Perfusion, Pregnancy, Serum Albumin, Bovine, Serum Albumin, Human metabolism, Serum Globulins, Nanoparticles chemistry, Placenta metabolism, Polystyrenes chemistry, Polystyrenes metabolism, Protein Corona metabolism

Abstract

Background: Nanoparticles, which are exposed to biological fluids are rapidly interacting with proteins and other biomolecules forming a corona. In addition to dimension, charge and material the distinct protein corona influences the interplay of nanoparticles with tissue barriers. In this study we were focused on the impact of in situ formed human plasma protein corona on the transfer of 80 nm polystyrene nanoparticles (PS-particles) across the human placenta. To study materno-to fetal PS transfer we used the human ex vivo placental perfusion approach, which represents an intact and physiological tissue barrier. To analyze the protein corona of PS particles we performed shotgun proteomics of isolated nanoparticles before and after tissue exposure., Results: Human plasma incubated with PS-particles of 80 nm and subsequent formed protein corona enhanced the transfer across the human placenta compared to PS-corona formed by bovine serum albumin and dextran which served as a control. Quantitative and qualitative changes of plasma proteins determined the changes in PS transfer across the barrier. Based on the analysis of the PS-proteome two candidate proteins, namely human albumin and immunoglobulin G were tested if these proteins may account for the enhanced PS-transfer across the placenta. Interestingly, the protein corona formed by human albumin significantly induced the transfer of PS-particles across the tissue compared to the formed IgG-corona., Conclusion: In total we demonstrate the PS corona dynamically and significantly evolves upon crossing the human placenta. Thus, the initial composition of PS particles in the maternal circulation is not predictive for their transfer characteristics and performance once beyond the barrier of the placenta. The precise mechanism of these effects remains to be elucidated but highlights the importance of using well designed biological models when testing nanoparticles for biomedical applications.

Published

2020