Your search keyword '"Rapoport DH"' showing total 17 results

1. De novo significant role of Pancreas-derived stem cells in the in vivo epidermalization of skin wounds

Author

Salem, H, Ciba, P, Egana, JT, Rapoport, DH, Kadry, M, Reithmayer, K, Kruse, C, Machens, HG, Salem, H, Ciba, P, Egana, JT, Rapoport, DH, Kadry, M, Reithmayer, K, Kruse, C, and Machens, HG

Published

2009

2. New cell line from adipopancreatic tissue of Atlantic herring Clupea harengus

Author

Langner, S, primary, Rakers, S, additional, Ciba, P, additional, Petschnik, AE, additional, Rapoport, DH, additional, and Kruse, C, additional

Published

2011

3. Method for simultaneous tracking of thousands of unlabeled cells within a transparent 3D matrix.

Author

Nette F, Guerra de Souza AC, Laskay T, Ohms M, Dömer D, Drömann D, and Rapoport DH

Subjects

Collagen, Humans, Inflammation, N-Formylmethionine Leucyl-Phenylalanine pharmacology, Chemotaxis, Neutrophils

Abstract

Three-dimensional tracking of cells is one of the most powerful methods to investigate multicellular phenomena, such as ontogenesis, tumor formation or wound healing. However, 3D tracking in a biological environment usually requires fluorescent labeling of the cells and elaborate equipment, such as automated light sheet or confocal microscopy. Here we present a simple method for 3D tracking large numbers of unlabeled cells in a collagen matrix. Using a small lensless imaging setup, consisting of an LED and a photo sensor only, we were able to simultaneously track ~3000 human neutrophil granulocytes in a collagen droplet within an unusually large field of view (>50 mm2) at a time resolution of 4 seconds and a spatial resolution of ~1.5 μm in xy- and ~30 μm in z-direction. The setup, which is small enough to fit into any conventional incubator, was used to investigate chemotaxis towards interleukin-8 (IL-8 or CXCL8) and N-formylmethionyl-leucyl-phenylalanine (fMLP). The influence of varying stiffness and pore size of the embedding collagen matrix could also be quantified. Furthermore, we demonstrate our setup to be capable of telling apart healthy neutrophils from those where a condition of inflammation was (I) induced by exposure to lipopolysaccharide (LPS) and (II) caused by a pre-existing asthma condition. Over the course of our experiments we have tracked more than 420.000 cells. The large cell numbers increase statistical relevance to not only quantify cellular behavior in research, but to make it suitable for future diagnostic applications, too., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

4. LPS-Stimulated Human Skin-Derived Stem Cells Enhance Neo-Vascularization during Dermal Regeneration.

Author

Kisch T, Weber C, Rapoport DH, Kruse C, Schumann S, Stang FH, Siemers F, and Matthießen AE

Subjects

Animals, Biopsy, Cell Culture Techniques, Cell Differentiation, Cells, Cultured, Collagen chemistry, Culture Media, Conditioned chemistry, Humans, Inflammation, Lipopolysaccharides chemistry, Mice, Mice, Nude, Neovascularization, Physiologic, Skin cytology, Skin, Artificial, Tissue Scaffolds, Wound Healing, Regeneration physiology, Skin blood supply, Skin pathology, Skin Physiological Phenomena, Stem Cells cytology, Tissue Engineering methods

Abstract

High numbers of adult stem cells are still required to improve the formation of new vessels in scaffolds to accelerate dermal regeneration. Recent data indicate a benefit for vascularization capacity by stimulating stem cells with lipopolysaccharide (LPS). In this study, stem cells derived from human skin (SDSC) were activated with LPS and seeded in a commercially available dermal substitute to examine vascularization in vivo. Besides, in vitro assays were performed to evaluate angiogenic factor release and tube formation ability. Results showed that LPS-activated SDSC significantly enhanced vascularization of the scaffolds, compared to unstimulated stem cells in vivo. Further, in vitro assays confirmed higher secretion rates of proangiogenic as well as proinflammatoric factors in the presence of LPS-activated SDSC. Our results suggest that combining activated stem cells and a dermal substitute is a promising option to enhance vascularization in scaffold-mediated dermal regeneration.

Published

2015

5. A simple implantation method for flexible, multisite microelectrodes into rat brains.

Author

Richter A, Xie Y, Schumacher A, Löffler S, Kirch RD, Al-Hasani J, Rapoport DH, Kruse C, Moser A, Tronnier V, Danner S, and Hofmann UG

Abstract

A long term functional and reliable coupling between neural tissue and implanted microelectrodes is the key issue in acquiring neural electrophysiological signals or therapeutically excite neural tissue. The currently often used rigid micro-electrodes are thought to cause a severe foreign body reaction resulting in a thick glial scar and consequently a poor tissue-electrode coupling in the chronic phase. We hypothesize, that this adverse effect might be remedied by probes compliant to the soft brain tissue, i.e., replacing rigid electrodes by flexible ones. Unfortunately, this flexibility comes at the price of a low stiffness, which makes targeted low trauma implantation very challenging. In this study, we demonstrate an adaptable and simple method to implant extremely flexible microprobes even to deep areas of rat's brain. Implantation of flexible probes is achieved by rod supported stereotactic insertion fostered by a hydrogel (2% agarose in PBS) cushion on the exposed skull. We were thus able to implant very flexible micro-probes in 70 rats as deep as the rodent's subthalamic nucleus. This work describes in detail the procedures and steps needed for minimal invasive, but reliable implantation of flexible probes.

Published

2013

6. Photonic crystal slabs for surface contrast enhancement in microscopy of transparent objects.

Author

Nazirizadeh Y, Becker T, Reverey J, Selhuber-Unkel C, Rapoport DH, Lemmer U, and Gerken M

Subjects

Equipment Design, Equipment Failure Analysis, Photons, Reproducibility of Results, Sensitivity and Specificity, Image Enhancement instrumentation, Microscopy, Phase-Contrast instrumentation, Specimen Handling instrumentation

Abstract

In optical microscopy the contrast of transparent objects achieved with conventional methods is often not satisfactory, for example for the automated recognition of cells. In this paper we present a nano-optical label-free approach for contrast enhancement based on photonic crystal slabs (PCS) as the specimen holder. Quasi-guided modes inside these structures cause an intrinsic color of the PCS, which strongly depends on the wavelength and the quality factor of the optical mode. Objects on the surface of the PCS experience a significant color and intensity contrast enhancement, as they change properties of the optical modes.

Published

2012

7. A novel validation algorithm allows for automated cell tracking and the extraction of biologically meaningful parameters.

Author

Rapoport DH, Becker T, Madany Mamlouk A, Schicktanz S, and Kruse C

Subjects

Animals, Automation, Laboratory, Cell Cycle, Cell Movement, Cell Shape, Databases, Factual, Methods, Mitosis, Pancreas cytology, Rats, Stem Cells cytology, Algorithms, Cytological Techniques methods, Microscopy methods, Validation Studies as Topic

Abstract

Automated microscopy is currently the only method to non-invasively and label-free observe complex multi-cellular processes, such as cell migration, cell cycle, and cell differentiation. Extracting biological information from a time-series of micrographs requires each cell to be recognized and followed through sequential microscopic snapshots. Although recent attempts to automatize this process resulted in ever improving cell detection rates, manual identification of identical cells is still the most reliable technique. However, its tedious and subjective nature prevented tracking from becoming a standardized tool for the investigation of cell cultures. Here, we present a novel method to accomplish automated cell tracking with a reliability comparable to manual tracking. Previously, automated cell tracking could not rival the reliability of manual tracking because, in contrast to the human way of solving this task, none of the algorithms had an independent quality control mechanism; they missed validation. Thus, instead of trying to improve the cell detection or tracking rates, we proceeded from the idea to automatically inspect the tracking results and accept only those of high trustworthiness, while rejecting all other results. This validation algorithm works independently of the quality of cell detection and tracking through a systematic search for tracking errors. It is based only on very general assumptions about the spatiotemporal contiguity of cell paths. While traditional tracking often aims to yield genealogic information about single cells, the natural outcome of a validated cell tracking algorithm turns out to be a set of complete, but often unconnected cell paths, i.e. records of cells from mitosis to mitosis. This is a consequence of the fact that the validation algorithm takes complete paths as the unit of rejection/acceptance. The resulting set of complete paths can be used to automatically extract important biological parameters with high reliability and statistical significance. These include the distribution of life/cycle times and cell areas, as well as of the symmetry of cell divisions and motion analyses. The new algorithm thus allows for the quantification and parameterization of cell culture with unprecedented accuracy. To evaluate our validation algorithm, two large reference data sets were manually created. These data sets comprise more than 320,000 unstained adult pancreatic stem cells from rat, including 2592 mitotic events. The reference data sets specify every cell position and shape, and assign each cell to the correct branch of its genealogic tree. We provide these reference data sets for free use by others as a benchmark for the future improvement of automated tracking methods.

Published

2011

8. Monitoring adult stem cell response on superparamagnetic iron oxide nanoparticles for cancer therapy.

Author

Schneider D, Rapoport DH, and Lüdtke-Buzug K

Published

2010

9. Isolation and in vitro cultivation turns cells from exocrine human pancreas into multipotent stem-cells.

Author

Rapoport DH, Schicktanz S, Gürleyik E, Zühlke C, and Kruse C

Subjects

Adult, Biomarkers analysis, Biopsy, Cell Culture Techniques methods, Cell Differentiation physiology, Cell Division physiology, Cell Separation methods, Cell Survival physiology, Chromosome Banding methods, Humans, Immunohistochemistry methods, Kinetics, Male, Middle Aged, Pancreas, Exocrine drug effects, Pancreas, Exocrine pathology, Pancreatic Neoplasms surgery, Pluripotent Stem Cells drug effects, Trypsin pharmacology, Pancreas, Exocrine cytology, Pancreatic Neoplasms pathology, Pluripotent Stem Cells cytology

Abstract

Several research groups have reported on the existence and in vitro characterization of multipotent stem-cells from the pancreas. However, the origin of these cells remains largely unexplained. Here, we report that in vitro culturing itself can turn adult cells from human exocrine pancreas into a cell population with typical stem cell characteristics. A simple, yet reliable method enabled us to track cell fates: Combining automated continuous observation using time-lapse microscopy with immunocytochemical analyses, we found that a significant fraction of the pancreatic cells ( approximately 14%) can survive trypsination and displays a drastic change in the protein expression profile. After further cultivation, these cells give rise to a heterogeneous cell population with typical multipotent stem cell characteristics; i.e. they proliferate over long time periods and continuously give rise to specialized cells from at least two germ layers. Although we cannot exclude that a rare pre-existing stem cell-type also contributes to the final in vitro-population, the majority of cells must have been arisen from mature pancreatic cells. Our findings indicate that multipotent cells for regenerative medicine, instead of being laboriously isolated, can be generated in large amounts by in vitro de-differentiation.

Published

2009

10. The use of glandular-derived stem cells to improve vascularization in scaffold-mediated dermal regeneration.

Author

Egaña JT, Danner S, Kremer M, Rapoport DH, Lohmeyer JA, Dye JF, Hopfner U, Lavandero S, Kruse C, and Machens HG

Subjects

Animals, Blood Vessels pathology, Cell Differentiation, Cell Survival, Collagen chemistry, Dermis pathology, Drug Combinations, Green Fluorescent Proteins chemistry, Laminin chemistry, Mice, Mice, Inbred C57BL, Proteoglycans chemistry, Skin metabolism, Tissue Engineering methods, Biocompatible Materials chemistry, Regeneration, Skin pathology, Stem Cells cytology, Tissue Scaffolds

Abstract

Clinical success in tissue regeneration requires improvements in vascularization capacity of scaffolds. Several efforts have been made in this field including cellular and acellular technologies. In this work we combined the use of stem cells derived from pancreas or submandibular glands expressing green fluorescent protein (GFP(+)) with a commercially available scaffold for dermal regeneration. Cells were isolated, characterized and seeded in a scaffold for dermal regeneration. Scaffolds containing cells were used to induce dermal regeneration in a full skin defect model. After 3 weeks of in vivo regeneration, tissues were harvested and vascularization was analyzed. Results showed that gland-derived stem cells displayed stem cell features and presented multipotential differentiation capacity because they were able to differentiate in cell types representing the 3 different germ layers. After seeding, cells were homogeneously distributed and formed focal adhesions with the scaffold. Metabolic assays showed that cells can be cultured for at least 3 weeks in the scaffold. In vivo, the presence of pancreatic or submandibular stem cells significantly enhanced the vascularization compared to empty scaffolds. Presence of gland-derived stem cells in the regenerating tissue was confirmed by the detection of GFP expression in the wound area. In order to explore the possible mechanisms behind the improvement in vascular regeneration, in vitro experiments were performed, showing that gland-derived stem cells could contribute by angiogenic and vasculogenic mechanisms to this process. Our results suggest that the combined use of stem cells derived from glands and scaffold for dermal regeneration could be a rational alternative to improve vascularization in scaffold-mediated dermal regeneration.

Published

2009

11. Cryobanking of viable biomaterials: implementation of new strategies for conservation purposes.

Author

Lermen D, Blömeke B, Browne R, Clarke A, Dyce PW, Fixemer T, Fuhr GR, Holt WV, Jewgenow K, Lloyd RE, Lötters S, Paulus M, Reid GM, Rapoport DH, Rawson D, Ringleb J, Ryder OA, Spörl G, Schmitt T, Veith M, and Müller P

Subjects

Amphibians, Animals, Biodiversity, Biocompatible Materials, Conservation of Natural Resources methods, Cryopreservation methods

Abstract

Cryobanking, the freezing of biological specimens to maintain their integrity for a variety of anticipated and unanticipated uses, offers unique opportunities to advance the basic knowledge of biological systems and their evolution. Notably, cryobanking provides a crucial opportunity to support conservation efforts for endangered species. Historically, cryobanking has been developed mostly in response to human economic and medical needs - these needs must now be extended to biodiversity conservation. Reproduction technologies utilizing cryobanked gametes, embryos and somatic cells are already vital components of endangered species recovery efforts. Advances in modern biological research (e.g. stem cell research, genomics and proteomics) are already drawing heavily on cryobanked specimens, and future needs are anticipated to be immense. The challenges of developing and applying cryobanking for a broader diversity of species were addressed at an international conference held at Trier University (Germany) in June 2008. However, the magnitude of the potential benefits of cryobanking stood in stark contrast to the lack of substantial resources available for this area of strategic interest for biological science - and society at large. The meeting at Trier established a foundation for a strong global incentive to cryobank threatened species. The establishment of an Amphibian Ark cryobanking programme offers the first opportunity for global cooperation to achieve the cryobanking of the threatened species from an entire vertebrate class.

Published

2009

12. The influence of pancreas-derived stem cells on scaffold based skin regeneration.

Author

Salem H, Ciba P, Rapoport DH, Egana JT, Reithmayer K, Kadry M, Machens HG, and Kruse C

Subjects

Animals, Immunohistochemistry, Male, Mice, Mice, Nude, Rats, Pancreas cytology, Stem Cells cytology, Tissue Engineering methods, Wound Healing physiology

Abstract

It has been shown that Pancreatic Stem Cells (PSCs) share many features with skin stem cells. Yet, their potential role in skin regeneration remains to be elucidated. 5x10(5) PSCs from male Rattus norwegicus were seeded on Matriderm scaffold overnight. Cells survival and proliferation were then tested in vitro showing the survival of the cells and their homogenous distribution in the scaffolds. Afterwards, scaffolds were used to replace bilateral full-thickness skin wounds made on the dorsum of Nu/Nu mice. A control group of nude mice received the Matriderm scaffolds without cells. Two weeks after transplantation, wound areas were harvested and analyzed with respect to epithelialization, vascularization and wound closure. The healing area and regeneration rate were significantly increased in the group used the PSCs-seeded scaffolds (factor of 2.1). Vascularization rate showed a significant increase in the PSCs-seeded scaffolds(factor of 1.5). Morphology and immunohistochemistry showed new skin-like structures positive to epidermal markers in the healing wound bed. PSCs were detected in the regenerated tissues. This study showed that the combined use of PSCs with the Matriderm as a scaffold for dermal regeneration significantly increased the epidermalization, vascularization and healing in full-thickness wounds.

Published

2009

13. Towards a pragmatic strategy for regenerating infarcted myocardium with glandular stem cells.

Author

Maass A, Kajahn J, Guerleyik E, Guldner NW, Rapoport DH, and Kruse C

Subjects

Animals, Cell Differentiation, Cell Division, Coculture Techniques methods, Culture Media, Conditioned, Disease Models, Animal, Goats, Humans, Male, Pilot Projects, Rats, Rats, Sprague-Dawley, Salivary Glands physiology, Species Specificity, Submandibular Gland physiology, Myocardial Infarction physiopathology, Myocardial Infarction surgery, Regeneration physiology, Salivary Glands cytology, Stem Cell Transplantation methods, Stem Cells cytology, Stem Cells physiology, Submandibular Gland cytology

Abstract

We have recently reported that the in vitro differentiation of human glandular stem cells into cardiac-like cells can be enhanced by co-culture with small myocardial biopsies. These results suggest that implantation of such cells directly into infarcted myocardium may facilitate the regeneration of the heart. As a preliminary to testing this approach in a goat model, pilot in vitro tests for these experiments have been performed and are presented here. Stem cells, isolated from the glandula submandibularis of Boer goats (SuSCs), have been co-cultured either directly or indirectly with heart biopsies from various species (Boer goat, rattus norwegicus, human) or heart conditioned medium for 48h. We found a substantial increase in the number of cells expressing heart-specific marker proteins (Troponin I, Troponin T, sarcomeric myosin) regardless of the source organism of the heart biopsy. The proliferation of SuSCs also increased significantly under co-culture conditions. To benefit from these results in vivo, the stem cells must be delivered to the infarcted region in the heart and held securely in place over lengthy periods of time. Therefore, we repeated the co-culture experiments with SuSCs grown on biodegradable Vicryl-meshes. The cells demonstrated good proliferation on the meshes and likewise, the expression of heart-specific marker proteins could be enhanced through co-culture with heart biopsies.

Published

2009

14. Glandular stem cells are a promising source for much more than beta-cell replacement.

Author

Rapoport DH, Danner S, and Kruse C

Subjects

Adult, Animals, Biotechnology methods, Biotechnology trends, Birds, Cryopreservation methods, Embryonic Stem Cells cytology, Embryonic Stem Cells physiology, Exocrine Glands cytology, Exocrine Glands physiology, Fishes, Humans, Pancreas physiology, Salivary Glands physiology, Stem Cell Transplantation trends, Stem Cells physiology, Tissue Banks organization & administration, Vertebrates, Insulin-Secreting Cells cytology, Insulin-Secreting Cells physiology, Pancreas cytology, Salivary Glands cytology, Stem Cell Transplantation methods, Stem Cells cytology

Abstract

Glandular stem cells (GSCs) can be obtained from exocrine glands such as pancreas or salivary glands using well-established cell culturing methods. The resulting cell populations are characterized by a high proliferative capacity and an unusually high plasticity. Cells from pancreas have been demonstrated to differentiate into a multitude of cell types and even into oocyte-like cells. It has been found that the preparation method for GSCs can be applied to many vertebrates, including fishes and birds. Since the cells are excellently cryopreservable, this finding has been utilized to establish a new stem cell bank for preserving living cells of rare and wild animals. Apart from these advances, this mini-review also points out that GSCs from pancreas must not be confused with beta-cell progenitors but constitute a distinct cell type.

Published

2009

15. How will physician extenders affect our need for physicians?

Author

Simmons HJ 3rd and Rapoport DH

Subjects

Humans, United States, Physician Assistants statistics & numerical data, Physicians supply & distribution

Published

2007

16. Updated planning needed to address physician shortages.

Author

Simmons HJ 3rd, Harrison RS, and Rapoport DH

Subjects

Health Services Needs and Demand, Humans, United States, Health Planning organization & administration, Health Workforce, Medically Underserved Area, Physicians supply & distribution, Specialization

Published

2007

17. Adult pancreatic stem/progenitor cells spontaneously differentiate in vitro into multiple cell lineages and form teratoma-like structures.

Author

Kruse C, Kajahn J, Petschnik AE, Maass A, Klink E, Rapoport DH, and Wedel T

Subjects

Actins biosynthesis, Animals, Cell Culture Techniques, Cell Differentiation, Clone Cells, Male, Rats, Rats, Sprague-Dawley, Reverse Transcriptase Polymerase Chain Reaction, Stem Cells drug effects, Tretinoin pharmacology, Pancreas cytology, Stem Cells cytology, Teratoma pathology

Abstract

Cells isolated from pancreas have a remarkable potential for self-renewal and multilineage differentiation. We here present a comprehensive characterisation of stem/progenitor cells derived from exocrine parts of the adult rat pancreas. Using purified cells from either single colonies or even single-cell clones, we specifically demonstrate: (i) the cells contain the typical stem/progenitor cell markers alkaline phophatase, SSEA-1, Oct-4, CD9, Nestin, Pax6, CD44, a-Fetoprotein and Brachyury, demonstrated by immunocytochemistry and RT-PCR; (ii) the cells have the potential to differentiate into lineages of all three germ layers in vitro; (iii) a clonal analysis revealed that even cell lines derived from a single cell have stem/progenitor cell properties such as self-renewal and spontaneous differentiation into various cell lineages; (iv) the cells have the propensity to form three-dimensional, teratoma-like structures in vitro, which contain cells of different lineages; and (v) external stimuli can activate the generation of certain cell types. For instance, cells treated with retinoic acid show an increased expression of alpha-smooth muscle actin. These results suggest that exocrine glands, such as pancreas may be a potential source of adult stem/progenitor cells, suitable for cell therapy of degenerative diseases.

Published

2006