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2. The role of single cell derived vascular resident endothelial progenitor cells in the enhancement of vascularization in scaffold-based skin regeneration

Author

Wulf D. Ito, Ursula Hopfner, Ziyang Zhang, Charli Kruse, Yves Harder, Björn Böhmert, Hans Günther Machens, Ann K. Reckhenrich, Natalie Lund, Mathias Kremer, José T. Egaña, and Publica

Subjects
Angiogenesis, Population, Biophysics, Mice, Nude, Neovascularization, Physiologic, Bioengineering, Biology, Biomaterials, Mice, Tissue engineering, Animals, Progenitor cell, Clonogenic assay, education, education.field_of_study, Tissue Engineering, Tissue Scaffolds, Guided Tissue Regeneration, Myocardium, Regeneration (biology), Endothelial Cells, Cell Differentiation, Dermis, Rats, Cell biology, Endothelial stem cell, Mechanics of Materials, Models, Animal, embryonic structures, Immunology, cardiovascular system, Ceramics and Composites, Blood Vessels, Stem cell, Cell Migration Assays, Stem Cell Transplantation, circulatory and respiratory physiology
Abstract

Increasing evidence suggests that vascular resident endothelial progenitor cells (VR-EPCs) are present in several organs, playing an important role in postnatal neovascularization. Here, we isolated and characterized VR-EPCs from cardiac tissue in vitro, evaluating their regenerative potential in vivo. VR-EPCs showed to be highly clonogenic and expressed several stem and differentiation markers. Under endothelial differentiation conditions, cells form capillary-like structures, in contrast to osteogenic or adipogenic differentiation conditions where no functional changes were observed. After seeding in scaffolds, cells were distributed homogeneously and directly attached to the scaffold. Then, cell seeded scaffolds were used to induce dermal regeneration in a nude mice full skin defect model. The presence of VR-EPCs enhanced dermal vascularization. Histological assays showed increased vessel number (p < 0.05) and cellularization (p < 0.05) in VR-EPCs group. In order to explore possible mechanisms of vascular regeneration, in vitro experiments were performed. Results showed that pro-angiogenic environments increased the migration capacity (p < 0.001) and ability to form capillary-like structures (p < 0.05) of VR-EPC. In addition, VR-EPCs secreted several pro-angiogenic molecules including VEGF and PDGF. These results indicate that a highly clonogenic population of VR-EPCs might be established in vitro, representing a new source for therapeutic vascularization in tissue engineering and regeneration.

Published
2011
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3. The use of glandular-derived stem cells to improve vascularization in scaffold-mediated dermal regeneration

Author

Sergio Lavandero, Hans-Günther Machens, Charli Kruse, Julian F. Dye, José T. Egaña, Daniel H. Rapoport, Sandra Danner, Mathias Kremer, Ursula Hopfner, and Jörn A. Lohmeyer

Subjects
Scaffold, Pathology, medicine.medical_specialty, Cell Survival, Cellular differentiation, Green Fluorescent Proteins, Biophysics, Biocompatible Materials, Bioengineering, Biology, Biomaterials, Mice, Tissue engineering, Dermis, In vivo, medicine, Animals, Regeneration, Skin, Tissue Engineering, Tissue Scaffolds, Stem Cells, Regeneration (biology), Cell Differentiation, Amniotic stem cells, Cell biology, Mice, Inbred C57BL, Drug Combinations, medicine.anatomical_structure, Mechanics of Materials, Ceramics and Composites, Blood Vessels, Proteoglycans, Collagen, Laminin, Stem cell
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
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4. Skin regeneration in deep second-degree scald injuries either by infusion pumping or topical application of recombinant human erythropoietin gel

Author

Priya, Giri, Sabine, Ebert, Ulf-Dietrich, Braumann, Mathias, Kremer, Shibashish, Giri, Hans-Günther, Machens, and Augustinus, Bader

Subjects
scald wound, Administration, Topical, Neovascularization, Physiologic, Epithelium, Mice, vascularization, Skin Physiological Phenomena, skin regeneration, Animals, Humans, Regeneration, re-epithelialization, Erythropoietin, Infusion Pumps, Original Research, Mice, Inbred BALB C, Wound Healing, segmentation, Recombinant Proteins, Rats, Mice, Inbred C57BL, Blood Vessels, Female, neovascularization, Burns, Gels
Abstract

Large doses of recombinant growth factors formulated in solution form directly injected into the body is usual clinical practice in treating second-degree scald injuries, with promising results, but this approach creates side effects; furthermore, it may not allow appropriate levels of the factor to be sensed by the target injured tissue/organ in the specific time frame, owing to complications arising from regeneration. In this research, two delivery methods (infusion pumping and local topical application) were applied to deliver recombinant human erythropoietin (rHuEPO) for skin regeneration. First, rHuEPO was given in deep second-degree scald injury sites in mice by infusion pump. Vascularization was remarkably higher in the rHuEPO pumping group than in controls. Second, local topical application of rHuEPO gel was given in deep second-degree scald injury sites in rats. Histological analysis showed that epithelialization rate was significantly higher in the rHuEPO gel-treated group than in controls. Immunohistochemical studies showed that the rHuEPO gel-treated group showed remarkably higher expression of skin regeneration makers than the control group. An accurate method for visualization and quantification of blood vessel networks in target areas has still not been developed up to this point, because of technical difficulties in detecting such thin blood vessels. A method which utilizes a series of steps to enhance the image, removes noise from image background, and tracks the vessels edges for vessel segmentation and quantification has been used in this study. Using image analysis methods, we were able to detect the microvascular networks of newly formed blood vessels (less than 500 μm thickness), which participate in the healing process, providing not only nutrition and oxygen to grow tissues but also necessary growth factors to grow tissue cells for complete skin regeneration. The rHuEPO-treated group showed higher expression of stem cell markers (CD 31, CD 90, CD 71, and nestin), which actively contribute to in-wound-healing processes for new hair follicle generation as well as skin regeneration. Collectively, both rHuEPO group pumping into the systemic circulation system, and injection into the local injury area, prompted mice and rats to form new blood vessel networks in scald injury sites, which significantly participate in the scald healing process. These results may lead to the development of novel treatments for scald wounds.

Published
2015

5. Familial fibronectin glomerulopathy: analysis of chromosome 1q32 and uteroglobin gene loci in a large New Zealand family

Author

Michael Watson, Stephen Dixon, Robert J. Walker, Friedhelm Hildebrant, Michael R. Eccles, Mathias Kremer, Paul F. Davis, Jim Reid, Beate M. Rüger, and Leslie A. McNoe

Subjects
Genetic heterogeneity, Locus (genetics), General Medicine, Biology, medicine.disease, Molecular biology, Fibronectin, Type IV collagen, Nephrology, Glomerulopathy, Uteroglobin, medicine, biology.protein, Nephrotic syndrome, Gene knockout
Abstract

SUMMARY: Recently, a newly recognized familial glomerulopathy with predominant fibronectin deposits has been reported. This is the first report of a family with this condition in Australasia and spans two generations over a 30-year period, with the histologically confirmed glomerulopathy present in the father and five out of eight siblings. The clinical presentations have ranged from asymptomatic proteinuria, pregnancy-associated proteinuria and the nephrotic syndrome to hypertension and proteinuria with progressive renal failure. The time-course from presentation to renal failure was over a 20 years. Histology demonstrated global and diffuse thickening of capillary loops, but no cellular proliferation. Immunofluorescence demonstrated granular positivity for IgM in the capillary loops only. Electron microscopy demonstrated massive electron-dense subendothelial granular deposits with occasional small fibrils and unremarkable epithelial cell foot processes. Immunohistochemical staining was strongly positive for fibronectin and negative for type I or type IV collagen and transforming growth factor b in all biopsies. Genetic studies of familial fibronectin glomerulopathy have recently highlighted two genetic loci. Firstly, a large five-generation pedigree has been described with linkage of fibronectin glomerulopathy to chromosome 1q32. Secondly, fibronectin glomerulopathy has been reported in uteroglobin gene knockout mice. In our studies, DNA sequence analysis of the uteroglobin gene showed that it was normal in all family members, and a DNA polymorphism in the uteroglobin gene did not co-segregate with the disease. In addition, DNA microsatellite markers at the 1q32 locus did not co-segregate with the disease in our family. We presume that the underlying abnormality involves as yet undefined glomerular extracellular matrix regulation and is inherited as an autosomal dominant condition. These data favour genetic heterogeneity for the aetiology of fibronectin glomerulopathy.

Published
2001
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7. Techniken zur postoperativen Überwachung der Gewebedurchblutung nach freier mikrovaskulärer Gewebetransplantation

Author

Peter Mailänder, H.-G. Machens, Mathias Kremer, R. Reimer, and A. Berger

Subjects
medicine.medical_specialty, business.industry, Flap failure, Blood flow, Anastomosis, medicine.disease, Thrombosis, Surgery, Technical performance, Tissue transplantation, medicine.anatomical_structure, Medicine, Orthopedics and Sports Medicine, Postoperative monitoring, business, Blood vessel
Abstract

Success rates after free tissue transplantation (FTT) have greatly improved over the last 20 years, partly due to improved technical performance of microvascular anastomoses with better optical and instrumental aids. However, flap failure is still a clinical problem and occurs in 5 to 10%, mainly due to blood vessel thrombosis within the first 24 postoperative hours. The clinical results after FTT can be optimized by in-time diagnosis of irreversibly compromised tissue blood flow and immediate operative reexploration. Therefore, there is a special demand for adequate and reliable postoperative monitoring techniques. This article reviews all monitoring techniques which have been performed in the experimental-clinical setting after FTT thus far.

Published
1999
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9. The use of human sweat gland-derived stem cells for enhancing vascularization during dermal regeneration

Author

Ann K. Reckhenrich, Ziyang Zhang, Charli Kruse, Tim Becker, Anna Emilia Petschnik, Sandra Danner, Hans-Günther Machens, Caroline Weber, Thilo L. Schenck, José T. Egaña, Mathias Kremer, Ursula Hopfner, Sabine Nagel, and Publica

Subjects
Pathology, medicine.medical_specialty, Cellular differentiation, Transplantation, Heterologous, Mice, Nude, Neovascularization, Physiologic, Dermatology, Biology, Regenerative medicine, Biochemistry, Article, Mice, Tissue engineering, Dermis, Sweat gland, medicine, Animals, Humans, Regeneration, Molecular Biology, integumentary system, Tissue Engineering, Tissue Scaffolds, Regeneration (biology), Stem Cells, Cell Differentiation, Cell Biology, 610 Medical sciences, Medicine, Cell biology, Sweat Glands, Transplantation, medicine.anatomical_structure, ddc: 610, Models, Animal, Collagen, Stem cell, Cell Division, Stem Cell Transplantation
Abstract

Vascularization is a key process in tissue engineering and regeneration and represents one of the most important issues in the field of regenerative medicine. Thus, several strategies to improve vascularization are currently under clinical evaluation. In the present study, stem cells derived from hu[for full text, please go to the a.m. URL], 49. Jahrestagung der Österreichischen Gesellschaft für Plastische, Ästhetische und Rekonstruktive Chirurgie (ÖGPÄRC), 42. Jahrestagung der Deutschen Gesellschaft der Plastischen, Rekonstruktiven und Ästhetischen Chirurgen (DGPRÄC), 16. Jahrestagung der Vereinigung der Deutschen Ästhetisch-Plastischen Chirurgen (VDÄPC)

Published
2011
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10. [Diagnosis of the deep partial-thickness burn wound of Skh-1 mouse with Optical Coherence Tomography]

Author

Shu-hua, Liu, Wei-guo, Xie, Mathias, Kremer, Hans Guenther, Machens, Eva Maria, Lankenau, and Gereon, Huettmann

Subjects
Disease Models, Animal, Mice, Wound Healing, Animals, Burns, Radionuclide Imaging, Tomography, Optical Coherence
Abstract

To evaluate the application value of Optical Coherence Tomography (OCT) in the diagnosis of the depth of burn wound.Deep partial-thickness scald models of Skh-1 mice were reproduced using self-made steam scald appliance. The scald wounds were scanned with OCT 3 hours, or 3 and 8 days after injury respectively. Scanned wound tissue was harvested for histological examination right after each episode of OCT imaging. Normal skin of mice was scanned and examined with the above-mentioned methods at the same time.Compared with those of the normal skin, collagen in the dermis was denatured after steam scald, and it was imaged as vanishing or reduction in birefringence in OCT detection. The structure change intensity was related to the pathological process of the wounds and consistent with the corresponding histological results.OCT is a noninvasive technique. It can be used to diagnose the depth of burn wound in real time.

Published
2010

11. Bioactivation of dermal scaffolds with a non-viral copolymer-protected gene vector

Author

Hans-Günther Machens, Florian Krötz, Ziyang Zhang, Mathias Kremer, Christian Plank, José T. Egaña, Christian Koch, Ursula Hopfner, and Ann K. Reckhenrich

Subjects
Vascular Endothelial Growth Factor A, Scaffold, Materials science, Angiogenesis, Polymers, Genetic Vectors, Biophysics, Mice, Nude, Bioengineering, Biomaterials, Mice, In vivo, Distribution (pharmacology), Animals, Nanotechnology, Gene, Skin, integumentary system, Tissue Engineering, Tissue Scaffolds, Regeneration (biology), 610 Medical sciences, Medicine, In vitro, Cell biology, ddc: 610, Mechanics of Materials, Ceramics and Composites, Microscopy, Electron, Scanning, NIH 3T3 Cells, Collagen, Wound healing, Biomedical engineering
Abstract

The use of scaffolds in skin tissue engineering is accompanied with low regeneration rates and high risk of infection. In this study, we activated an FDA-approved collagen scaffold for dermal regeneration by incorporation of copolymer-protected gene vectors (COPROGs) to induce a temporary release of[for full text, please go to the a.m. URL], 49. Jahrestagung der Österreichischen Gesellschaft für Plastische, Ästhetische und Rekonstruktive Chirurgie (ÖGPÄRC), 42. Jahrestagung der Deutschen Gesellschaft der Plastischen, Rekonstruktiven und Ästhetischen Chirurgen (DGPRÄC), 16. Jahrestagung der Vereinigung der Deutschen Ästhetisch-Plastischen Chirurgen (VDÄPC)

Published
2010

12. Ex vivo method to visualize and quantify vascular networks in native and tissue engineered skin

Author

Alexandru Paul Condurache, Hans-Günther Machens, B. Stöckelhuber, José T. Egaña, Mathias Kremer, Sergio Lavandero, and Jörn A. Lohmeyer

Subjects
Scaffold, Pathology, medicine.medical_specialty, genetic structures, Mice, Nude, Neovascularization, Physiologic, Transillumination, Microcirculation, Neovascularization, Mice, Tissue engineering, Image Processing, Computer-Assisted, medicine, Animals, Regeneration, Skin, Tissue Engineering, integumentary system, business.industry, Regeneration (biology), eye diseases, medicine.anatomical_structure, Blood Vessels, Female, Surgery, medicine.symptom, business, Software, Ex vivo, Blood vessel
Abstract

Neovascularization plays a pivotal role in tissue engineering and tissue regeneration. However, reliable technologies to visualize and quantify blood vessel networks in target tissue areas are still pending. In this work, we introduce a new method which allows comparing vascularization levels in normal and tissue-engineered skin. Normal skin was isolated, and vascular dermal regeneration was analyzed based on tissue transillumination and computerized digital segmentation. For tissue-engineered skin, a bilateral full skin defect was created in a nude mouse model and then covered with a commercially available scaffold for dermal regeneration. After 3 weeks, the whole skin (including scaffold for dermal regeneration) was harvested, and vascularization levels were analyzed. The blood vessel network in the skin was better visualized by transillumination than by radio-angiographic studies, the gold standard for angiographies. After visualization, the whole vascular network was digitally segmented showing an excellent overlapping with the original pictures. Quantification over the digitally segmented picture was performed, and an index of vascularization area (VAI) and length (VLI) of the vessel network was obtained in target tissues. VAI/VLI ratio was calculated to obtain the vessel size index. We present a new technique which has several advantages compared to others, as animals do not require intravascular perfusions, total areas of interest can be quantitatively analyzed at once, and the same target tissue can be processed for further experimental analysis.

Published
2008

13. Skin regeneration with conical and hair follicle structure of deep second-degree scalding injuries via combined expression of the EPO receptor and beta common receptor by local subcutaneous injection of nanosized rhEPO

Author

Dagmar U Smith, Mathias Kremer, Augustinus Bader, Shibashish Giri, Shu-hua Liu, Andreas G. Nerlich, Christina Irene Günter, Sabine Ebert, and Hans-Günther Machens

Subjects
local injection, receptor, Pharmaceutical Science, Pharmacology, Mice, Subcutaneous injection, International Journal of Nanomedicine, Drug Discovery, Receptors, Erythropoietin, Receptor, Original Research, Skin, Mice, Inbred BALB C, integumentary system, Histocytochemistry, Reverse Transcriptase Polymerase Chain Reaction, General Medicine, Recombinant Proteins, medicine.anatomical_structure, Female, Hair Follicle, medicine.drug, Injections, Subcutaneous, Biophysics, nanosize, Bioengineering, Biomaterials, burns, Scalding, medicine, Animals, Humans, Erythropoietin, common β subunit, Wound Healing, business.industry, Gene Expression Profiling, Regeneration (biology), Organic Chemistry, Receptors, Somatotropin, medicine.disease, Hair follicle, Erythropoietin receptor, Protein Subunits, Immunology, Nanoparticles, Epidermis, Wound healing, business
Abstract

Augustinus Bader1, Sabine Ebert1, Shibashish Giri1, Mathias Kremer2, Shuhua Liu2, Andreas Nerlich5, Christina I Günter³, Dagmar U Smith4, Hans-Günther Machens2,31Department of Applied Stem Cell Biology and Cell Techniques, Centre for Biotechnology and Biomedicine, University of Leipzig, Leipzieg, 2Department of Plastic and Hand Surgery, University of Lübeck, Lübeck, 3Department of Plastic and Hand Surgery, Technische Universität München, Munich, 4Münchner Studienzentrum, Technische Universität München, Munich, 5Institute of Pathology, Klinikum München-Bogenhausen, Munich, GermanyBackground: Acceleration of skin regeneration is still an unsolved problem in the clinical treatment of patients suffering from deep burns and scalds. Although erythropoietin (EPO) has a protective role in a wide range of organs and cells during ischemia and after trauma, it has been recently discovered that EPO is not tissue-protective in the common β subunit receptor (βCR) knockout mouse. The protective capacity of EPO in tissue is mediated via a heteroreceptor complex comprising both the erythropoietin receptor (EPOR) and βCR. However, proof of coexpression of these heterogenic receptors in regenerating skin after burns is still lacking.Methods: To understand the role of nanosized recombinant human erythropoietin (rhEPO) in wound healing, we investigated the effects of subcutaneous injections of EPO on skin regeneration after deep second-degree scalding injuries. Our aim was to determine if joint expression of EPOR and βCR is a prerequisite for the tissue-protective effect of rhEPO. The efficiency in wound regeneration in a skin scalding injury mouse model was examined. A deep second-degree dermal scald injury was produced on the backs of 20 female Balb/c mice which were subsequently randomized to four experimental groups, two of which received daily subcutaneous injections of rhEPO. At days 7 and 14, the mice were sacrificed and the effects of rhEPO were analyzed with respect to grade of re-epithelialization (wound closure) and stage of epidermal maturation. This was investigated using different histological parameters of epithelial covering, such as depth of the epidermal layer, epidermal stratification, and presence of conical and hair follicle structures.Results: Expression of EPOR, βCR, and growth hormone receptor at the mRNA and protein levels was demonstrated with reverse transcriptase polymerase chain reaction and Western blot analysis. After rhEPO treatment, the rate of re-epithelialization of the scalding injury was increased and the time to final wound closure was reduced. In addition, the quality of regenerated skin was improved. In this investigation, for the first time, we demonstrated coexpression of EPOR and βCR at the RNA and protein levels in vivo using a deep second-degree scalding injury mouse model. These results highlight the potential role of rhEPO in the improved treatment of burns patients, which might be crucial for the development of innovative new therapy regimes.Conclusion: Local injection of nanosized rhEPO directly to the injury site rather than systemic administration for deep second-degree scalding injuries achieved complete skin regeneration with conical and hair follicle structure via combined expression of EPOR and βCR.Keywords: burns, nanosize, common β subunit, erythropoietin, receptor, local injection

Published
2012
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