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2. Human amniotic membrane as newly identified source of amniotic fluid pulmonary surfactant

Author

Angela Lemke, José Carlos Castillo-Sánchez, Florian Prodinger, Asja Ceranic, Simone Hennerbichler-Lugscheider, Jesús Pérez-Gil, Heinz Redl, and Susanne Wolbank

Subjects
Medicine, Science
Abstract

Abstract Pulmonary surfactant (PS) reduces surface tension at the air-liquid interface in the alveolar epithelium of the lung, which is required for breathing and for the pulmonary maturity of the developing foetus. However, the origin of PS had never been thoroughly investigated, although it was assumed to be secreted from the foetal developing lung. Human amniotic membrane (hAM), particularly its epithelial cell layer, composes the amniotic sac enclosing the amniotic fluid. In this study, we therefore aimed to investigate a potential contribution of the cellular components of the hAM to pulmonary surfactant found in amniotic fluid. We identified that cells within the native membrane contain lamellar bodies and express all four surfactant proteins as well as ABCA3. Lipidomic profiling by nanoESI – MS/MS revealed the presence of the essential lipid species as found in PS. Also, the biophysical activity of conditioned cell culture supernatant obtained from hAM was tested with captive bubble surfactometry. hAM supernatant showed the ability to reduce surface tension, similar to human PS obtained from bronchoalveolar lavage. This means that hAM produces the essential PS-associated components and can therefore contribute as second potential source of PS in amniotic fluid aside from the foetal lung.

Published
2017
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3. Cellular and Site-Specific Mitochondrial Characterization of Vital Human Amniotic Membrane

Author

Asmita Banerjee, Andrea Lindenmair, Simone Hennerbichler, Philipp Steindorf, Ralf Steinborn, Andrey V. Kozlov, Heinz Redl, Susanne Wolbank, and Adelheid Weidinger

Subjects
Medicine
Abstract

Over a century ago, clinicians started to use the human amniotic membrane for coverage of wounds and burn injuries. To date, literally thousands of different clinical applications exist for this biomaterial almost exclusively in a decellularized or denuded form. Recent reconsiderations for the use of vital human amniotic membrane for clinical applications would take advantage of the versatile cells of embryonic origin including the entirety of their cell organelles. Recently, more and more evidence was found, showing mitochondria to be involved in most fundamental cellular processes, such as differentiation and cell death. In this study, we focused on specific properties of mitochondria of vital human amniotic membrane and characterized bioenergetical parameters of 2 subregions of the human amniotic membrane, the placental and reflected amnion. We found significantly different levels of adenosine triphosphate (ATP) and extracellular reactive oxygen species, concentrations of succinate dehydrogenase, and lactate upon inhibition of ATP synthase in placental and reflected amnion. We also found significantly different rates of mitochondrial respiration in isolated human amniotic epithelial cells and human amniotic mesenchymal stromal cells, according to the subregions. Differences in metabolic activities were inversely related to mitochondrial DNA copy numbers in isolated cells of placental and reflected amnion. Based on significant differences of several key parameters of energy metabolism in 2 subregions of vital amnion, we propose that these metabolic differences of vital placental and reflected amnion could have critical impact on therapeutic applications. Inclusion of region-specific metabolic properties could optimize and fine-tune the clinical application of the human amniotic membrane and improve the outcome significantly.

Published
2018
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4. Oxygen Tension Strongly Influences Metabolic Parameters and the Release of Interleukin-6 of Human Amniotic Mesenchymal Stromal Cells In Vitro

Author

Asmita Banerjee, Andrea Lindenmair, Ralf Steinborn, Sergiu Dan Dumitrescu, Simone Hennerbichler, Andrey V. Kozlov, Heinz Redl, Susanne Wolbank, and Adelheid Weidinger

Subjects
Internal medicine, RC31-1245
Abstract

The human amniotic membrane (hAM) has been used for tissue regeneration for over a century. In vivo (in utero), cells of the hAM are exposed to low oxygen tension (1–4% oxygen), while the hAM is usually cultured in atmospheric, meaning high, oxygen tension (20% oxygen). We tested the influence of oxygen tensions on mitochondrial and inflammatory parameters of human amniotic mesenchymal stromal cells (hAMSCs). Freshly isolated hAMSCs were incubated for 4 days at 5% and 20% oxygen. We found 20% oxygen to strongly increase mitochondrial oxidative phosphorylation, especially in placental amniotic cells. Oxygen tension did not impact levels of reactive oxygen species (ROS); however, placental amniotic cells showed lower levels of ROS, independent of oxygen tension. In contrast, the release of nitric oxide was independent of the amniotic region but dependent on oxygen tension. Furthermore, IL-6 was significantly increased at 20% oxygen. To conclude, short-time cultivation at 20% oxygen of freshly isolated hAMSCs induced significant changes in mitochondrial function and release of IL-6. Depending on the therapeutic purpose, cultivation conditions of the cells should be chosen carefully for providing the best possible quality of cell therapy.

Published
2018
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7. Evaluating risk, safety and efficacy of novel reproductive techniques and therapies through the EuroGTP II risk assessment tool

Author

Esteve Trias, 1, Martine Nijs, 2, 3 4, Ioana Adina Rugescu, Francesco Lombardo, 5, Gueorgui Nikolov, 5, Veerle Provoost, 6, Annelies Tolpe, 7, Nathalie Vermeulen, 8, Zdravka Veleva, 9, Rita Piteira 10, Ricardo Casaroli-Marano 10, Kelly Tilleman, 7, EuroGTP II Study Group:EuroGTP II Study Group: Anna Vilarrodona, A Rita Piteira, Elba, Agustí, Elisabet, Tahull, Esteve, Trias, Eva Maria Martinez, Ivan, Miranda, Jaime, Tabera, Maria Luisa Perez, Marta, Torrabadella, Nausica, Otero, Oscar, Fariñas, Patricia, López-Chicón, Sergi, Querol, Ricardo, Casaroli, Akila, Chandrasekar, Kyle, Bennett, Paul, Rooney, Richard, Lomas, Mar, Carmona, Esteban, Molano, Myriam, Ormeño, Branka Golubić Ćepulić, Ivan, Rozman, Marijana, Dragović, Cristina, Pintus, Eliana, Porta, Fiorenza, Bariani, Letizia, Lombardini, Liliam, Santilli, Mariapia, Mariani, Paola Di Ciaccio, Silvia, Pisanu, Artur, Kamiński, Izabela, Uhrynowska-Tyszkiewicz, Ewa, Olender, Anne Marie van Walraven, Arlinke, Bokhorst, Ingrid van Veen, Kelly, Tilleman, Tolpe, Annelies, Veerle, Provoost, Lieve, Nuytinck, Maryana, Simeonova, Daniela, Staneva-Petkova, Dessislava, Tzoneva, Tsvetelina, Kircheva-Nikolova, Violetta, Marinkova, Valery, Georgiev, Yoran, Peev, Elizabeth, Manova, Cecilia, Surján, Éva, Belicza, Gábor, Szarvas, Judit, Lám, László, Bencze, Martin, Börgel, Mareike, Derks, Sibylla, Schwarz, Ramadan, Jashari, Richard, N Noumanje, Rosario Daiz Rodriguez, Tiia, Tallinen, Hanna, Kankkonen, Toni-Karri, Pakarinen, Gilbert, Verbeken, Jean-Paul, Pirnay, Thomas, Rose, Jean-Pierre, Draye, Simone, Hennerbichler, Jill, Davies, Jacinto, Ibañez, Cristina, Magli, Nathalie, Vermeulen, Monserrat, Boada, Eoin, Mcgrath, John, Armitage, Gary, Jones, Marta, Fraga, Dulce, Roldao, Josefina, Oliveira, Adolfo, Paolin, Diletta, Trojan, Giulia, Montagner, Diego, Ponzin, Stefano, Ferrari, Lombardo, Francesco, Carlijn, Voermans, Nelleke, Richters, Ioana Adina Rugescu, Gianpaolo, Azzena, Fabozzo, Assunta, Helene, Schoenmans, Jose Luis Pomar, Pablo, Gelber, Katalin, Rajczy, Boris, Calmels, Stephan, Mielke, Tanja, Netelenbos, Mirko, Ragazzo, Gueorgui, Nikolov, Marton, Elisabetta, Martine, Nijs, Antonella, Franch, Gianluca, Piovan, Francesco, Dell'Antonia, Martyn, Snow, Ines, Bojanic, Zdravka, Veleva, Grezgorz, Basak, Margarida, Amil, Sandra, Shaw, Aurora, Navarro, Tim, Spalding, and Peter, Verdonk

Subjects
safety, Research Report, Risk analysis, Quality management, Reproductive Techniques, Assisted, risk analysis, Computer science, media_common.quotation_subject, efficacy, gamete, embryo, 030209 endocrinology & metabolism, Context (language use), Risk management tools, Risk Assessment, 03 medical and health sciences, 0302 clinical medicine, Quality (business), Prospective Studies, Duration (project management), Risk management, media_common, novel techniques, validation, 030219 obstetrics & reproductive medicine, business.industry, assisted reproduction technologies, Rehabilitation, reproductive tissue, Obstetrics and Gynecology, Germ Cells, Reproductive Medicine, Risk analysis (engineering), business, Risk assessment, quality management
Abstract

STUDY QUESTIONCan risks associated with novelties in assisted reproduction technologies (ARTs) be assessed in a systematic and structured way?SUMMARY ANSWERAn ART-specific risk assessment tool has been developed to assess the risks associated with the development of novelties in ART (EuroGTP II-ART).WHAT IS KNOWN ALREADYHow to implement new technologies in ART is well-described in the literature. The successive steps should include testing in animal models, executing pre-clinical studies using supernumerary gametes or embryos, prospective clinical trials and finally, short- and long-term follow-up studies on the health of the offspring. A framework categorizing treatments from experimental through innovative to established according to the extent of the studies conducted has been devised. However, a systematic and standardized methodology to facilitate risk evaluation before innovations are performed in a clinical setting is lacking.STUDY DESIGN, SIZE, DURATIONThe EuroGTP II-ART risk assessment tool was developed on the basis of a generic risk assessment algorithm developed for tissue and cell therapies and products (TCTPs) in the context of the project ‘Good Practices for demonstrating safety and quality through recipient follow-up European Good Tissue and cells Practices II (EuroGTP II)’. For this purpose, a series of four meetings was held in which eight ART experts participated. In addition, several tests and simulations were undertaken to fine-tune the final tool.PARTICIPANTS/MATERIALS, SETTING, METHODSThe three steps comprising the EuroGTP II methodology were evaluated against its usefulness and applicability in ART. Ways to improve and adapt the methodology into ART risk assessment were agreed and implemented.MAIN RESULTS AND THE ROLE OF CHANCEAssessment of the novelty (Step 1), consisting of seven questions, is the same as for other TCTPs. Practical examples were included for better understanding. Identification of potential risks and consequences (Step 2), consisting of a series of risks and risk consequences to consider during risk assessment, was adapted from the generic methodology, adding more potential risks for processes involving gonadic tissues. The algorithm to score risks was also adapted, giving a specific range of highest possible risk scores. A list of strategies for risk reduction and definition of extended studies required to ensure effectiveness and safety (Step 3) was also produced by the ART experts, based on generic EuroGTP II methodology. Several explanations and examples were provided for each of the steps for better understanding within this field.LIMITATIONS, REASONS FOR CAUTIONA multidisciplinary team is needed to perform risk assessment, to interpret results and to determine risk mitigation strategies and/or next steps required to ensure the safety in the clinical use of novelties.WIDER IMPLICATIONS OF THE FINDINGSThis is a dynamic tool whose value goes beyond assessment of risk before implementing a novel ART in clinical practice, to re-evaluate risks based on information collected during the process.STUDY FUNDING / COMPETING INTEREST(S)This study was called EUROGTP II and was funded by the European Commission (Grant agreement number 709567). The authors declare no competing interests concerning the results of this study.

Published
2020
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8. Human Placenta Laminin-111 as a Multifunctional Protein for Tissue Engineering and Regenerative Medicine

Author

Johannes, Hackethal, Christina M A P, Schuh, Alexandra, Hofer, Barbara, Meixner, Simone, Hennerbichler, Heinz, Redl, and Andreas H, Teuschl

Subjects
Tissue Engineering, Pregnancy, Placenta, Human Umbilical Vein Endothelial Cells, Humans, Female, Laminin, Schwann Cells, Regenerative Medicine, Cell Line
Abstract

Laminins are major components of all basement membranes surrounding nerve or vascular tissues. In particular laminin-111, the prototype of the family, facilitates a large spectrum of fundamental cellular responses in all eukaryotic cells. Laminin-111 is a biomaterial frequently used in research, however it is primarily isolated from non-human origin or produced with time-intensive recombinant techniques at low yield.Here, we describe an effective method for isolating laminin-111 from human placenta, a clinical waste material, for various tissue engineering applications. By extraction with Tris-NaCl buffer combined with non-protein-denaturation ammonium sulfate precipitation and rapid tangential flow filtration steps, we could effectively isolate native laminin-111 within only 4 days. The resulting material was biochemically characterized using a combination of dot blot, SDS-PAGE, Western blot and HPLC-based amino acid analysis. Cytocompatibility studies demonstrated that the isolated laminin-111 promotes rapid and efficient adhesion of primary Schwann cells. In addition, the bioactivity of the isolated laminin-111 was demonstrated by (a) using the material as a substrate for outgrowth of NG 108-15 neuronal cell lines and (b) promoting the formation of interconnected vascular networks by GFP-expressing human umbilical vein endothelial cells.In summary, the isolation procedure of laminin-111 as described here from human placenta tissue, fulfills many demands for various tissue engineering and regenerative medicine approaches and therefore may represent a human alternative to various classically used xenogenic standard materials.

Published
2018

9. Oxygen Tension Strongly Influences Metabolic Parameters and the Release of Interleukin-6 of Human Amniotic Mesenchymal Stromal Cells

Author

Heinz Redl, Susanne Wolbank, Sergiu Dumitrescu, Andrey V. Kozlov, Simone Hennerbichler, Andrea Lindenmair, Ralf Steinborn, Asmita Banerjee, and Adelheid Weidinger

Subjects
0301 basic medicine, chemistry.chemical_classification, Reactive oxygen species, lcsh:Internal medicine, Article Subject, Mesenchymal stem cell, chemistry.chemical_element, Cell Biology, Oxidative phosphorylation, Oxygen, Nitric oxide, Oxygen tension, Andrology, Cell therapy, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, In vivo, lcsh:RC31-1245, Molecular Biology, Research Article
Abstract

The human amniotic membrane (hAM) has been used for tissue regeneration for over a century.In vivo(in utero), cells of the hAM are exposed to low oxygen tension (1–4% oxygen), while the hAM is usually cultured in atmospheric, meaning high, oxygen tension (20% oxygen). We tested the influence of oxygen tensions on mitochondrial and inflammatory parameters of human amniotic mesenchymal stromal cells (hAMSCs). Freshly isolated hAMSCs were incubated for 4 days at 5% and 20% oxygen. We found 20% oxygen to strongly increase mitochondrial oxidative phosphorylation, especially in placental amniotic cells. Oxygen tension did not impact levels of reactive oxygen species (ROS); however, placental amniotic cells showed lower levels of ROS, independent of oxygen tension. In contrast, the release of nitric oxide was independent of the amniotic region but dependent on oxygen tension. Furthermore, IL-6 was significantly increased at 20% oxygen. To conclude, short-time cultivation at 20% oxygen of freshly isolated hAMSCs induced significant changes in mitochondrial function and release of IL-6. Depending on the therapeutic purpose, cultivation conditions of the cells should be chosen carefully for providing the best possible quality of cell therapy.

Published
2018

10. Different metabolic activity in placental and reflected regions of the human amniotic membrane

Author

Andrea Lindenmair, Heinz Redl, Ralf Steinborn, Martin Hofer, Simone Hennerbichler-Lugscheider, Johann Eibl, Asmita Banerjee, Susanne Wolbank, Andrey V. Kozlov, and Adelheid Weidinger

Subjects
Membrane Potential, Mitochondrial, chemistry.chemical_classification, Reactive oxygen species, Immunogenicity, Cell Respiration, Cell, Obstetrics and Gynecology, Amniotic stem cells, Mitochondrion, Biology, Cell biology, medicine.anatomical_structure, Reproductive Medicine, Tissue engineering, chemistry, Pregnancy, Amniotic epithelial cells, Immunology, medicine, Humans, Female, Amnion, Stem cell, Developmental Biology
Abstract

Cells of the human amniotic membrane (hAM) have stem cell characteristics with low immunogenicity and anti-inflammatory properties. While hAM is an excellent source for tissue engineering, so far, its sub-regions have not been taken into account. We show that placental and reflected hAM differ distinctly in morphology and functional activity, as the placental region has significantly higher mitochondrial activity, however significantly less reactive oxygen species. Since mitochondria may participate in processes such as cell rescue, we speculate that amniotic sub-regions may have different potential for tissue regeneration, which may be crucial for clinical applications.

Published
2015
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11. State of the Art – Hornhautbanking im Zeitalter der lamellären Keratoplastik

Author

Martin Dirisamer, Simone Hennerbichler, Paul Jirak, Claudia Loimayr, Siegfried G. Priglinger, Ulrich Schönherr, Andrea Breksler, and Christian Gabriel

Subjects
Gynecology, Ophthalmology, medicine.medical_specialty, media_common.quotation_subject, medicine, Art, media_common
Abstract

Hintergrund Die Praparation von Transplantaten fur DMEK (Descemet Membrane Endothelial Keratoplasty) erfolgte bis dato meist direkt praoperativ vom transplantierenden Chirurgen selbst. Dabei besteht immer das Risiko, dass die Praparation misslingt und infolge dessen die DMEK abgesagt werden muss. Auserdem hat der Chirurg keinerlei Garantie uber eine ausreichende Qualitat des Transplantats nach der Praparation.

Published
2015
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12. Human Placenta Laminin-111 as a Multifunctional Protein for Tissue Engineering and Regenerative Medicine

Author

Barbara Meixner, Johannes Hackethal, Heinz Redl, Andreas H. Teuschl, Alexandra Hofer, Christina M.A.P. Schuh, and Simone Hennerbichler

Subjects
0301 basic medicine, medicine.diagnostic_test, Chemistry, Regenerative medicine, Laminin 111, Umbilical vein, Cell biology, 03 medical and health sciences, 030104 developmental biology, medicine.anatomical_structure, Western blot, Tissue engineering, Cell culture, Placenta, medicine, Vascular tissue
Abstract

Laminins are major components of all basement membranes surrounding nerve or vascular tissues. In particular laminin-111, the prototype of the family, facilitates a large spectrum of fundamental cellular responses in all eukaryotic cells. Laminin-111 is a biomaterial frequently used in research, however it is primarily isolated from non-human origin or produced with time-intensive recombinant techniques at low yield.Here, we describe an effective method for isolating laminin-111 from human placenta, a clinical waste material, for various tissue engineering applications. By extraction with Tris-NaCl buffer combined with non-protein-denaturation ammonium sulfate precipitation and rapid tangential flow filtration steps, we could effectively isolate native laminin-111 within only 4 days. The resulting material was biochemically characterized using a combination of dot blot, SDS-PAGE, Western blot and HPLC-based amino acid analysis. Cytocompatibility studies demonstrated that the isolated laminin-111 promotes rapid and efficient adhesion of primary Schwann cells. In addition, the bioactivity of the isolated laminin-111 was demonstrated by (a) using the material as a substrate for outgrowth of NG 108-15 neuronal cell lines and (b) promoting the formation of interconnected vascular networks by GFP-expressing human umbilical vein endothelial cells.In summary, the isolation procedure of laminin-111 as described here from human placenta tissue, fulfills many demands for various tissue engineering and regenerative medicine approaches and therefore may represent a human alternative to various classically used xenogenic standard materials.

Published
2018
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13. An Effective Method of Atelocollagen Type 1/3 Isolation from Human Placenta and Its In Vitro Characterization in Two-Dimesional and Three-Dimensional Cell Culture Applications

Author

Johannes Hackethal, Andreas H. Teuschl, Severin Mühleder, Alexandra Hofer, Johanna Pruller, Heinz Redl, Karl H. Schneider, and Simone Hennerbichler

Subjects
0301 basic medicine, Male, Placenta, Biomedical Engineering, Cell Culture Techniques, Medicine (miscellaneous), Bioengineering, 02 engineering and technology, Biology, In Vitro Techniques, Rats, Sprague-Dawley, 03 medical and health sciences, chemistry.chemical_compound, Tissue engineering, Western blot, Pregnancy, medicine, Human Umbilical Vein Endothelial Cells, Animals, Humans, Sodium dodecyl sulfate, Polyacrylamide gel electrophoresis, Cells, Cultured, medicine.diagnostic_test, Tissue Engineering, Biomaterial, 021001 nanoscience & nanotechnology, Molecular biology, In vitro, Rats, 030104 developmental biology, chemistry, Biochemistry, Cell culture, Hepatocytes, Human umbilical vein endothelial cell, Female, Collagen, 0210 nano-technology
Abstract

Pepsin-solubilized atelocollagen can be used to form highly complex three-dimensional matrices for a broad spectrum of tissue engineering applications. Moreover, it has a long history as a favorable biomaterial in pharmaceutical and medical industries. So far, the main sources for these approaches are collagens from xenogenic sources. Yet, these nonhuman collagens carry a risk of provoking immune reactions in patients. Here we describe an effective method of isolating atelocollagen type 1/3 (COL1/3) from human placenta. By combining a single pepsin digestion step with tangential flow filtration and further precipitation steps, we could purify COL1/3 within only 4 days of processing. The resulting COL1/3 was biochemically characterized by determining residual DNA content, proving the absence of impurities by sodium dodecyl sulfate/polyacrylamide gel electrophoresis (SDS-PAGE) analysis combined with total amino acid quantification, identifying the isolated collagen types by Western blot analysis, and analyzing the spontaneous formation of fibrous structures on freeze-drying via scanning electron microscopy. Finally, the cytocompatibility of the isolated collagen was demonstrated in two dimensional using primary rat hepatocytes and in three dimensional by a sprouting assay of human umbilical vein endothelial cell. The isolation method described not only fulfills demands for cost-efficient bioengineering using a human waste material but also potentially increases overall safety for patients by use of homologous products.

Published
2017

14. Human amniotic membrane as newly identified source of amniotic fluid pulmonary surfactant

Author

Florian Prodinger, Jesús Pérez-Gil, Heinz Redl, Susanne Wolbank, Angela Lemke, José Carlos Castillo-Sánchez, Asja Ceranic, and Simone Hennerbichler-Lugscheider

Subjects
0301 basic medicine, Bioquímica, Cell biology, Amniotic fluid, 1,2-Dipalmitoylphosphatidylcholine, Molecular biology, Science, Alveolar Epithelium, Amniotic sac, Lamellar granule, Biology, Article, 03 medical and health sciences, 0302 clinical medicine, Pulmonary surfactant, Pregnancy, medicine, Humans, Amnion, Multidisciplinary, Lung, Biología molecular, medicine.diagnostic_test, Epithelial Cells, Mesenchymal Stem Cells, Pulmonary Surfactants, Amniotic Fluid, Lipid Metabolism, Pulmonary Surfactant-Associated Protein D, Epithelium, 030104 developmental biology, medicine.anatomical_structure, Bronchoalveolar lavage, Immunology, Medicine, ATP-Binding Cassette Transporters, Female, 030217 neurology & neurosurgery
Abstract

Pulmonary surfactant (PS) reduces surface tension at the air-liquid interface in the alveolar epithelium of the lung, which is required for breathing and for the pulmonary maturity of the developing foetus. However, the origin of PS had never been thoroughly investigated, although it was assumed to be secreted from the foetal developing lung. Human amniotic membrane (hAM), particularly its epithelial cell layer, composes the amniotic sac enclosing the amniotic fluid. In this study, we therefore aimed to investigate a potential contribution of the cellular components of the hAM to pulmonary surfactant found in amniotic fluid. We identified that cells within the native membrane contain lamellar bodies and express all four surfactant proteins as well as ABCA3. Lipidomic profiling by nanoESI – MS/MS revealed the presence of the essential lipid species as found in PS. Also, the biophysical activity of conditioned cell culture supernatant obtained from hAM was tested with captive bubble surfactometry. hAM supernatant showed the ability to reduce surface tension, similar to human PS obtained from bronchoalveolar lavage. This means that hAM produces the essential PS-associated components and can therefore contribute as second potential source of PS in amniotic fluid aside from the foetal lung.

Published
2017

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