Your search keyword '"Rotter, Nicole"' showing total 12 results

1. Reducing the number of impulses in video head impulse testing – It's the quality not the numbers

Author

Wenzel, Angela, Hülse, Roland, Thunsdorff, Claudio, Rotter, Nicole, and Curthoys, Ian

Published

2019

2. 3D bioprinting of human chondrocyte-laden nanocellulose hydrogels for patient-specific auricular cartilage regeneration

Author

Martínez Ávila, Héctor, Schwarz, Silke, Rotter, Nicole, and Gatenholm, Paul

Published

2016

3. Differences between human septal and alar cartilage with respect to biomechanical features and biochemical composition.

Author

Wiggenhauser, Paul Severin, Schwarz, Silke, Freutel, Maren, Koerber, Ludwig, Wolf, Nicolas, Dürselen, Lutz, and Rotter, Nicole

Subjects

CARTILAGE, NOSE, TENSILE tests, PLASTIC surgery, REGRESSION analysis, STATISTICAL significance

Abstract

Cartilage grafts have become popular in facial plastic surgery to reconstruct defects or to improve aesthetic outcomes in various applications. But there is a considerable rate of graft failure like resorption or deformation. To improve graft survival and function, accurate understanding of the properties of the recipient site is indispensable. Therefore 10 noses of human cadavers were meticulously dissected and specimens of alar and septal cartilage subjected to confined compression and tensile tests. Furthermore, cell number, glycosaminoglycan and hydroxyproline content were measured. showed a significant difference (p < 0.05) of alar and septal cartilage regarding Equilibrium Modulus, cell number and glycosaminoglycan but not hydroxyproline content. Tensile tests showed a significant difference (p < 0.001) between alar and septal cartilage (vertical vector of force) for E-modulus, maximal force and maximal strain but not for horizontal vector of force. There was a significant difference (p < 0.05) within septal cartilage samples depending on vector of force (vertical vs. horizontal). Finally multifactorial linear regression allowed an estimation of Equilibrium Modulus depending on compression, glycosaminoglycan content and cell number with statistical significance (p < 0.05). In conclusion, nasal cartilage differs in function and composition depending on anatomical location and the prevalent forces. Therefore further research will be necessary to evaluate if graft failure depends on a mismatch of functional properties and if grafts can be adapted to the recipient site. Image 1 [ABSTRACT FROM AUTHOR]

Published

2019

4. Cartilage regeneration using decellularized cartilage matrix: Long-term comparison of subcutaneous and intranasal placement in a rabbit model.

Author

von Bomhard, Achim, Elsaesser, Alexander, Riepl, Ricarda, Pippich, Katharina, Faust, Joseph, Schwarz, Silke, Koerber, Ludwig, Breiter, Roman, and Rotter, Nicole

Subjects

CARTILAGE regeneration, CARTILAGE, NASAL septum, MAGNETIC resonance imaging, EXTRACELLULAR matrix

Abstract

Abstract Autologous cartilage as donor tissue for various surgical reconstructions such as nasal septum regeneration is limited and associated with donor site morbidity. Our goal was to evaluate a new resorbable chondroconductive biomaterial made of decellularized porcine nasal septum cartilage compared with autologous native auricular cartilage as the gold standard. In order to examine the material and determine its long-term outcome further, we used subcutaneous implantation and septal implantation in an orthotopic rabbit model. In addition to non-seeded decellularized xenogenic cartilage, chondrocyte-seeded decellularized xenogenic cartilage was implanted as a septal replacement. After a three- or six-month period, the formation of newly synthesized cartilage extracellular matrix was evaluated immunohistochemically, whereas septal integrity and biocompatibility were evaluated histologically. The formation of the implanted neoseptum and form stability was analyzed by using 7-Tesla Magnetic Resonance Imaging. Good biocompatibility with no excessive rejection was demonstrated in all groups. Long-term stable and reliable septal reconstruction could be achieved in the study groups with or without cell seeding with autologous auricular chondrocytes. Autologous cell seeding was advantageous only with regard to septal perforations. Thus, cell seeding provides a benefit regarding long-term stability. However, because of slightly better biocompatibility, less pronounced septum deviation and the markedly lower effort involved, the non-seeded scaffold is favoured for possible clinical application. [ABSTRACT FROM AUTHOR]

Published

2019

5. Interprofessional education in the clinical setting: A qualitative look at the preceptor's perspective in training advanced practice nursing students.

Author

Chen, Angel K., Rivera, Josette, Rotter, Nicole, Green, Emily, and Kools, Susan

Subjects

INTERDISCIPLINARY education, INTERVIEWING, RESEARCH methodology, MEDICAL preceptorship, NURSING education, SCIENTIFIC observation, STUDENT attitudes, CLINICAL competence, QUALITATIVE research, PILOT projects, TEACHING methods, THEMATIC analysis, COLLEGE teacher attitudes, EDUCATION

Abstract

With the shift towards interprofessional education to promote collaborative practice, clinical preceptors are increasingly working with trainees from various professions to provide patient care. It is unclear whether and how preceptors modify their existing precepting approach when working with trainees from other professions. There is little information on strategies for this type of precepting, and how preceptors may foster or impede interprofessional collaboration. The purpose of this qualitative description pilot study was to identify current methods preceptors use to teach trainees from other professions in the clinical setting, particularly advanced practice nursing and medical trainees, and to identify factors that support or impede this type of precepting. Data collected through observations and interviews were analyzed by the research team using thematic analysis procedures. Three major themes were identified: 1) a variety of teaching approaches and levels of engagement with trainees of different professions, 2) preceptor knowledge gaps related to curricula, goals, and scope of practice of trainees from other professions, and 3) administrative, structural and logistical elements that impact the success of precepting trainees from different professions in the clinical setting. This study has implications for faculty development and evaluation of current precepting practices in clinical settings. [ABSTRACT FROM AUTHOR]

Published

2016

6. Age dependence of biochemical and biomechanical properties of tissue-engineered human septal cartilage

Author

Rotter, Nicole, Bonassar, Lawrence J., Tobias, Geoffrey, Lebl, Martin, Roy, Amit K., and Vacanti, Charles A.

Subjects

*CARTILAGE, *BIOMECHANICS, *BIOENGINEERING

Abstract

The aim of this study was to determine whether the biomechanical and biochemical properties of tissue-engineered human septal cartilage vary with donor age and in vitro culture time. Chondrocytes were isolated from human septal cartilage of patients from 15 to 60 year old and maintained in primary monolayer culture for 14 days. Cells were seeded onto 0.5% PLA coated PGA disks and kept in stationary three-dimensional culture for either 1 day or 3 weeks. Specimens were then implanted subcutaneously into athymic nude mice and harvested after either 4 or 8 weeks. Upon harvest, the equilibrium confined compression modulus was measured as to quantify mechanical properties, and the glycosaminoglycan, hydroxyproline, and DNA contents were determined as measures of tissue proteoglycans, collagen, and cell density. This study demonstrated that native nasal cartilage showed distinct changes in these parameters with age, but cartilage engineered using the cells of these specimens showed no significant dependence on the age of the donor. There was little difference in quality of cartilage between samples cultured for 3 weeks in vitro and those implanted directly after seeding. Together, the results of this study suggest that the process of extracellular matrix assembly by chondrocytes on three-dimensional scaffolds may be independent of in vivo conditions experienced by the tissue prior to harvest. [Copyright &y& Elsevier]

Published

2002

7. Reconstruction of auricular cartilage using tissue-engineering techniques.

Author

Rotter, Nicole, Steiner, Alexander, and Scheithauer, Marc

Abstract

Reconstructive surgery of the nose and the auricle frequently requires grafting from different sites of cartilage as donor material. Typically, grafts for nasal reconstruction are obtained from within the nose whenever possible; alternatively, cartilage can be obtained from the auricle or the rib. Auricular reconstruction procedures usually involve the harvesting of rib cartilage when large parts of the auricle have to be reconstructed. However depending on the underlying disease, harvesting might not be possible to a sufficient degree, eg, after multiple reconstruction efforts or in burn or malformation surgery. Also a severe donor site morbidity has to be taken into account in the case of harvesting rib cartilage. Tissue engineering is an evolving area of research, with the aim of growing tissue in vitro that can be used for reconstructive purposes. This article reviews the current state of the art of tissue engineering procedures of cartilage for reconstruction of the auricle and is determined to answer the question why the technique has not yet found its way into daily clinical routine in otolaryngology in contrast to its performance in orthopaedic surgery. [Copyright &y& Elsevier]

Published

2008

8. A Randomized Trial of Icatibant in ACE-Inhibitor–Induced Angioedema.

Author

Strassen, Ulrich, Greve, Jens, Stelter, Klaus, Havel, Miriam, Rotter, Nicole, Veit, Johannes, Schossow, Beate, Hapfelmeier, Alexander, Kehl, Victoria, Kojda, Georg, Hoffmann, Thomas K., and Bas, Murat

Published

2016

9. Glandular tissue from human pancreas and salivary gland yields similar stem cell populations

Author

Gorjup, Erwin, Danner, Sandra, Rotter, Nicole, Habermann, Jens, Brassat, Ute, Brummendorf, Tim H., Wien, Sascha, Meyerhans, Andreas, Wollenberg, Barbara, Kruse, Charli, and von Briesen, Hagen

Subjects

*EMBRYONIC stem cells, *STEM cells, *ENDOCRINE glands, *ENDOCRINE system

Abstract

Abstract: Stem cells derived from pancreatic tissue are well characterized and exhibit a broad plasticity as they can differentiate beyond lineage boundaries into many cell types. The aim of this study was the comparative characterization of pancreatic stem cells with one other derivate of the embryonic foregut, namely salivary glands, for the existence of similar stem cell populations. The expression of stem cell markers as well as lineage-specific markers was detected by reverse transcription polymerase chain reaction, flow cytometry and immuncytochemical staining. The isolated cells from salivary glands and pancreas grew adherently in vitro and could be maintained for up to 55 and 46 population doublings, respectively. Cells from both tissues showed a comparable phenotype. They expressed different embryonic and adult stem cell markers and had the ability to differentiate spontaneously into cells representing the three embryonic germ layers. Additionally, the directed differentiation of glandular stem cells into the mesodermal lineage was achieved, yielding adipogenic, osteogenic and chondrogenic cells from salivary gland stem cells as well as osteogenic and chondrogenic cells from pancreatic stem cells. Here, we compared two stem cell populations from different glandular tissues which showed similar phenotypes and analogous properties. During embryonic development the two exocrine glands originate from the foregut, which might be the explanation for these intriguing resemblances. [Copyright &y& Elsevier]

Published

2009

10. Novel bilayer bacterial nanocellulose scaffold supports neocartilage formation in vitro and in vivo.

Author

Martínez Ávila, Héctor, Feldmann, Eva-Maria, Pleumeekers, Mieke M., Nimeskern, Luc, Kuo, Willy, de Jong, Willem C., Schwarz, Silke, Müller, Ralph, Hendriks, Jeanine, Rotter, Nicole, van Osch, Gerjo J.V.M., Stok, Kathryn S., and Gatenholm, Paul

Subjects

*TISSUE scaffolds, *IN vitro studies, *TISSUE engineering, *ALTERNATIVE medicine, *POROUS materials, *CELL growth

Abstract

Tissue engineering provides a promising alternative therapy to the complex surgical reconstruction of auricular cartilage by using ear-shaped autologous costal cartilage. Bacterial nanocellulose (BNC) is proposed as a promising scaffold material for auricular cartilage reconstruction, as it exhibits excellent biocompatibility and secures tissue integration. Thus, this study evaluates a novel bilayer BNC scaffold for auricular cartilage tissue engineering. Bilayer BNC scaffolds, composed of a dense nanocellulose layer joined with a macroporous composite layer of nanocellulose and alginate, were seeded with human nasoseptal chondrocytes (NC) and cultured in vitro for up to 6 weeks. To scale up for clinical translation, bilayer BNC scaffolds were seeded with a low number of freshly isolated (uncultured) human NCs combined with freshly isolated human mononuclear cells (MNC) from bone marrow in alginate and subcutaneously implanted in nude mice for 8 weeks. 3D morphometric analysis showed that bilayer BNC scaffolds have a porosity of 75% and mean pore size of 50 ± 25 μm. Furthermore, endotoxin analysis and in vitro cytotoxicity testing revealed that the produced bilayer BNC scaffolds were non-pyrogenic (0.15 ± 0.09 EU/ml) and non-cytotoxic (cell viability: 97.8 ± 4.7%). This study demonstrates that bilayer BNC scaffolds offer a good mechanical stability and maintain a structural integrity while providing a porous architecture that supports cell ingrowth. Moreover, bilayer BNC scaffolds provide a suitable environment for culture-expanded NCs as well as a combination of freshly isolated NCs and MNCs to form cartilage in vitro and in vivo as demonstrated by immunohistochemistry, biochemical and biomechanical analyses. [ABSTRACT FROM AUTHOR]

Published

2015

11. Corrigendum to “Glandular tissue from human pancreas and salivary gland yields similar stem cell populations” [Eur. J. Cell Biol. 88 (2009) 409–421]

Author

Gorjup, Erwin, Danner, Sandra, Rotter, Nicole, Habermann, Jens, Brassat, Ute, Brummendorf, Tim H., Wien, Sascha, Meyerhans, Andreas, Wollenberg, Barbara, Kruse, Charli, and Briesen, Hagen von

Published

2010

12. The characterisation of human respiratory epithelial cells cultured on resorbable scaffolds: first steps towards a tissue engineered tracheal replacement

Author

Ziegelaar, Brian W., Aigner, Joachim, Staudenmaier, Rainer, Lempart, Kathrin, Mack, Brigitte, Happ, Theda, Sittinger, Michael, Endres, Michaela, Naumann, Andreas, Kastenbauer, Ernst, and Rotter, Nicole

Subjects

*EPITHELIAL cells, *LECTINS

Abstract

In this study we have used lectin histochemistry and scanning electron microscopy (SEM) to assess the growth and characterise the differentiation of human respiratory epithelial cells (REC) cultured on two biomaterial scaffolds. The first scaffold, based on a hyaluronic acid derivative, was observed to be non-adhesive for REC. This lack of adhesion was found to be unrelated to the presence of the hyaluronic acid binding domain on the surface of isolated REC. The other scaffold, consisting of equine collagen, was observed to encourage REC spreading and adhesion. Positive Ulex Europaeus agglutinin (UEA) lectin staining of this preparation indicated the presence of ciliated REC on the scaffold surface. However, the marked decrease in peanut agglutinin (PNA) positive staining, relative to that of control cultures and native tissue, indicates a dedifferentiation of the secretory cells of the REC monolayer. SEM analysis of REC cultured on the collagen scaffold confirmed the presence of ciliated cells thereby validating the UEA positive staining. The presence of both established and developing cilia was also verified. This study indicates that collagen biomaterials are appropriate for the tissue engineering of REC. Furthermore, that UEA and PNA staining is a useful tool in the characterisation of cells cultured on biomaterials, therefore helpful in identifying biomaterials that are suitable for specific tissue engineering purposes. [Copyright &y& Elsevier]

Published

2002