PMCC PMCC

Search tips
Search criteria

Advanced
Results 1-8 (8)
 

Clipboard (0)
None

Select a Filter Below

Journals
Year of Publication
1.  Impact of expansion and redifferentiation under hypothermia on chondrogenic capacity of cultured human septal chondrocytes 
Journal of Tissue Engineering  2017;8:2041731417732655.
A critical limitation in the cultivation of cartilage for tissue engineering is the dedifferentiation in chondrocytes, mainly during in vitro amplification. Despite many previous studies investigating the influence of various conditions, no data exist concerning the effects of hypothermia. Our aim has been to influence chondrocyte dedifferentiation in vitro by hypothermic conditions. Chondrocytes were isolated from cartilage biopsies and seeded in monolayer and in three-dimensional pellet-cultures. Each cell culture was either performed at 32.2°C or 37°C during amplification. Additionally, the influence of the redifferentiation of chondrocytes in three-dimensional cell culture was examined at 32.2°C and 37°C after amplification at 32.2°C or 37°C. An 3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium (MTS) assay was used to measure cell proliferation in monolayer, whereas the polymerase chain reaction and immunohistochemical and histological staining were used in three-dimensional pellet-cultures. Real-time polymerase chain reaction was employed to measure the relative expression of the target genes collagen II, collagen I, aggrecan and versican. Ratios were estimated between collagen II/collagen I and aggrecan/versican to evaluate differentiation. A higher value of these ratios indicated an advantageous status of differentiation. In monolayer, hypothermia at 32.2°C slowed down the proliferation rate of chondrocytes significantly, being up to two times lower at 32.2°C compared with culture at 37°C. Simultaneously, hypothermia in monolayer decelerated dedifferentiation. The ratio of aggrecan/versican was significantly higher at 32.2°C compared with that at 37°C. In three-dimensional pellet-culture, the chondrocytes redifferentiated at 32.2°C and at 37°C, and this process is more distinct at 37°C than at 32.2°C. Similar results were obtained for the ratios of collagen II/collagen I and aggrecan/versican and were supported by immunochemical and histological staining. Thus, hypothermic conditions for chondrocytes are mainly advantageous in monolayer culture. In three-dimensional pellet-culture, redifferentiation predominates at 37°C compared with at 32.2°C. In particular, the results from the monolayer cultures show potential in the avoidance of dedifferentiation.
doi:10.1177/2041731417732655
PMCID: PMC5638156
Cartilage; hypothermia; differentiation; redifferentiation; pellet-culture
2.  World Congress Integrative Medicine & Health 2017: Part one 
Brinkhaus, Benno | Falkenberg, Torkel | Haramati, Aviad | Willich, Stefan N. | Briggs, Josephine P. | Willcox, Merlin | Linde, Klaus | Theorell, Töres | Wong, Lisa M. | Dusek, Jeffrey | Wu, Darong | Eisenberg, David | Haramati, Aviad | Berger, Bettina | Kemper, Kathi | Stock-Schröer, Beate | Sützl-Klein, Hedda | Ferreri, Rosaria | Kaplan, Gary | Matthes, Harald | Rotter, Gabriele | Schiff, Elad | Arnon, Zahi | Hahn, Eckhard | Luberto, Christina M. | Martin, David | Schwarz, Silke | Tauschel, Diethard | Flower, Andrew | Gramminger, Harsha | Gupta, Hedwig H. | Gupta, S. N. | Kerckhoff, Annette | Kessler, Christian S. | Michalsen, Andreas | Kessler, Christian S. | Kim, Eun S. | Jang, Eun H. | Kim, Rana | Jan, Sae B. | Mittwede, Martin | Mohme, Wiebke | Ben-Arye, Eran | Bonucci, Massimo | Saad, Bashar | Breitkreuz, Thomas | Rossi, Elio | Kebudi, Rejin | Daher, Michel | Razaq, Samaher | Gafer, Nahla | Nimri, Omar | Hablas, Mohamed | Kienle, Gunver Sophia | Samuels, Noah | Silbermann, Michael | Bandelin, Lena | Lang, Anna-Lena | Wartner, Eva | Holtermann, Christoph | Binstock, Maxwell | Riebau, Robert | Mujkanovic, Edin | Cramer, Holger | Lauche, Romy | Michalsen, Andres | Ward, Lesley | Cramer, Holger | Irnich, Dominik | Stör, Wolfram | Burnstock, Geoffrey | Schaible, Hans-Georg | Ots, Thomas | Langhorst, Jost | Lauche, Romy | Sundberg, Tobias | Falkenberg, Torkel | Amarell, Catherina | Amarell, Catherina | Anheyer, Melanie | Eckert, Marion | Eckert, Marion | Ogal, Mercedes | Eckert, Marion | Amarell, Catherina | Schönauer, Annette | Reisenberger, Birgit | Brand, Bernhard | Anheyer, Dennis | Dobos, Gustav | Kroez, Matthias | Martin, David | Matthes, Harald | Ammendola, Aldo | Mao, Jun J. | Witt, Claudia | Yang, Yufei | Dobos, Gustav | Oritz, Miriam | Horneber, Markus | Voiß, Petra | Reisenberger, Birgit | von Rosenstiel, Alexandra | Eckert, Marion | Ogal, Mercedes | Amarell, Catharina | Anheyer, Melanie | Schad, Friedemann | Schläppi, Marc | Kröz, Matthias | Büssing, Arndt | Bar-Sela, Gil | Matthes, Harald | Schiff, Elad | Ben-Arye, Eran | Arnon, Zahi | Avshalomov, David | Attias, Samuel | Schönauer, Annette | Haramati, Aviad | Witt, Claudia | Brinkhaus, Benno | Cotton, Sian | Jong, Miek | Jong, Mats | Scheffer, Christian | Haramati, Aviad | Tauschel, Diethard | Edelhäuser, Friedrich | AlBedah, Abdullah | Lee, Myeong Soo | Khalil, Mohamed | Ogawa, Keiko | Motoo, Yoshiharu | Arimitsu, Junsuke | Ogawa, Masao | Shimizu, Genki | Stange, Rainer | Kraft, Karin | Kuchta, Kenny | Watanabe, Kenji | Bonin, D | Büssing, Arndt | Gruber, Harald | Koch, Sabine | Gruber, Harald | Pohlmann, Urs | Caldwell, Christine | Krantz, Barbara | Kortum, Ria | Martin, Lily | Wieland, Lisa S. | Kligler, Ben | Gould-Fogerite, Susan | Zhang, Yuqing | Wieland, Lisa S. | Riva, John J. | Lumpkin, Michael | Ratner, Emily | Ping, Liu | Jian, Pei | Hamme, Gesa-Meyer | Mao, Xiaosong | Chouping, Han | Schröder, Sven | Hummelsberger, Josef | Wullinger, Michael | Brodzky, Marc | Zalpour, Christoff | Langley, Julia | Weber, Wendy | Mudd, Lanay M. | Wayne, Peter | Witt, Clauda | Weidenhammer, Wolfgang | Fønnebø, Vinjar | Boon, Heather | Steel, Amie | Bugarcic, Andrea | Rangitakatu, Melisa | Steel, Amie | Adams, Jon | Sibbritt, David | Wardle, Jon | Leach, Matthew | Schloss, Janet | Dieze, Helene | Boon, Heather | Ijaz, Nadine | Willcox, Merlin | Heinrich, Michael | Lewith, George | Flower, Andrew | Graz, Bertrand | Adam, Daniela | Grabenhenrich, Linus | Ortiz, Miriam | Binting, Sylvia | Reinhold, Thomas | Brinkhaus, Benno | Andermo, Susanne | Sundberg, Tobias | Falkenberg, Torkel | Nordberg, Johanna Hök | Arman, Maria | Bhasin, Manoj | Fan, Xueyi | Libermann, Towia | Fricchione, Gregory | Denninger, John | Benson, Herbert | Berger, Bettina | Stange, Rainer | Michalsen, Andreas | Martin, David D. | Boers, Inge | Vlieger, Arine | Jong, Miek | Brinkhaus, Benno | Teut, Michael | Ullmann, Alexander | Ortiz, Miriam | Rotter, Gabriele | Binting, Sylvia | Lotz, Fabian | Roll, Stephanie | Canella, Claudia | Mikolasek, Michael | Rostock, Matthias | Beyer, Jörg | Guckenberger, Matthias | Jenewein, Josef | Linka, Esther | Six, Claudia | Stoll, Sarah | Stupp, Roger | Witt, Claudia M. | Chuang, Elisabeth | Kligler, Ben | McKee, Melissa D. | Cramer, Holger | Lauche, Romy | Klose, Petra | Lange, Silke | Langhorst, Jost | Dobos, Gustav | Chung, Vincent C. H. | Wong, Hoi L. C. | Wu, Xin Y. | Wen, Grace Y. G. | Ho, Robin S. T. | Ching, Jessica Y. L. | Wu, Justin C. Y. | Coakley, Amanda | Flanagan, Jane | Annese, Christine | Empoliti, Joanne | Gao, Zishan | Liu, Xugang | Yu, Shuguang | Yan, Xianzhong | Liang, Fanrong | Hohmann, Christoph D. | Steckhan, Nico | Ostermann, Thomas | Paetow, Arion | Hoff, Evelyn | Michalsen, Andreas | Hu, Xiao-Yang | Wu, Ruo-Han | Logue, Martin | Blonde, Clara | Lai, Lily Y. | Stuart, Beth | Flower, Andrew | Fei, Yu-Tong | Moore, Michael | Liu, Jian-Ping | Lewith, George | Hu, Xiao-Yang | Wu, Ruo-Han | Logue, Martin | Blonde, Clara | Lai, Lily Y. | Stuart, Beth | Flower, Andrew | Fei, Yu-Tong | Moore, Michael | Liu, Jian-Ping | Lewith, George | Jeitler, Michael | Zillgen, Hannah | Högl, Manuel | Steckhan, Nico | Stöckigt, Barbara | Seifert, Georg | Michalsen, Andreas | Kessler, Christian | Khadivzadeh, Talat | Bashtian, Maryam Hassanzadeh | Aval, Shapour Badiee | Esmaily, Habibollah | Kim, Jihye | Kim, Keun H. | Klocke, Carina | Joos, Stefanie | Koshak, Abdulrahman | Wie, Li | Koshak, Emad | Wali, Siraj | Alamoudi, Omer | Demerdash, Abdulrahman | Qutub, Majdy | Pushparaj, Peter | Heinrich, Michael | Kruse, Sigrid | Fischer, Isabell | Tremel, Nadine | Rosenecker, Joseph | Leung, Brenda | Takeda, Wendy | Liang, Ning | Feng, Xue | Liu, Jian-ping | Cao, Hui-juan | Luberto, Christina M. | Shinday, Nina | Philpotts, Lisa | Park, Elyse | Fricchione, Gregory L. | Yeh, Gloria | Munk, Niki | Zakeresfahani, Arash | Foote, Trevor R. | Ralston, Rick | Boulanger, Karen | Özbe, Dominik | Gräßel, Elmar | Luttenberger, Katharina | Pendergrass, Anna | Pach, Daniel | Bellmann-Strobl, Judit | Chang, Yinhui | Pasura, Laura | Liu, Bin | Jäger, Sven F. | Loerch, Ronny | Jin, Li | Brinkhaus, Benno | Ortiz, Miriam | Reinhold, Thomas | Roll, Stephanie | Binting, Sylvia | Icke, Katja | Shi, Xuemin | Paul, Friedemann | Witt, Claudia M. | Rütz, Michaela | Lynen, Andreas | Schömitz, Meike | Vahle, Maik | Salomon, Nir | Lang, Alon | Lahat, Adi | Kopylov, Uri | Ben-Horin, Shomron | Har-Noi, Ofir | Avidan, Benjamin | Elyakim, Rami | Gamus, Dorit | NG, Siew | Chang, Jessica | Wu, Justin | Kaimiklotis, John | Schumann, Dania | Buttó, Ludovica | Langhorst, Jost | Dobos, Gustav | Haller, Dirk | Cramer, Holger | Smith, Caroline | de Lacey, Sheryl | Chapman, Michael | Ratcliffe, Julie | Johnson, Neil | Lyttleton, Jane | Boothroyd, Clare | Fahey, Paul | Tjaden, Bram | van Vliet, Marja | van Wietmarschen, Herman | Jong, Miek | Tröger, Wilfried | Vuolanto, Pia | Aarva, Paulina | Sorsa, Minna | Helin, Kaija | Wenzel, Claudia | Zoderer, Iris | Pammer, Patricia | Simon, Patrick | Tucek, Gerhard | Wode, Kathrin | Henriksson, Roger | Sharp, Lena | Stoltenberg, Anna | Nordberg, Johanna Hök | Xiao-ying, Yang | Wang, Li-qiong | Li, Jin-gen | Liang, Ning | Wang, Ying | Liu, Jian-ping | Balneaves, Lynda | Capler, Rielle | Bocci, Chiara | Guffi, Marta | Paolini, Marina | Meaglia, Ilaria | Porcu, Patrizia | Ivaldi, Giovanni B. | Dragan, Simona | Bucuras, Petru | Pah, Ana M. | Badalica-Petrescu, Marius | Buleu, Florina | Hogea-Stoichescu, Gheorghe | Christodorescu, Ruxandra | Kao, Lan | Cho, Yumin | Klafke, Nadja | Mahler, Cornelia | von Hagens, Cornelia | Uhlmann, Lorenz | Bentner, Martina | Schneeweiss, Andreas | Mueller, Andreas | Szecsenyi, Joachim | Joos, Stefanie | Neri, Isabella | Ortiz, Miriam | Schnabel, Katharina | Teut, Michael | Rotter, Gabriele | Binting, Sylvia | Cree, Margit | Lotz, Fabian | Suhr, Ralf | Brinkhaus, Benno | Rossi, Elio | Baccetti, Sonia | Firenzuoli, Fabio | Monechi, Maria V. | Di Stefano, Mariella | Amunni, Gianni | Wong, Wendy | Chen, Bingzhong | Wu, Justin | Amri, Hakima | Haramati, Aviad | Kotlyanskaya, Lucy | Anderson, Belinda | Evans, Roni | Kligler, Ben | Marantz, Paul | Bradley, Ryan | Booth-LaForce, Cathryn | Zwickey, Heather | Kligler, Benjamin | Brooks, Audrey | Kreitzer, Mary J. | Lebensohn, Patricia | Goldblatt, Elisabeth | Esmel-Esmel, Neus | Jiménez-Herrera, Maria | Ijaz, Nadine | Boon, Heather | Jocham, Alexandra | Stock-Schröer, Beate | Berberat, Pascal O. | Schneider, Antonius | Linde, Klaus | Masetti, Morgana | Murakozy, Henriette | Van Vliet, Marja | Jong, Mats | Jong, Miek | Agdal, Rita | Atarzadeh, Fatemeh | Jaladat, Amir M. | Hoseini, Leila | Amini, Fatemeh | Bai, Chen | Liu, Tiegang | Zheng, Zian | Wan, Yuxiang | Xu, Jingnan | Wang, Xuan | Yu, He | Gu, Xiaohong | Daneshfard, Babak | Nimrouzi, Majid | Tafazoli, Vahid | Alorizi, Seyed M. Emami | Saghebi, Seyed A. | Fattahi, Mohammad R. | Salehi, Alireza | Rezaeizadeh, Hossein | Zarshenas, Mohammad M. | Nimrouzi, Majid | Fox, Kealoha | Hughes, John | Kostanjsek, Nenad | Espinosa, Stéphane | Lewith, George | Fisher, Peter | Latif, Abdul | Lefeber, Donald | Paske, William | Öztürk, Ali Ö. | Öztürk, Gizemnur | Boers, Inge | Tissing, Wim | Naafs, Marianne | Busch, Martine | Jong, Miek | Daneshfard, Babak | Sanaye, Mohammad R. | Dräger, Kilian | Fisher, Peter | Kreitzer, Mary J. | Evans, Roni | Leininger, Brent | Shafto, Kate | Breen, Jenny | Sanaye, Mohammad R. | Daneshfard, Babak | Simões-Wüst, Ana P. | Moltó-Puigmartí, Carolina | van Dongen, Martien | Dagnelie, Pieter | Thijs, Carel | White, Shelley | Wiesener, Solveig | Salamonsen, Anita | Stub, Trine | Fønnebø, Vinjar | Abanades, Sergio | Blanco, Mar | Masllorens, Laia | Sala, Roser | Al-Ahnoumy, Shafekah | Han, Dongwoon | He, Luzhu | Kim, Ha Yun | In Choi, Da | Alræk, Terje | Stub, Trine | Kristoffersen, Agnete | von Sceidt, Christel | Michalsen, Andreas | Bruset, Stig | Musial, Frauke | Anheyer, Dennis | Cramer, Holger | Lauche, Romy | Saha, Felix J. | Dobos, Gustav | Anheyer, Dennis | Haller, Heidemarie | Lauche, Romy | Dobos, Gustav | Cramer, Holger | Azizi, Hoda | Khadem, Nayereh | Hassanzadeh, Malihe | Estiri, Nazanin | Azizi, Hamideh | Tavassoli, Fatemeh | Lotfalizadeh, Marzieh | Zabihi, Reza | Esmaily, Habibollah | Azizi, Hoda | Shabestari, Mahmoud Mohammadzadeh | Paeizi, Reza | Azari, Masoumeh Alvandi | Bahrami-Taghanaki, Hamidreza | Zabihi, Reza | Azizi, Hamideh | Esmaily, Habibollah | Baars, Erik | De Bruin, Anja | Ponstein, Anne | Baccetti, Sonia | Di Stefano, Mariella | Rossi, Elio | Firenzuoli, Fabio | Segantini, Sergio | Monechi, Maria Valeria | Voller, Fabio | Barth, Jürgen | Kern, Alexandra | Lüthi, Sebastian | Witt, Claudia | Barth, Jürgen | Zieger, Anja | Otto, Fabius | Witt, Claudia | Beccia, Ariel | Dunlap, Corina | Courneene, Brendan | Bedregal, Paula | Passi, Alvaro | Rodríguez, Alfredo | Chang, Mayling | Gutiérrez, Soledad | Beissner, Florian | Beissner, Florian | Preibisch, Christine | Schweizer-Arau, Annemarie | Popovici, Roxana | Meissner, Karin | Beljanski, Sylvie | Belland, Laura | Rivera-Reyes, Laura | Hwang, Ula | Berger, Bettina | Sethe, Dominik | Hilgard, Dörte | Heusser, Peter | Bishop, Felicity | Al-Abbadey, Miznah | Bradbury, Katherine | Carnes, Dawn | Dimitrov, Borislav | Fawkes, Carol | Foster, Jo | MacPherson, Hugh | Roberts, Lisa | Yardley, Lucy | Lewith, George | Bishop, Felicity | Al-Abbadey, Miznah | Bradbury, Katherine | Carnes, Dawn | Dimitrov, Borislav | Fawkes, Carol | Foster, Jo | MacPherson, Hugh | Roberts, Lisa | Yardley, Lucy | Lewith, George | Bishop, Felicity | Holmes, Michelle | Lewith, George | Yardley, Lucy | Little, Paul | Cooper, Cyrus | Bogani, Patrizia | Maggini, Valentina | Gallo, Eugenia | Miceli, Elisangela | Biffi, Sauro | Mengoni, Alessio | Fani, Renato | Firenzuoli, Fabio | Brands-Guendling, Nadine | Guendling, Peter W. | Bronfort, Gert | Evans, Roni | Haas, Mitch | Leininger, Brent | Schulz, Craig | Bu, Xiangwei | Wang, J. | Fang, T. | Shen, Z. | He, Y. | Zhang, X. | Zhang, Zhengju | Wang, Dali | Meng, Fengxian | Büssing, Arndt | Baumann, Klaus | Frick, Eckhard | Jacobs, Christoph | Büssing, Arndt | Grünther, Ralph-Achim | Lötzke, Désirée | Büssing, Arndt | Jung, Sonny | Lötzke, Désirée | Recchia, Daniela R. | Robens, Sibylle | Ostermann, Thomas | Berger, Bettina | Stankewitz, Josephin | Kröz, Matthias | Jeitler, Mika | Kessler, Christian | Michalsen, Andreas | Cheon, Chunhoo | Jang, Bo H. | Ko, Seong G. | Huang, Ching W. | Sasaki, Yui | Ko, Youme | Cheshire, Anna | Ridge, Damien | Hughes, John | Peters, David | Panagioti, Maria | Simon, Chantal | Lewith, George | Cho, Hyun J. | Han, Dongwoon | Choi, Soo J. | Jung, Young S. | Im, Hyea B | Cooley, Kieran | Tummon-Simmons, Laura | Cotton, Sian | Luberto, Christina M. | Wasson, Rachel | Kraemer, Kristen | Sears, Richard | Hueber, Carly | Derk, Gwendolyn | Lill, JR | An, Ruopeng | Steinberg, Lois | Rodriguez, Lourdes Diaz | la Fuente, Francisca García-de | De la Vega, Miguel | Vargas-Román, Keyla | Fernández-Ruiz, Jonatan | Cantarero-Villanueva, Irene | Rodriguez, Lourdes Diaz | García-De la Fuente, Francisca | Jiménez-Guerrero, Fanny | Vargas-Román, Keyla | Fernández-Ruiz, Jonatan | Galiano-Castillo, Noelia | Diaz-Saez, Gualberto | Torres-Jimenez, José I. | Garcia-Gomez, Olga | Hortal-Muñoz, Luis | Diaz-Diez, Camino | Dicen, Demijon | Diezel, Helene | Adams, Jon | Steel, Amie | Wardle, Jon | Diezel, Helene | Steel, Amie | Frawley, Jane | Wardle, Jon | Broom, Alex | Adams, Jon | Dong, Fei | Yu, He | Liu, Tiegang | Ma, Xueyan | Yan, Liyi | Wan, Yuxiang | Zheng, Zian | Gu, Xiaohong | Dong, Fei | Yu, He | Wu, Liqun | Liu, Tiegang | Ma, Xueyan | Ma, Jiaju | Yan, Liyi | Wan, Yuxiang | Zheng, Zian | Zhen, Jianhua | Gu, Xiaohong | Dubois, Julie | Rodondi, Pierre-Yves | Edelhäuser, Friedrich | Schwartze, Sophia | Trapp, Barbara | Cysarz, Dirk
doi:10.1186/s12906-017-1782-4
PMCID: PMC5498855
3.  Cryopreservation of Endothelial Cells in Various Cryoprotective Agents and Media – Vitrification versus Slow Freezing Methods 
PLoS ONE  2016;11(2):e0149660.
Vitrification of endothelial cells (MHECT-5) has not previously been compared with controlled slow freezing methods under standardized conditions. To identify the best cryopreservation technique, we evaluated vitrification and standardized controlled-rate -1°C/minute cell freezing in a -80°C freezer and tested four cryoprotective agents (CPA), namely dimethyl sulfoxide (DMSO), ethylene glycol (EG), propylene glycol (PG), and glycerol (GLY), and two media, namely Dulbecco's modified Eagle medium Ham’s F-12 (DMEM)and K+-modified TiProtec (K+TiP), which is a high-potassium-containing medium. Numbers of viable cells in proliferation were evaluated by the CellTiter 96® AQueous One Solution Cell Proliferation Assay (Promega Corporation, Mannheim, Germany). To detect the exact frozen cell number per cryo vial, DNA content was measured by using Hoechst 33258 dye prior to analysis. Thus, results could be evaluated unconstrained by absolute cell number. Thawed cells were cultured in 25 cm2 cell culture flasks to confluence and examined daily by phase contrast imaging. With regard to cell recovery immediately after thawing, DMSO was the most suitable CPA combined with K+TiP in vitrification (99 ±0.5%) and with DMEM in slow freezing (92 ±1.6%). The most viable cells in proliferation after three days of culture were obtained in cells vitrificated by using GLY with K+TiP (308 ±34%) and PG with DMEM in slow freezing (280 ±27%).
doi:10.1371/journal.pone.0149660
PMCID: PMC4758583  PMID: 26890410
4.  Marine Collagen Scaffolds for Nasal Cartilage Repair: Prevention of Nasal Septal Perforations in a New Orthotopic Rat Model Using Tissue Engineering Techniques 
Tissue Engineering. Part A  2013;19(19-20):2201-2214.
Autologous grafts are frequently needed for nasal septum reconstruction. Because they are only available in limited amounts, there is a need for new cartilage replacement strategies. Tissue engineering based on the use of autologous chondrocytes and resorbable matrices might be a suitable option. So far, an optimal material for nasal septum reconstruction has not been identified. The aim of our study was to provide the first evaluation of marine collagen for use in nasal cartilage repair. First, we studied the suitability of marine collagen as a cartilage replacement matrix in the context of in vitro three dimensional cultures by analyzing cell migration, cytotoxicity, and extracellular matrix formation using human and rat nasal septal chondrocytes. Second, we worked toward developing a suitable orthotopic animal model for nasal septum repair, while simultaneously evaluating the biocompatibility of marine collagen. Seeded and unseeded scaffolds were transplanted into nasal septum defects in an orthotopic rat model for 1, 4, and 12 weeks. Explanted scaffolds were histologically and immunohistochemically evaluated. Scaffolds did not induce any cytotoxic reactions in vitro. Chondrocytes were able to adhere to marine collagen and produce cartilaginous matrix proteins, such as collagen type II. Treating septal cartilage defects in vivo with seeded and unseeded scaffolds led to a significant reduction in the number of nasal septum perforations compared to no replacement. In summary, we demonstrated that marine collagen matrices provide excellent properties for cartilage tissue engineering. Marine collagen scaffolds are able to prevent septal perforations in an autologous, orthotopic rat model. This newly described experimental surgical procedure is a suitable way to evaluate new scaffold materials for their applicability in the context of nasal cartilage repair.
doi:10.1089/ten.tea.2012.0650
PMCID: PMC3762606  PMID: 23621795
5.  Bone marrow-derived mesenchymal stem cells migrate to healthy and damaged salivary glands following stem cell infusion 
Xerostomia is a severe side effect of radiation therapy in head and neck cancer patients. To date, no satisfactory treatment option has been established. Because mesenchymal stem cells (MSCs) have been identified as a potential treatment modality, we aimed to evaluate stem cell distribution following intravenous and intraglandular injections using a surgical model of salivary gland damage and to analyse the effects of MSC injections on the recruitment of immune cells. The submandibular gland ducts of rats were surgically ligated. Syngeneic adult MSCs were isolated, immortalised by simian virus 40 (SV40) large T antigen and characterized by flow cytometry. MSCs were injected intravenously and intraglandularly. After 1, 3 and 7 days, the organs of interest were analysed for stem cell recruitment. Inflammation was analysed by immunohistochemical staining. We were able to demonstrate that, after intravenous injection, MSCs were recruited to normal and damaged submandibular glands on days 1, 3 and 7. Unexpectedly, stem cells were recruited to ligated and non-ligated glands in a comparable manner. After intraglandular injection of MSCs into ligated glands, the presence of MSCs, leucocytes and macrophages was enhanced, compared to intravenous injection of stem cells. Our data suggest that injected MSCs were retained within the inflamed glands, could become activated and subsequently recruited leucocytes to the sites of tissue damage.
doi:10.1038/ijos.2014.23
PMCID: PMC4170149  PMID: 24810808
duct ligation; mesenchymal stem cells; submandibular gland injury; xerostomia
6.  Magnetic Resonance Imaging of the Ear for Patient-Specific Reconstructive Surgery 
PLoS ONE  2014;9(8):e104975.
Introduction
Like a fingerprint, ear shape is a unique personal feature that should be reconstructed with a high fidelity during reconstructive surgery. Ear cartilage tissue engineering (TE) advantageously offers the possibility to use novel 3D manufacturing techniques to reconstruct the ear, thus allowing for a detailed auricular shape. However it also requires detailed patient-specific images of the 3D cartilage structures of the patient’s intact contralateral ear (if available). Therefore the aim of this study was to develop and evaluate an imaging strategy for acquiring patient-specific ear cartilage shape, with sufficient precision and accuracy for use in a clinical setting.
Methods and Materials
Magnetic resonance imaging (MRI) was performed on 14 volunteer and six cadaveric auricles and manually segmented. Reproducibility of cartilage volume (Cg.V), surface (Cg.S) and thickness (Cg.Th) was assessed, to determine whether raters could repeatedly define the same volume of interest. Additionally, six cadaveric auricles were harvested, scanned and segmented using the same procedure, then dissected and scanned using high resolution micro-CT. Correlation between MR and micro-CT measurements was assessed to determine accuracy.
Results
Good inter- and intra-rater reproducibility was observed (precision errors <4% for Cg.S and <9% for Cg.V and Cg.Th). Intraclass correlations were good for Cg.V and Cg.S (>0.82), but low for Cg.Th (<0.23) due to similar average Cg.Th between patients. However Pearson’s coefficients showed that the ability to detect local cartilage shape variations is unaffected. Good correlation between clinical MRI and micro-CT (r>0.95) demonstrated high accuracy.
Discussion and Conclusion
This study demonstrated that precision and accuracy of the proposed method was high enough to detect patient-specific variation in ear cartilage geometry. The present study provides a clinical strategy to access the necessary information required for the production of 3D ear scaffolds for TE purposes, including detailed patient-specific shape. Furthermore, the protocol is applicable in daily clinical practice with existing infrastructure.
doi:10.1371/journal.pone.0104975
PMCID: PMC4140740  PMID: 25144306
7.  Iodine-125 brachytherapy for brain tumours - a review 
Iodine-125 brachytherapy has been applied to brain tumours since 1979. Even though the physical and biological characteristics make these implants particularly attractive for minimal invasive treatment, the place for stereotactic brachytherapy is still poorly defined.
An extensive review of the literature has been performed, especially concerning indications, results and complications. Iodine-125 seeds have been implanted in astrocytomas I-III, glioblastomas, metastases and several other tumour entities. Outcome data given in the literature are summarized. Complications are rare in carefully selected patients.
All in all, for highly selected patients with newly diagnosed or recurrent primary or metastatic tumours, this method provides encouraging survival rates with relatively low complication rates and a good quality of life.
doi:10.1186/1748-717X-7-30
PMCID: PMC3354996  PMID: 22394548
Stereotactic brachytherapy; interstitial brachytherapy; seed; iodine-125; brain tumour
8.  The effect of radio-adaptive doses on HT29 and GM637 cells 
Background
The shape of the dose-response curve at low doses differs from the linear quadratic model. The effect of a radio-adaptive response is the centre of many studies and well known inspite that the clinical applications are still rarely considered.
Methods
We studied the effect of a low-dose pre-irradiation (0.03 Gy – 0.1 Gy) alone or followed by a 2.0 Gy challenging dose 4 h later on the survival of the HT29 cell line (human colorectal cancer cells) and on the GM637 cell line (human fibroblasts).
Results
0.03 Gy given alone did not have a significant effect on both cell lines, the other low doses alone significantly reduced the cell survival. Applied 4 h before the 2.0 Gy fraction, 0.03 Gy led to a significant induced radioresistance in GM637 cells, but not in HT29 cells, and 0.05 Gy led to a significant hyperradiosensitivity in HT29 cells, but not in GM637 cells.
Conclusion
A pre-irradiation with 0.03 Gy can protect normal fibroblasts, but not colorectal cancer cells, from damage induced by an irradiation of 2.0 Gy and the application of 0.05 Gy prior to the 2.0 Gy fraction can enhance the cell killing of colorectal cancer cells while not additionally damaging normal fibroblasts. If these findings prove to be true in vivo as well this may optimize the balance between local tumour control and injury to normal tissue in modern radiotherapy.
doi:10.1186/1748-717X-3-12
PMCID: PMC2387149  PMID: 18433479

Results 1-8 (8)