@article{SweeneySeubertStarketal.2012,
  author    = {Sweeney, Reinhart A. and Seubert, Benedikt and Stark, Silke and Homann, Vanessa and M{\"u}ller, Gerd and Flentje, Michael and Guckenbeger, Matthias},
  title     = {Accuracy and inter-observer variability of 3D versus 4D cone-beam CT based image-guidance in SBRT for lung tumors},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-75698},
  year      = {2012},
  abstract  = {Background: To analyze the accuracy and inter-observer variability of image-guidance (IG) using 3D or 4D cone-beam CT (CBCT) technology in stereotactic body radiotherapy (SBRT) for lung tumors. Materials and methods: Twenty-one consecutive patients treated with image-guided SBRT for primary and secondary lung tumors were basis for this study. A respiration correlated 4D-CT and planning contours served as reference for all IG techniques. Three IG techniques were performed independently by three radiation oncologists (ROs) and three radiotherapy technicians (RTTs). Image-guidance using respiration correlated 4D-CBCT (IG-4D) with automatic registration of the planning 4D-CT and the verification 4D-CBCT was considered gold-standard. Results were compared with two IG techniques using 3D-CBCT: 1) manual registration of the planning internal target volume (ITV) contour and the motion blurred tumor in the 3D-CBCT (IG-ITV); 2) automatic registration of the planning reference CT image and the verification 3D-CBCT (IG-3D). Image quality of 3D-CBCT and 4D-CBCT images was scored on a scale of 1-3, with 1 being best and 3 being worst quality for visual verification of the IGRT results. Results: Image quality was scored significantly worse for 3D-CBCT compared to 4D-CBCT: the worst score of 3 was given in 19 \% and 7.1 \% observations, respectively. Significant differences in target localization were observed between 4D-CBCT and 3D-CBCT based IG: compared to the reference of IG-4D, tumor positions differed by 1.9 mm± 0.9 mm (3D vector) on average using IG-ITV and by 3.6 mm± 3.2 mm using IG-3D; results of IG-ITV were significantly closer to the reference IG-4D compared to IG-3D. Differences between the 4D-CBCT and 3D-CBCT techniques increased significantly with larger motion amplitude of the tumor; analogously, differences increased with worse 3D-CBCT image quality scores. Inter-observer variability was largest in SI direction and was significantly larger in IG using 3D-CBCT compared to 4D-CBCT: 0.6 mm versus 1.5 mm (one standard deviation). Inter-observer variability was not different between the three ROs compared to the three RTTs. Conclusions: Respiration correlated 4D-CBCT improves the accuracy of image-guidance by more precise target localization in the presence of breathing induced target motion and by reduced inter-observer variability.},
  subject      = {Medizin},
  language  = {en}
}
@article{HofmannWeibelSzalay2014,
  author    = {Hofmann, Elisabeth and Weibel, Stephanie and Szalay, Aladar A.},
  title     = {Combination treatment with oncolytic Vaccinia virus and cyclophosphamide results in synergistic antitumor effects in human lung adenocarcinoma bearing mice},
  doi       = {10.1186/1479-5876-12-197},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-110168},
  year      = {2014},
  abstract  = {Background The capacity of the recombinant Vaccinia virus GLV-1h68 as a single agent to efficiently treat different human or canine cancers has been shown in several preclinical studies. Currently, its human safety and efficacy are investigated in phase I/II clinical trials. In this study we set out to evaluate the oncolytic activity of GLV-1h68 in the human lung adenocarcinoma cell line PC14PE6-RFP in cell cultures and analyzed the antitumor potency of a combined treatment strategy consisting of GLV-1h68 and cyclophosphamide (CPA) in a mouse model of PC14PE6-RFP lung adenocarcinoma. Methods PC14PE6-RFP cells were treated in cell culture with GLV-1h68. Viral replication and cell survival were determined by plaque assays and 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assays, respectively. Subcutaneously implanted PC14PE6-RFP xenografts were treated by systemic injection of GLV-1h68, CPA or a combination of both. Tumor growth and viral biodistribution were monitored and immune-related antigen profiling of tumor lysates was performed. Results GLV-1h68 efficiently infected, replicated in and lysed human PC14PE6-RFP cells in cell cultures. PC14PE6-RFP tumors were efficiently colonized by GLV-1h68 leading to much delayed tumor growth in PC14PE6-RFP tumor-bearing nude mice. Combination treatment with GLV-1h68 and CPA significantly improved the antitumor efficacy of GLV-1h68 and led to an increased viral distribution within the tumors. Pro-inflammatory cytokines and chemokines were distinctly elevated in tumors of GLV-1h68-treated mice. Factors expressed by endothelial cells or present in the blood were decreased after combination treatment. A complete loss in the hemorrhagic phenotype of the PC14PE6-RFP tumors and a decrease in the number of blood vessels after combination treatment could be observed. Conclusions CPA and GLV-1h68 have synergistic antitumor effects on PC14PE6-RFP xenografts. We strongly suppose that in the PC14PE6-RFP model the enhanced tumor growth inhibition achieved by combining GLV-1h68 with CPA is due to an effect on the vasculature rather than an immunosuppressive action of CPA. These results provide evidence to support further preclinical studies of combining GLV-1h68 and CPA in other highly angiogenic tumor models. Moreover, data presented here demonstrate that CPA can be combined successfully with GLV-1h68 based oncolytic virus therapy and therefore might be promising as combination therapy in human clinical trials.},
  language  = {en}
}
@phdthesis{Zanucco2011,
  author    = {Zanucco, Emanuele},
  title     = {Role of oncogenic and wild type B-RAF in mouse lung tumor models},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-69603},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2011},
  abstract  = {Von Wachstumsfaktoren regulierte Signalkaskaden sind Schl{\"u}sselelemente in der Gewebeentwicklung und Geweberegeneration. Eine Deregulation dieser Kaskaden f{\"u}hrt zu Entwicklungsst{\"o}rungen und neoplastischen Krankheiten. F{\"u}r viele humane Krebsformen sind aktivierende Mutationen der Kinasen der RAF Familie verantwortlich. Das erste Projekt dieser Doktorarbeit fokussiert auf der Rolle des B-RAF V600E, welches als eine der am h{\"a}ufigsten vorkommenden Mutantionen in humanen Krebszellen identifiziert worden ist. Um die onkogene Funktion des B-RAF V600E zu untersuchen, haben wir transgene Mauslinien hergestellt, welche das aktivierte Onkogen spezifisch in alveolaren Lungenepithelzellen des Typ II exprimieren. Konstitutive Expression des B-RAF V600E f{\"u}hrte zu einer abnormen alveolaren Epithelzellbildung und zu Emphysem-{\"a}hnlichen L{\"a}sionen. Diese L{\"a}sionen wiesen Zeichen einer Gewebsumstrukturierung auf, oft in Assoziation mit chronischer Inflammation und geringer Inzidenz von Lungentumoren. Die Infiltration der entz{\"u}ndlichen Zellen erfolgte erst nach der Entstehung von Emphysem-{\"a}hnlichen L{\"a}sionen und k{\"o}nnte zur sp{\"a}teren Tumorbildung beigetragen haben. Diese Ergebnisse unterst{\"u}tzen ein Modell, in welchem der kontinuierliche regenerative Prozess eine tumorf{\"o}rdernde Umgebung schafft. Dabei induziert die Aktivit{\"a}t des onkogenen B-RAF eine alveolare St{\"o}rung, welche urs{\"a}chlich verantwortlich ist f{\"u}r den kontinuierlichen regenerativen Prozess. Das zweite Projekt fokussiert auf die Rolle von endogenem (wildtypischen) B-RAF in einem durch onkogenes C-RAF induzierten Maus Lungentumormodell. F{\"u}r unsere Untersuchungen haben wir eine Mauslinie geschaffen, in welcher B-RAF in den C-RAF Lungentumoren konditionell eliminiert werden kann. Eine konditionelle Eliminierung des B-RAF hat die Entstehung von Lungentumoren nicht blockiert, aber zu reduziertem Tumorwachstum gef{\"u}hrt. Dieses reduzierte Tumorwachstum konnte auf eine reduzierte Zellproliferation zur{\"u}ckgef{\"u}hrt werden. Außerdem konnten wir durch die B-RAF Elimination eine Reduktion der Intensit{\"a}t der mitogenen Signalkaskade beobachten. Insgesamt deuten die Ergebnisse darauf hin, dass das onkogene Potential von C-RAF in vivo unabh{\"a}ngig von B-RAF ist und eine Kooperation von B-RAF und C-RAF jedoch f{\"u}r die vollst{\"a}ndige Aktivierung der mitogenen Signalkaskade wichtig ist.},
  subject      = {Lungenkrebs},
  language  = {en}
}
@article{SzalayWeibelHofmannetal.2013,
  author    = {Szalay, Aladar A and Weibel, Stephanie and Hofmann, Elisabeth and Basse-Luesebrink, Thomas Christian and Donat, Ulrike and Seubert, Carolin and Adelfinger, Marion and Gnamlin, Prisca and Kober, Christina and Frentzen, Alexa and Gentschev, Ivaylo and Jakob, Peter Michael},
  title     = {Treatment of malignant effusion by oncolytic virotherapy in an experimental subcutaneous xenograft model of lung cancer},
  series = {Journal of Translational Medicine},
  journal   = {Journal of Translational Medicine},
  doi       = {doi:10.1186/1479-5876-11-106},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-96016},
  year      = {2013},
  abstract  = {Background Malignant pleural effusion (MPE) is associated with advanced stages of lung cancer and is mainly dependent on invasion of the pleura and expression of vascular endothelial growth factor (VEGF) by cancer cells. As MPE indicates an incurable disease with limited palliative treatment options and poor outcome, there is an urgent need for new and efficient treatment options. Methods In this study, we used subcutaneously generated PC14PE6 lung adenocarcinoma xenografts in athymic mice that developed subcutaneous malignant effusions (ME) which mimic pleural effusions of the orthotopic model. Using this approach monitoring of therapeutic intervention was facilitated by direct observation of subcutaneous ME formation without the need of sacrificing mice or special imaging equipment as in case of MPE. Further, we tested oncolytic virotherapy using Vaccinia virus as a novel treatment modality against ME in this subcutaneous PC14PE6 xenograft model of advanced lung adenocarcinoma. Results We demonstrated significant therapeutic efficacy of Vaccinia virus treatment of both advanced lung adenocarcinoma and tumor-associated ME. We attribute the efficacy to the virus-mediated reduction of tumor cell-derived VEGF levels in tumors, decreased invasion of tumor cells into the peritumoral tissue, and to viral infection of the blood vessel-invading tumor cells. Moreover, we showed that the use of oncolytic Vaccinia virus encoding for a single-chain antibody (scAb) against VEGF (GLAF-1) significantly enhanced mono-therapy of oncolytic treatment. Conclusions Here, we demonstrate for the first time that oncolytic virotherapy using tumor-specific Vaccinia virus represents a novel and promising treatment modality for therapy of ME associated with advanced lung cancer.},
  subject      = {Lungenkrebs},
  language  = {en}
}