Nadine Wiesmann scite author profile

The chorioallantoic-membrane (CAM)-assay is an established model for in vivo tumor research. Contrary to rodent-xenograft-models, the CAM-assay does not require breeding of immunodeficient strains due to native immunodeficiency. This allows xenografts to grow on the non-innervated CAM without pain or impairment for the embryo. Considering multidirectional tumor growth, limited monitoring capability of tumor size is the main methodological limitation of the CAM-assay for tumor research. Enclosure of the tumor by the radiopaque eggshell and the small structural size only allows monitoring from above and challenges established imaging techniques. We report the eligibility of ultrasonography for repetitive visualization of tumor growth and vascularization in the CAM-assay. After tumor ingrowth, ultrasonography was repetitively performed in ovo using a commercial ultrasonographic scanner. Finally, the tumor was excised and histologically analyzed. Tumor growth and angiogenesis were successfully monitored and findings in ultrasonographic imaging significantly correlated with results obtained in histological analysis. Ultrasonography is cost efficient and widely available. Tumor imaging in ovo enables the longitudinal monitoring of tumoral development, yet allowing high quantitative output due to the CAM-assays simple and cheap methodology. Thus, this methodological novelty improves reproducibility in the field of in vivo tumor experimentation emphasizing the CAM-assay as an alternative to rodent-xenograft-models.

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Nanozymes in Nanofibrous Mats with Haloperoxidase-like Activity To Combat Biofouling

Korschelt

Viel

et al. 2018

ACS Appl. Mater. Interfaces

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Electrospun polymer mats are widely used in tissue engineering, wearable electronics, and water purification. However, in many environments, the polymer nanofibers prepared by electrospinning suffer from biofouling during long-term usage, resulting in persistent infections and device damage. Herein, we describe the fabrication of polymer mats with CeO 2−x nanorods that can prevent biofouling in an aqueous environment. The embedded CeO 2−x nanorods are functional mimics of natural haloperoxidases that catalyze the oxidative bromination of Br − and H 2 O 2 to HOBr. The generated HOBr, a natural signaling molecule, disrupted the bacterial quorum sensing, a critical step in biofilm formation. The polymer fibers provide porous structures with high water wettability, and the embedded cerium oxide nanozymes act as a catalyst that can efficiently trigger oxidative bromination, as shown by a haloperoxidase assay. Additionally, the embedded nanozymes enhance the mechanical property of polymer mats, as shown by a single-fiber bending test using atomic force microscopy. We envision that the fabricated polymer mats with CeO 2−x nanorods may be used to provide mechanically robust coatings with antibiofouling properties.

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Zinc overload mediated by zinc oxide nanoparticles as innovative anti-tumor agent

Wiesmann

Kluenker

Demuth

et al. 2019

Journal of Trace Elements in Medicine and Biology

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Comparative analysis of the impact of e-cigarette vapor and cigarette smoke on human gingival fibroblasts

Vermehren

Wiesmann

Deschner

et al. 2020

Toxicology in Vitro

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Nadine Wiesmann

Zinc oxide nanoparticles for therapeutic purposes in cancer medicine

Monitoring of tumor growth and vascularization with repetitive ultrasonography in the chicken chorioallantoic-membrane-assay

Nanozymes in Nanofibrous Mats with Haloperoxidase-like Activity To Combat Biofouling

Zinc overload mediated by zinc oxide nanoparticles as innovative anti-tumor agent

Comparative analysis of the impact of e-cigarette vapor and cigarette smoke on human gingival fibroblasts

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