Filters

20172

More filters

20232
Reset filters

Settings

search.filters.applied.f.series: Scientific Reports 7 (2017), Nr. 1 × Subject: Biocompatible Materials ×

Search Results

Now showing 1 - 2 of 2
  • Thumbnail Image
    Item
    Cryogel-supported stem cell factory for customized sustained release of bispecific antibodies for cancer immunotherapy
    (London : Nature Publishing Group, 2017) Aliperta, Roberta; Welzel, Petra B.; Bergmann, Ralf; Freudenberg, Uwe; Berndt, Nicole; Feldmann, Anja; Arndt, Claudia; Koristka, Stefanie; Stanzione, Marcello; Cartellieri, Marc; Ehninger, Armin; Ehninger, Gerhard; Werner, Carsten; Pietzsch, Jens; Steinbach, Jörg; Bornhäuser, Martin; Bachmann, Michael P.
    Combining stem cells with biomaterial scaffolds provides a promising strategy for the development of drug delivery systems. Here we propose an innovative immunotherapeutic organoid by housing human mesenchymal stromal cells (MSCs), gene-modified for the secretion of an anti-CD33-anti-CD3 bispecific antibody (bsAb), in a small biocompatible star-shaped poly(ethylene glycol)-heparin cryogel scaffold as a transplantable and low invasive therapeutic machinery for the treatment of acute myeloid leukemia (AML). The macroporous biohybrid cryogel platform displays effectiveness in supporting proliferation and survival of bsAb-releasing-MSCs overtime in vitro and in vivo, avoiding cell loss and ensuring a constant release of sustained and detectable levels of bsAb capable of triggering T-cell-mediated anti-tumor responses and a rapid regression of CD33 + AML blasts. This therapeutic device results as a promising and safe alternative to the continuous administration of short-lived immunoagents and paves the way for effective bsAb-based therapeutic strategies for future tumor treatments.
  • Thumbnail Image
    Item
    Solid-state 31P and 1H chemical MR micro-imaging of hard tissues and biomaterials with magic angle spinning at very high magnetic field
    (London : Nature Publishing Group, 2017) Yon, Maxime; Sarou-Kanian, Vincent; Scheler, Ulrich; Bouler, Jean-Michel; Bujoli, Bruno; Massiot, Dominique; Fayon, Franck
    In this work, we show that it is possible to overcome the limitations of solid-state MRI for rigid tissues due to large line broadening and short dephasing times by combining Magic Angle Spinning (MAS) with rotating pulsed field gradients. This allows recording ex vivo 31P 3D and 2D slice-selected images of rigid tissues and related biomaterials at very high magnetic field, with greatly improved signal to noise ratio and spatial resolution when compared to static conditions. Cross-polarization is employed to enhance contrast and to further depict spatially localized chemical variations in reduced experimental time. In these materials, very high magnetic field and moderate MAS spinning rate directly provide high spectral resolution and enable the use of frequency selective excitation schemes for chemically selective imaging. These new possibilities are exemplified with experiments probing selectively the 3D spatial distribution of apatitic hydroxyl protons inside a mouse tooth with attached jaw bone with a nominal isotropic resolution nearing 100 μm.