9 research outputs found
Two different prostate cancer cell lines attach and proliferate on zein foams.
<p>A portion of the porous surface of a wpTPZ foam as observed by confocal microscopy at 20X (A) before cell seeding, and (B) 22RV1 cells after seven days of growth. Prostate cancer cell lines cultured on wpTPZ attach, proliferate, and develop into tree-like structures on the edge of wpTPZ foams: (C) 22RV1 cells observed at the third day of culture (24X; stereoscopic microscope); (D) Du145 cells observed at the third day of culture (24X; stereoscopic microscope).</p
Maize-derived thermoplastic were produced by (A) thermo-extrusion in a twin conical screw mini extruder (Haake MiniLab, Thermo Scientific, USA) followed by thermopressing at 20 MPa for 4 min in a P300P press (Collin, Germany).
<p>(B) Slabs of these plastics were subjected to supercritical CO<sub>2</sub> foaming, which occurred in two stages: (C) diffusion and solubilization of CO<sub>2</sub> molecules within a solid material matrix at supercritical conditions, and (D) a sudden drop in pressure allows the formation of CO<sub>2</sub> bubbles within the material.</p
Relevant indicators of the quality of foams obtained by supercritical CO<sub>2</sub> expansion in slabs derived from thermoplasticized starch plasticized with urea/formamide (TPSuf foams) and thermoplasticized zein (TPZ foams).
<p><sup>1</sup>Pore size is expressed as the projected area of the pore as determined by image analysis of electronic microscope micrographs.</p><p><sup>2</sup>Higher ratios of Thickness/Surface expansion indicate more spherical pores.</p><p>Relevant indicators of the quality of foams obtained by supercritical CO<sub>2</sub> expansion in slabs derived from thermoplasticized starch plasticized with urea/formamide (TPSuf foams) and thermoplasticized zein (TPZ foams).</p
Scanning electronic microscope (SEM) micrographs of transverse cuts of slabs made from whole flour or starch/zein blends after exposure to CO<sub>2</sub> supercritical foaming:
<p>(A) TPBM120 slab (3000X magnification); (B) TPBM120 slab (6000X magnification); (C) Mix[TPZ&TPSsg] slab (1500X magnification); (D) Mix[TPZ&TPSsg] slab (3000X magnification), (E) Mix[TPZ&TPSuf] slab (3000X magnification), and (F) TPmBM slab (1500X magnification).</p
Scanning electronic microscope (SEM) micrographs and pore size distributions of foams.
<p>Foams made from (A) starch slabs thermoplasticized at 135°C and 50 rpm using urea/formamide as a plasticizer (sample TPSuf); observed at 1500X, and (B) at 2000X magnification. Foams made from zein slabs thermoplasticized at 75°C and 50 rpm (sample TPZ); observed at (C) 1500X, and (D) 2000X magnification. (E) The cumulative distribution of pore sizes, as calculated by image analysis of SEM micrographs, is presented for TPSuf foams (blue line) and Z foams (yellow line). Pore sizes are expressed in terms of projected areas ([=] μm<sup>2</sup>). The frequency distribution of pore sizes calculated by image analysis of SEM micrographs is presented for (F) TPSuf foams, and (G) TPZ foams.</p
Schematic representation of the experimental treatments and materials derived from them:
<div><p>TPZ: thermoplasticized zein; TPS: thermoplasticized starch; TPBMx: thermoplasticized blue maize (x is a suffix that indicates extrusion temperature); TPmBM: thermoplasticized chemically modified blue maize (as described in materials and methods); Mix[TPS<sub>y</sub>+TPZ]<sup>a</sup>: thermoplasticized blends of TPS and TPZ (80:20 wt/wt).</p>
<p>The y subindex indicates the plasticizer used to produce TPS. <sup>a</sup>Blends were produced using the close mode compounding described in materials and methods. Plasticizers used where sg (sorbitol-glycerol); uf (urea-formamide); and PEG400 (poly-ethylene glycol with m.w. = 400 Da).</p></div
(A) Samples of maize-derived thermoplastics exposed to supercritical CO<sub>2</sub> foaming exhibited different fold increases in thickness (blue), surface area (yellow), and volume (red).
<p>Insets show photographic images of samples elaborated from TPS, TPZ, and TBM140 (B) before and (C,D) after exposure supercritical CO<sub>2</sub> foaming.</p
Processing conditions used to elaborate maize derived bioplastics later exposed to CO<sub>2</sub> supercritical foaming conditions.
<p><b>Plasticizers:</b> Peg400: polyethylene-glycol 400; uf: urea/formamide; sg: sorbitol and glycerol mixture (1.4:1 wt/wt).</p><p><b>Bioplastics:</b> TPZ: thermoplasticized zein; TPS: thermoplasticized starch; TPBMx: thermoplasticized blue maize (x is a suffix that indicate extrusion temperature); TPmBM: thermoplasticized chemically modified blue maize (as described in materials and methods); Mix[TPS<sub>y</sub>+TPZ]<sup>a</sup>: thermoplasticized Blends of TPS and TPZ (80:20 wt/wt). The y subindex indicates the plasticizer used to produce TPS. <sup>a</sup>Blends were produced using the close mode compounding described in materials and methods.</p><p>Processing conditions used to elaborate maize derived bioplastics later exposed to CO<sub>2</sub> supercritical foaming conditions.</p
Fibroblasts anchor and proliferate on zein foam surfaces.
<p>Confocal microscopy images showing DAPI and MitoTracker co-stained fibroblasts growing on zein foam surfaces. (A) Confocal image showing the intrinsic fluorescence of a zein foam surface (green fluorescent x-y plane). A line of cells (indicated by a single-head arrow), which developed on the edge of the x-y plane, can be seen (blue cell nuclei and red-stained mitochondria). (B) A confocal 2D cut at a slightly closer x-y plane (above that shown in A) reveals the presence of active cells covering the zein surface. DAPI and MitoTracker staining was used to reveal cell nuclei (blue) and mitochondria of metabolically active cells (red). A thick multi-layer of cells is indicated with a double-headed arrow. Green fluorescent regions, corresponding to the zein foams underneath the layer of cells, can be observed (indicated with green arrows). (C) Fibroblasts seeded on zein foams and fed continuously at 0.003 mL min<sup>-1</sup> in a flow chamber linearly increased their global glucose consumption during the first 60 h of continuous culture. Dotted line indicates best linear fit. Error bars indicate standard deviation of three independent replicates. (D) Scheme of the continuous flow chamber (effective volume of 100 μL).</p