Minuth Ww scite author profile

Minuth Ww

5Publications

83Citation Statements Received

29Citation Statements Given

How they've been cited

128

How they cite others

Affiliations

University of Regensburg, Heidelberg University

Publications

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Artificial Tissues in Perfusion Culture

et al. 1997

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In the stagnant environment of traditional culture dishes it is difficult to generate long term experiments or artificial tissues from human cells. For this reason a perfusion culture system with a stable supply of nutrients was developed. Human chondrocytes were seeded three-dimensionally in resorbable polymer fleeces. The cell-polymer tissues were then mounted in newly developed containers (W.W. Minuth et al, Biotechniques, 1996) and continuously perfused by fresh medium for 40 days. Samples from the effluate were analyzed daily, and the pH of the medium and glucose concentration remained stable during this period. The lactid acid concentration increased from 0.17 mg/ml to 0.35 mg/ml, which was influenced by the degradation of the resorbable polymer fibers used as three dimensional support material for the cells. This perfusion system proved to be reliable especially in long term cultures. Any components in the culture medium of the cells could be monitored without disturbances as caused by manual medium replacement. These results suggest the described perfusion culture system to be a valuable and convenient tool for many applications in tissue engineering, especially in the generation of artificial connective tissue.

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Long term culture of epithelia in a continuous fluid gradient for biomaterial testing and tissue engineering

Strehl

Schumacher

et al. 2001

Journal of Biomaterials Science, Polymer Edition

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Epithelia perform barrier functions being exposed to different fluids on the luminal and basal side. For long-term testing of new biomaterials as artificial basement membrane substitutes, it is important to simulate this fluid gradient. Individually-selected biomaterials can be placed in tissue carriers and in gradient containers, where different media are superfused. Epithelia growing on the tissue carriers form a physiological barrier during the whole culture period. Frequently however, pressure differences between the luminal and basal compartments occur. This is caused by a unilateral accumulation of gas bubbles in the container compartments resulting in tissue damage. Consequently, the occurence of gas bubbles has to be minimized. Air bubbles in the perfusion culture medium preferentially accumulate at sites where different materials come into contact. The first development is new screw caps for media bottles, specifically designed to allow fluid contact with only the tube and not the cap material. The second development is the separation of remaining gas bubbles from the liquid phase in the medium using newly-developed gas expander modules. By the application of these new tools, the yield of embryonic renal collecting duct epithelia with intact barrier function on a fragile natural support material can be significantly increased compared to earlier experiments.

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Cell associated glycoproteins synthesized by cultured renal tubular cells

1982

Histochemistry

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Thin cortical kidney explants from newborn New Zealand rabbits were cultured in Dulbecco's MEM containing 10% fetal bovine serum. Within 24 h the explants formed globular bodies which were completely covered by a monolayered epithelium. The cells show polar differentiation and resemble the renal collecting duct epithelium. By culturing the globular bodies in Dulbecco's MEM with D-valine instead of L-valine additionally a monolayer of renal collecting duct cells was obtained. For the study of glycoprotein synthesis the globular bodies and the collecting duct monolayers were incubated with various labelled carbohydrates, protein and collagen precursors and then fractionated into coarse membrane pellets. The synthesized glycoproteins were regained in 600 x g and 12,000 x g coarse membrane fractions and extracted with Triton X 100 buffer for column chromatography and SDS-polyacrylamide electrophoresis in 6 M urea. In addition to a 85,000 d glycoprotein, a carbohydrate rich collagen like protein (apparent molecular weight in column chromatography 200,000 d, in the SDS-polyacrylamide electrophoresis 150,000 d) was found. The 150,000 d glycoprotein incorporates favorably radioactive proline, sulfate, and smaller amounts of lysine, and leucine. Compared to the 85,000 d glycoprotein a double amount of glucosamine and galactose and four fold amount of fucose was detected. The 85,000 d protein has to be ascribed as a usual glycoprotein, in contrast the 150,000 d protein shows an unusual combination of characteristics and has to be considered as a new type of renal glycoprotein.

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The pig yolk sac II

Tiedemann

1980

Histochemistry

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Since previous morphological studies have revealed abundant rough endoplasmic reticulum in the yolk sac endoderm, pig yolk sac explants from 30 day old embryos were incubated for 3-12 h with [3H]-L-leucine in order to study their protein biosynthesis. They were fractionated into a 12,000 X g-pellet, 105,000 X g-pellet, and supernatant. Newly synthesized proteins in these tissue fractions, and proteins discharged into the culture medium, were analysed with the aid of scintillation technique and identified by column chromatography, SDS-polyacrylamide gel electrophoresis with urea, isoelectrofocusing, and 2D-electrophoresis. Most of the radioactivity incorporated into the tissue fractions was regained from the coarse pellet and was located in the molecular weight region between 70,000 and 45,000 daltons, indicating that most of the newly synthesized proteins are membrane bound and include albumin. Albumin, an acid protein of a MW around 80,000 daltons, and many neutral and basic peptides were present in the culture medium. The yolk sac endodermal cells of the pig synthesize less proteins than those of the cat, although the pig cells display much larger amounts of endoplasmic reticulum.

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View onto the Nephrogenic Zone before Stem Cell Niches Come Apart: Challenge for Smart Drug Delivery

Ww¹

2017

J Drug Res Dev

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Minuth Ww

Artificial Tissues in Perfusion Culture

Long term culture of epithelia in a continuous fluid gradient for biomaterial testing and tissue engineering

Cell associated glycoproteins synthesized by cultured renal tubular cells

The pig yolk sac II

View onto the Nephrogenic Zone before Stem Cell Niches Come Apart: Challenge for Smart Drug Delivery

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