Naoko Kagiwada scite author profile

Naoko Kagiwada

5Publications

24Citation Statements Received

38Citation Statements Given

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Affiliations

Shonan Oiso Hospital, Tokai University

Publications

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Evaluation of Proliferation and Functional Differentiation of LLC-PK1 Cells on Porous Polymer Membranes for the Development of a Bioartificial Renal Tubule Device

et al. 2005

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To develop a bioartificial renal tubule system using renal tubular cells and porous polymer membrane hollow fibers, long-term maintenance of a confluent monolayer and the functionally differentiated condition of cells is essential. We examined the proliferation and functional differentiation of LLC-PK1 (Lewis-lung cancer porcine kidney 1) cells on two types of membranes: polysulfone and cellulose acetate. Cell proliferation was significantly higher on the polysulfone membrane than on the cellulose acetate membrane, and was enhanced by coating the membranes with various extracellular matrices. Confluent monolayer formation of cells was observed on matrix-coated polysulfone membrane but not on matrix-coated cellulose acetate membrane within 1 week. Cell proliferation continued for 3 weeks after confluent monolayer formation. Messenger RNA (mRNA) expression of glucose transporters, indicators of the functional differentiation of the LLC-PK1 cells, was observed in the polysulfone and cellulose acetate membrane groups, but was not observed in the nonporous polystyrene plate group under subconfluent conditions. Expression of glucose transporters mRNA was maintained for 3 weeks after confluent monolayer formation. Polysulfone membrane is more suitable than cellulose acetate membrane for a bioartificial renal tubule system with regard to LLC-PK1 cell proliferation. Extracellular matrix coating of the membrane further improves cell proliferation.

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Evaluation of Water and Electrolyte Transport of Tubular Epithelial Cells Under Osmotic and Hydraulic Pressure for Development of Bioartificial Tubules

et al. 2001

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Our aim was to develop bioartificial tubules using tubular epithelial cells and artificial membranes and evaluate the function of water and electrolyte transport by various tubular epithelial cells. The cells were cultivated onto extracellular matrix (ProNectin F) coating polycarbonate membrane. Water transport from the apical to the basolateral site of cells was examined using a modified Ussing chamber module. Water transport under colloidal osmotic pressure on the apical site and hydraulic pressure on the basolateral site were higher in JTC-12, LLC-PK1 cells than in MDCK cells. Water transport under osmotic plus hydraulic pressure was highest in LLC-PK1 cells. We made bioartificial tubules using LLC-PK1 cells and polysulfone hollow fiber cartridges. Water and Na ion transport function was high, and BUN and creatinine passage was recognized in these bioartificial tubules. BUN and creatinine concentrations of reabsorption fluid in these bioartificial tubules were significantly lower than those concentrations of control media and of noncell attached polysulfone hollow fiber cartridges. Though LLC-PK1 cells were more preferable cells for the use of bioartificial tubules in terms of water and electrolyte transport, the passage of BUN and creatinine was not appropriate for clinical use. To select more preferable cells for bioartificial tubules which transport water and electrolytes and do not induce passage of uremic toxins is necessary.

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Preparation of a bioartificial kidney using tubular epithelial cells, and an evaluation of Na+ active transport and morphological changes

et al. 2000

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We intend to develop a bioartificial kidney using tubular epithelial cells and artificial membranes, and to evaluate the reabsorptive function of the confluent layers. Madin-Darby canine kidney (MDCK) cells were cultured on a nucleopore polycarbonate membrane for up to 4 weeks after confluence to examine the influence of culture period on their properties, such as the localization of Na+/K+-ATPase and active Na + transport. The results were as follows. Ouabain-sensitive Na + active transport declined at 3 to 4 weeks after confluence in each matrix. The localization of Na+/K+-ATPase indicated depolarization in the cell membrane 3 to 4 weeks after confluence. Prolongation of the culture period increased the formation of an upheaving cell mass after the formation of the confluent monolayer. Scanning electron microscopy revealed fewer microvilli and more flat cells after 3 to 4 weeks of confluency. We conclude that the decline of Na + active transport in the MDCK cells was due to both the formation of multilayers and a decline of cell function throughout the long period of culture following the formation of the confluent monolayers. Further study for selection of membrane material, the extracellular matrix, and species of cells should be continued.

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Chronic Superior Mesenteric Venous Thrombosis Revealed by Diabetic Ketonuria and Bacteremia

et al. 2008

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A case of secondary hyperparathyroidism in which percutaneous calcitriol injection therapy (PCIT) was effective for ectopic parathyroid gland.

Kunimatsu

Kakuta

Fujisaki

et al. 2001

Nihon Toseki Igakkai Zasshi

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Naoko Kagiwada

Evaluation of Proliferation and Functional Differentiation of LLC-PK1 Cells on Porous Polymer Membranes for the Development of a Bioartificial Renal Tubule Device

Evaluation of Water and Electrolyte Transport of Tubular Epithelial Cells Under Osmotic and Hydraulic Pressure for Development of Bioartificial Tubules

Preparation of a bioartificial kidney using tubular epithelial cells, and an evaluation of Na+ active transport and morphological changes

Chronic Superior Mesenteric Venous Thrombosis Revealed by Diabetic Ketonuria and Bacteremia

A case of secondary hyperparathyroidism in which percutaneous calcitriol injection therapy (PCIT) was effective for ectopic parathyroid gland.

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