Planning and Management Methodology for Urban Development based on Systems Approach and Case Studies (Power Point)

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Therapeutic Reendothelialization by Induced Pluripotent Stem Cells After Vascular Injury

名古屋大学Nagoya University博士(医学)doctoral thesi

野菜の貯蔵中におけるアミノ酸および糖の変化について

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The Protective Effect of Urinastatin in Patients with Ileus

The effect of the protease inhibitor urinastatin on serum granulocyte elastase was investigated in patients with ileus. Twenty patients who had developed adhesive ileus after abdominal surgery were divided into two groups; 10 received urinastatin while 10 patients did not. The nontreated group did not received a placebo. Serum granulocyte elastase concentration increased on admission of the ileus patient; its subsequent rate of decline increased in patients treated with urinastatin relative to those not treated. Urinastatin may thus prove clinically beneficial in the treatment of ileus, a condition that may result in bowel ischemia.departmental bulletin pape

Water entry and migration in the testa in the initial stages of imbibition for soybean (‘Mikawashima’)

Changes in a soybean at a longitudinal section parallel to the raphe–antiraphe are indicated; the same three-dimensional image data as in Fig. were processed. Top: the sliced images of γ section (Fig. D); bottom: MIP images from δ to ε sections (Fig. D). (A, G) 5 min, (B, H) 20 min, (C, I) 35 min, (D, J) 50 min, (E, K) 1 h 5 min, and (F, L) 1 h 20 min.<p><b>Copyright information:</b></p><p>Taken from "Role of Seed Coat in Imbibing Soybean Seeds Observed by Micro-magnetic Resonance Imaging"</p><p></p><p> 2008;102(3):343-352.</p><p>Published online 19 Jun 2008</p><p>PMCID:PMC2516911.</p><p></p

Time course of water uptake, increase of size, and increments of the major and minor axes of soybean

Measurements were carried out on the same section as in Fig. . Water amount (density) is indicated by the integrated signal intensity, and the increase of size is indicated by the area of the bean. The increments (%) of area, the major axis and the minor axis are given by [( – )/] × 100, where is the value at time and is the value at time 0.<p><b>Copyright information:</b></p><p>Taken from "Role of Seed Coat in Imbibing Soybean Seeds Observed by Micro-magnetic Resonance Imaging"</p><p></p><p> 2008;102(3):343-352.</p><p>Published online 19 Jun 2008</p><p>PMCID:PMC2516911.</p><p></p

Water migration from the entrance to the radicle along the hilum, following rapid water entry into the dorsal testa in the initial stages of imbibition

The same three-dimensional image data as presented in Fig. were processed. The MIP images from α to β sections in Fig. C are presented from 1 h 5 min to 4 h 20 min of imbibition. (A) 1 h 5 min, (B) 1 h 20 min, (C) 1 h 35 min, (D) 1 h 50 min, (E) 2 h 5 min, (F) 2 h 20 min, (G) 2 h 35 min, (H) 2 h 50 min, (I) 3 h 5 min, (J) 3 h 20 min, (K) 3 h 35 min, (L) 3 h 50 min, (M) 4 h 5 min, and (N) 4 h 20 min.<p><b>Copyright information:</b></p><p>Taken from "Role of Seed Coat in Imbibing Soybean Seeds Observed by Micro-magnetic Resonance Imaging"</p><p></p><p> 2008;102(3):343-352.</p><p>Published online 19 Jun 2008</p><p>PMCID:PMC2516911.</p><p></p

Changes in soybeans with and without testa in the initial stages of imbibition

Seeds (‘Mikawashima’) were used. Top: a seed with testa; bottom: a peeled seed. Images at a longitudinal section (Fig. C, α) normal to the raphe–antiraphe of the longer axis are presented. Images were acquired continuously for 20 h for the intact soybean (top) and for approx. 2 h for the peeled soybean (bottom) at 15-min intervals after 5 min of imbibition. Changes in images are indicated from 5 min of imbibition: (A, G) 5 min, (B, H) 20 min, (C, I) 35 min, (D, J) 50 min, (E, K) 1 h 5 min, and (F, L) 1 h 20 min.<p><b>Copyright information:</b></p><p>Taken from "Role of Seed Coat in Imbibing Soybean Seeds Observed by Micro-magnetic Resonance Imaging"</p><p></p><p> 2008;102(3):343-352.</p><p>Published online 19 Jun 2008</p><p>PMCID:PMC2516911.</p><p></p

Changes in a soybean during imbibition at a median longitudinal section (Fig

C, α) normal to the raphe–antiraphe of the longer axis. A soybean (‘Mikawashima’) was fixed by the method indicated in Fig. A. Images were acquired continuously for 20 h at 15-min intervals after 5 min of imbibition, and those presented here are at 60-min intervals from 5 min of imbibition for a period of 17 h, as follows: (A) 5 min, (B) 1 h 5 min, (C) 2 h 5 min, (D) 3 h 5 min, (E) 4 h 5 min, (F) 5 h 5 min, (G) 6 h 5 min, (H) 7 h 5 min, (I) 8 h 5 min, (J) 9 h 5 min, (K) 10 h 5 min, (L) 11 h 5 min, (M) 12 h 5 min, (N) 13 h 5 min, (O) 14 h 5 min, (P) 15 h 5 min, (Q) 16 h 5 min, and (R) 17 h 5 min. Highlighted signals represent water taken up.<p><b>Copyright information:</b></p><p>Taken from "Role of Seed Coat in Imbibing Soybean Seeds Observed by Micro-magnetic Resonance Imaging"</p><p></p><p> 2008;102(3):343-352.</p><p>Published online 19 Jun 2008</p><p>PMCID:PMC2516911.</p><p></p

Water entry and migration in the testa in the initial stages of imbibition for a soybean (‘Kuromame’)

A soybean was fixed by the method indicated in Fig. B and images were acquired continuously for 20 h at 15-min intervals after 5 min of imbibition. Changes of soybeans at longitudinal sections parallel to the raphe–antiraphe are shown. Top: images from the γ section (Fig. D); bottom: MIP images from δ to ε (Fig. D). (A, H) 5 min, (B, I) 20 min, (C, J) 35 min, (D, K) 50 min, (E, L) 1 h 5 min, (F, M) 1 h 20 min, and (G, N) 1 h 35 min.<p><b>Copyright information:</b></p><p>Taken from "Role of Seed Coat in Imbibing Soybean Seeds Observed by Micro-magnetic Resonance Imaging"</p><p></p><p> 2008;102(3):343-352.</p><p>Published online 19 Jun 2008</p><p>PMCID:PMC2516911.</p><p></p