ライフサイエンスコーパス: kaolin

1 adykinin generation in plasma activated with kaolin.

2 % compared with equivalent concentrations of kaolin.

3 generates no bradykinin upon activation with kaolin.

4 heating a homogenised, pelletised mixture of kaolin (100 parts), sodium carbonate (100 parts), bitume

5 anocomposites (31.8 m(2)/g) when compared to kaolin (17 m(2)/g).

6 sma extravasation induced by injection of 3% kaolin/3% carrageenan in the knee of the rat.

7 tion decreased to 0.51+/-0.09 units/mL, with kaolin ACT returning to 177+/-22 secs, celite ACT return

8 n and fibrinolysis and possesses a defect in kaolin-activable chemotactic activity.

9 It also possesses a diminished rate of kaolin-activable coagulation and fibrinolysis and posses

10 In moderate synovitis induced by 3% kaolin and 3% carrageenan, the combined blockade of both

11 tion induced by intra-articular injection of kaolin and carrageenan.

12 arterial pressure, central venous pressure, kaolin and celite activated clotting time (ACT), activat

13 In the present study, comparative studies of kaolin and kaolin/ZnO nanocomposites for the adsorption

14 Pre-CPB ACT was 167+/-89 secs (kaolin) and 99+/-7 secs (celite), and APTT was 34+/-5 se

15 nducted in a rat model of acute (carrageenan/kaolin) arthritis, with subsequent evaluation in a rat m

16 cified porcine whole blood, blood added with kaolin as an activator, and blood spiked with fibrinogen

17 ir high viscosity, while Natural, Valoal and Kaolin as emulsifiers for their good surface-active prop

18 ilm was elaborated, by incorporating natural kaolin clay (KC) and Ficus carica mediated silver nanopa

19 h three ingredients: water, silica sand, and kaolin clay.

20 (2) ferrihydrite-coated sand (FcS), and (3) kaolin-coated sand (KcS).

21 h 2 measures sensitive to malaise, increased kaolin consumption (pica behavior) and failure to expres

22 resulted in increased food intake, increased kaolin consumption, and decreased need-induced sodium in

23 n significantly prolonged r-time compared to kaolin controls.

24 exhibited better adsorption performance than kaolin due to higher surface area of the former than the

25 Foams containing 25 wt% kaolin exhibited excellent shape recovery promoted by a

26 ed that charge neutralization contributed to kaolin flocculation, but was not involved in M. aerugino

27 duced by a single basal cistern injection of kaolin in 3-week-old rats, immediately followed by 3 or

28 Kaolin increased chlorophyll and carotenoid contents, bu

29 Kaolin increased ICP [median (range) 15.96 (8.97) mmHg,

30 Kaolin increased oleic acid up to 65% and 64% in the fir

31 Furthermore, TAFI deficiency did not alter kaolin-induced writhing response, implying that TAFI doe

32 nstrated the development of hydrocephalus in kaolin-injected rats but also revealed that continuous d

33 vels throughout the ventricular system after kaolin injection and also inhibited the deposition of th

34 del of raised ICP, created by intracisternal kaolin injection, mechanical thresholds were measured al

35 rats had hydrocephalus induced by cisternal kaolin injection.

36 fine-grained quartz (>5/<50 um), loess, and kaolin is not significantly different from the abrasive-

37 activation of human platelet-poor plasma by kaolin led to cleavage of chem163S, which was undetectab

38 ils (CNF), cellulose nanocrystals (CNC), and kaolin-microfibrillated cellulose composite.

39 eral abrasives (quartz, volcanic ash, loess, kaolin) on DMT in a controlled feeding experiment with g

40 nges in 4 plasma samples triggered by either kaolin or tissue factor was achieved for the entire dura

41 Kaolin particle film (0%, 3% and 6%; w/v), as an antitra

42 intervention/model group had a shorter mean kaolin r-time (6.58 [SD 2.50] vs. 8.08 [SD 3.98] minutes

43 parameters (median pre-CPB to post-protamine kaolin r-time ratio 0.96 [IQR 0.78-1.14] vs. 0.75 [IQR 0

44 entral role in the antibacterial action of a kaolin-rich clay from the Colombian Amazon (AMZ).

45 phy of dickite, a well-ordered member of the kaolin subgroup of clay minerals.

46 pozzolanic methods, such as silica fume and kaolin surface coating.

47 ng efficiencies were 93.34% within 2 min for kaolin suspension and 87.98% within 10 min for M. aerugi

48 S-1, was prepared and used to flocculate the kaolin suspension and Microcystis aeruginosa.

49 The primary endpoint was kaolin TEG r-time measured 3 minutes after protamine adm

50 Secondary endpoints included ratio of kaolin TEG r-time pre-CPB to the same metric following p

51 ratios (4) were higher in oil obtained from kaolin treated than untreated trees.

52 an be expected that extracted olive oil from kaolin treated trees has a higher oxidative stability an

53 In kaolin-triggered plasma clotting assays containing purif

54 OD, 89% BOD and 73% Chloride were removed by kaolin under the same conditions.

55 lue to starch sizing; also the employment of kaolin varied through time.

56 and Chloride (78%) was obtained at 15 min by kaolin/ZnO composites.

57 nt showed an increase in the surface area of kaolin/ZnO nanocomposites (31.8 m(2)/g) when compared to

58 The kaolin/ZnO nanocomposites exhibited better adsorption pe

59 ent study, comparative studies of kaolin and kaolin/ZnO nanocomposites for the adsorption of Cr(VI),

60 ZnO nanoparticles and kaolin/ZnO nanocomposites were prepared by sol-gel follo