ライフサイエンスコーパス: stable phase

1 he percentage of patients reaching the late, stable phase.

2 ulfobenzoic acid) was obtained as a pure and stable phase.

3 ambda) activity to transition to a (2) late, stable phase.

4 ited an initial rapid phase and a subsequent stable phase.

5 ance not accessible in the thermodynamically stable phase.

6 kinetic product, and P3, a thermodynamically stable phase.

7 igher learning rates in volatile relative to stable phases.

8 ors may be integral to the formation of more stable phases.

9 hemical deintercalation of thermodynamically stable phases.

10 changed during the treatment and led to more stable phases.

11 solves at the expense of the larger and more stable phases.

12 to lower-energy and ultimately energetically stable phases(1,3,4).

13 atus of IGF2 in samples from CML patients in stable phase, accelerated phase, and blast crisis.

14 Stable phases across the compositional spaces, from the

15 n of TIM in the late night is accompanied by stable phase advances in the temporal regulation of the

16 Whether RV dysfunction in the stable phase after heart transplantation is associated w

17 ever, whether elevations of TNF-alpha in the stable phase after myocardial ischemia (MI) are associat

18 all metastable phases into thermodynamically stable phases along its trace.

19 t is enabled by dislocation hardening of the stable phase and transformation-induced hardening of the

20 ess but an inconstant development with long, stable phases and rapid episodes of vascular sprouting.

21 he initial phase, the accelerated phase, the stable phase, and the declining phase.

22 g experimentally observed chemical order and stable phases, and large-scale simulations of plasticity

23 The PK investigations were performed in a stable phase approximately 6 and 8 weeks postengraftment

24 sults reveal that the only thermodynamically stable phases are the solution phase and the macroscopic

25 Tar)] phase to be the most thermodynamically stable phase at low temperatures, while the [Ba(d,l-Tar)

26 In the Si/C phase diagram, the only stable phases at P = 1 atm are the numerous polytypes of

27 ositions (I4/mmm and 2FU-C2/m) were the most stable phases between approximately 160-200 GPa.

28 orph in marine environments, rather than the stable phase calcite--which is of tremendous relevance t

29 e inhibitor STI-571 is effective therapy for stable phase chronic myeloid leukemia (CML) patients, bu

30 nducing complete remissions in patients with stable-phase CML and multiple myeloma who have relapsed

31 We show that the active and stable phase consists of single unit cell sized hollandi

32 such as cadmium selenide, which exist as two stable phases, cubic and hexagonal, each with distinct p

33 hat oscillates with the same period and with stable phase differences.

34 circuits in neighboring segments to maintain stable phase differences.

35 ental connection pattern producing realistic stable phase differences.

36 hese results suggest that the MNSPs remain a stable phase, even at 105 degrees C higher than they for

37 r the temperature range 20-78 degrees C this stable phase exhibits a bilayer structure, periodicity d

38 One of 12 patients transplanted in second stable phase following blast crisis also relapsed.

39 nal layers makes stacking-disordered ice the stable phase for crystallites up to a size of at least 1

40 All identified stable phases for both networks are found to be non-pola

41 he structure and properties of transient and stable phases formed during the process are reported, an

42 Only the stable phase forms charge-transfer excitons upon exposur

43 allenging to experimentally distinguish such stable phases from transient phenomena, or from regimes

44 ain in interlayer binding energy as the more stable phase grows at the expanse of the metastable ones

45 fferent ice forms were observed to melt: two stable phases, ice V and ice VI, and two metastable phas

46 r melting at great depths, where garnet is a stable phase in mantle peridotites.

47 monoclinic phase, we show that greigite is a stable phase in the Fe-S phase diagram at ambient temper

48 smic models favor perovskite (MgSiO3) as the stable phase in the mantle.

49 processes rely on the accurate depiction of stable phases in a water environment.

50 species and their possible evolution to more stable phases in subsurface conditions is poorly documen

51 Zn-Ti-O ternary space, and the prediction of stable phases in the Li-P-S-Cl quaternary space of relev

52 N of various compositions conform to several stable phases in the three-component phase diagram of B-

53 m meso phases are the most thermodynamically stable phases in their systems over the temperature rang

54 azard remains the first year before a later, stable phase is reached.

55 We show that the persistence of a stable phase lag to changes in frequency can arise from

56 individual intersegmental connections to the stable phase lag.

57 st abundant elements, but knowledge of their stable phases may be incomplete.

58 ment of Peyronie's disease is surgery in the stable phase, nonoperative management is preferred by so

59 Here we report the synthesis of a superdense stable phase of body-centred-cubic aluminium, predicted

60 driving atheroprogression in the clinically stable phase of disease; (ii) inciting atheroma destabil

61 y in this material is due to the fact that a stable phase of graphene nitride nanosheet is riddled wi

62 water in most slabs, we report here that the stable phase of H2O should be solid ice VII in portions

63 The nature of the stable phase of iron in the Earth's solid inner core is

64 nts during both the early-onset and the late-stable phase of psoriasis.

65 tion that culminates in the formation of the stable phase of the product.

66 A stable phase of toroidal, or ringlike, supramolecular as

67 ists have either determined or predicted the stable phases of >200 different MXenes based on combinat

68 Thermodynamically stable phases of clustered water molecules are localized

69 ting surface layer, composed of increasingly stable phases of the 2D perovskite, via disproportionati

70 The set of known stable phases of water may not be complete, and some of

71 Five of six stable-phase patients showed normal imprinting, but LOI

72 od to design entrainment signals that create stable phase patterns in ensembles of heterogeneous nonl

73 In the 16-week ICS dose-stable phase, rates of exacerbations requiring >/=3 days

74 ted during burst initiation, then maintained stable phase relations during the burst.

75 How they establish stable phase relationships under diverse conditions is f

76 tial tuning consistency, but also maintained stable phase relationships, suggesting a network mechani

77 We describe examples of stable, phase-separated assemblies including membraneles

78 us chamber model of infection selected for a stable phase-shift to a SpeB-/SpeA+ phenotype that expre

79 ' splice site at ancient Alu-exons reaches a stable phase, splicing repression by hnRNPC decreases, b

80 Stable phases such as goethite and hematite, however, ca

81 is phase transformation, with change to more stable phases such as hydroxyapatite affecting the rate

82 bound in sulfides, organic matter, or highly stable phases such as tripuhyite).

83 re found to convert to the thermodynamically stable phase, the (1,1) compound.

84 Free energy change with volume shows two stable phases: the condensed phase and the isolated mice

85 s the transformation of ferrihydrite to more stable phases, thereby potentially altering the partitio

86 SS-PCMs undergoing metastable to semi-stable/stable phase transformations remain relatively ill-studi

87 g to their large index contrast and fast yet stable phase transition attributes.

88 Tb, and Er) which were the thermodynamically stable phases under the reaction conditions.

89 either human blood or a mouse selects for a stable, phase-varied strain of group A streptococci whic

90 he 16-week inhaled corticosteroid (ICS) dose-stable phase were evaluated with respect to baseline blo

91 completed a task which required learning in stable phases, where the probability of reinforcement wa

92 magnets is an example of a thermodynamically stable phase with topologically nontrivial solitonic fie

93 firmed that p1 is the most thermodynamically stable phase, with p2 located slightly higher in energy.

94 l scheme smoothly extends the free energy of stable phases, without relying on extrapolation, thus en