ライフサイエンスコーパス: hyperthermic

1 aging and MR-guided interventions, including hyperthermic ablation of solid cancers.

2 er, they are hypermetabolic, hyperphagic and hyperthermic, all consistent with a brown phenotype.

3 ow appears to be an early defect in both the hyperthermic and adolescent paradigms.

4 increased temperatures, cocaine induced both hyperthermic and hypothermic responses.

5 re was no significant difference between the hyperthermic and normothermic tissue; there was a large

6 mothermic animals and to a greater degree in hyperthermic animals, extracellular potassium ion activi

7 Animals remained hyperthermic at 1 and 2 months p.i. and returned to prei

8 brain regions in controls and weanlings made hyperthermic by a warm environment.

9 We hypothesized that hyperthermic challenge would produce exaggerated oxidati

10 n combined with intraoperative intracavitary hyperthermic chemotherapy and trials are well under way

11 implications of intraoperative intracavitary hyperthermic chemotherapy in combination with extrapleur

12 n combined with intraoperative intracavitary hyperthermic chemotherapy.

13 umonectomy with intraoperative intracavitary hyperthermic chemotherapy.

14 umonectomy plus intraoperative intracavitary hyperthermic chemotherapy.

15 to 250 mg/m2; n = 35; median, 18 months) of hyperthermic cisplatin (P = .0019); recurrence-free inte

16 y and high-dose intraoperative intracavitary hyperthermic cisplatin lavage is feasible in this patien

17 In addition, hyperthermic combined treatment with chemotherapy and DD

18 lthough they are clearly correlated with the hyperthermic condition, the precise cellular mechanisms

19 Last, we showed that mild, fever-like hyperthermic conditions enhance the vaccine efficiency o

20 MRgHIFU was employed to create hyperthermic conditions that enhance macromolecular deli

21 d hours) were normal in all normothermic and hyperthermic control rats, and none of these animals dev

22 Conversely, a minority of normothermic and hyperthermic controls had (brief) seizures, none develop

23 mia but in whom seizures had been prevented (hyperthermic controls), as well as with normothermic con

24 a uniform and mild heating profile to cause hyperthermic destruction of vessel-encasing tumors while

25 eurodegeneration in rats that did not become hyperthermic during AMPH exposure was quantified by coun

26 ed ethanol's initial hypothermic and delayed hyperthermic effect across age by 48-hr temperature meas

27 We found that the hyperthermic effect has the highest sensitivity to the e

28 aches to eliminate or minimize the on-target hyperthermic effect observed with this and other TRPV1 a

29 ed (by using knock-out mice) that the entire hyperthermic effect of AMG0347 is TRPV1 dependent.

30 ncompetitive NMDA antagonist, attenuated the hyperthermic effect of morphine (4 mg/kg).

31 acological evidence that agmatine blocks the hyperthermic effect of morphine by activating imidazolin

32 imals, centrally injected alpha-MSH exerts a hyperthermic effect that is mediated by the MC4R, consis

33 icient mice, adiponectin had only diminished hyperthermic effects but reduced RER similarly to wild t

34 stigated whether NMDA receptors modulate the hyperthermic effects of acute morphine in male Sprague-D

35 The hyperthermic effects of insulin were blocked by pretreat

36 vidual variability and relatively weak brain hyperthermic effects of MDMA under standard control cond

37 In contrast, MDPV-induced hyperthermic effects were observed in only the warm ambi

38 tic nanocrystals have the ability to exhibit hyperthermic effects when placed in an oscillating magne

39 Although the combined effect of the hyperthermic events was not additive, METH administratio

40 wo natural models of ovine IUGR are those of hyperthermic exposure during pregnancy, and adolescent o

41 adiofrequency (RF) system that enables focal hyperthermic heating, targeting, and visualization for t

42 ars; 50 women, 41 men) underwent a 90-minute hyperthermic ILP (melphalan, 10 to 13 mg/L limb volume,

43 ve stress plays a unique role in age-related hyperthermic injury and suggest that therapeutic strateg

44 Cytoreductive surgery and hyperthermic intraperitoneal chemotherapy (HIPEC) achiev

45 Hyperthermic intraperitoneal chemotherapy (HIPEC) and cy

46 Cytoreductive surgery (CRS) and hyperthermic intraperitoneal chemotherapy (HIPEC) are be

47 rvival after cytoreductive surgery (CRS) and hyperthermic intraperitoneal chemotherapy (HIPEC) consol

48 Cytoreductive surgery (CRS) with hyperthermic intraperitoneal chemotherapy (HIPEC) for pe

49 REVIEW: Cytoreductive surgery combined with hyperthermic intraperitoneal chemotherapy (HIPEC) has be

50 The aim of hyperthermic intraperitoneal chemotherapy (HIPEC) is to

51 penetration and metabolism of oxaliplatin in hyperthermic intraperitoneal chemotherapy (HIPEC)-like t

52 ve intent by cytoreductive surgery (CRS) and hyperthermic intraperitoneal chemotherapy (HIPEC).

53 Hyperthermic intraperitoneal chemotherapy using cisplati

54 m CRC admitted for cytoreductive surgery and hyperthermic intraperitoneal chemotherapy were selected

55 atients undergoing cytoreductive surgery and hyperthermic intraperitoneal chemotherapy will have loca

56 long-term (overall survival) outcomes after hyperthermic intraperitoneal chemotherapy with cytoreduc

57 Cytoreductive surgery with hyperthermic intraperitoneal chemotherapy.

58 ast, pan-necrosis was evident 24 h after the hyperthermic ischemic insult.

59 ne TNF-alpha concentrations during and after hyperthermic isolated limb perfusion with recombinant TN

60 Hyperthermic isolated limb perfusion with recombinant TN

61 To understand the underlying mechanisms of hyperthermic killing of cancer cells, we examined the cy

62 Hyperthermic light damage in rats given linseed oil for

63 t retinal damage from either intermittent or hyperthermic light exposure.

64 to intense green light using intermittent or hyperthermic light treatments.

65 By contrast, following hyperthermic MCA occlusion, moderate-to-intense immunost

66 ration, thus opening the pathway to combined hyperthermic/mechanical nanoactuators for biomedicine.

67 t in iatrogenic injury if warming results in hyperthermic overshoot.

68 ators have applied cytoreductive surgery and hyperthermic perioperative chemotherapy as the standard

69 ned whether the in vivo relationship between hyperthermic pre-conditioning and MV infection would be

70 Hyperthermic pre-conditioning given within a therapeutic

71 Nervous tissue subjected to hyperthermic pre-conditioning is resistance to numerous

72 Hyperthermic pre-conditioning, which is known to induce

73 thesis, abolished the ameliorative effect of hyperthermic pre-conditioning.

74 ynthesis does not seem to be involved in the hyperthermic process induced by 4 mg/kg of morphine.

75 his study, we investigated the mechanisms of hyperthermic radiosensitization in GSCs by a phospho-kin

76 ivity of Ku, the DNA-PK kinase activity, and hyperthermic radiosensitization in rodent cells immediat

77 increases cell killing, a phenomenon termed hyperthermic radiosensitization.

78 f the DNA-binding activity of Ku may lead to hyperthermic radiosensitization.

79 se of DNA-PK activity did not correlate with hyperthermic radiosensitization.

80 onstitutively active AKT in GSCs compromised hyperthermic radiosensitization.

81 rature hypothermia or hyperthermia, although hyperthermic rats have greater 5-HT and 5-HIAA depletion

82 An initial hyperthermic response ( approximately 1.5 degrees C) to

83 action was followed by a large and prolonged hyperthermic response (3.5-5.0 degrees C, 5-7 hr at 9 mg

84 The magnitude of the hyperthermic response depended on neither T(b) nor tail-

85 emale are also known to induce a significant hyperthermic response in the rat.

86 L-NAME (50 mg/kg, s.c.) failed to alter the hyperthermic response induced by the lower dose of morph

87 n (NIRKO mice) were unable to mount the full hyperthermic response to IGF-1, suggesting that the IGF-

88 Moreover, there was no difference in the hyperthermic response to the 5-HT depleting regimen of M

89 ing halothane anesthesia (1.75%) and have no hyperthermic response, whereas 100% Hom mice of either s

90 t with MDMA at 28 and 30 degreesC produced a hyperthermic response.

91 15 mins before or after MDMA prevented this hyperthermic response.

92 We studied hyperthermic responses of rats, mice, and guinea pigs to

93 be a primary mechanism determining the brain hyperthermic responses.

94 duce locomotor activation and brain and body hyperthermic responses.

95 seizures in adult rats that had experienced hyperthermic seizures during infancy.

96 These data indicate that hyperthermic seizures in the immature rat model of FSs d

97 In conclusion, in the immature rat model, hyperthermic seizures lead to profound, yet primarily tr

98 nvestigated the acute and chronic effects of hyperthermic seizures on neuronal integrity and survival

99 Hyperthermic seizures-but not hyperthermia alone-resulte

100 rtant in mediating this alpha-1 AR-dependent hyperthermic shift in body temperature.

101 Following hyperthermic shock, the amounts of B1 and B2 SINE RNAs t

102 Hyperthermic sites were identified by microinjecting PGE

103 Hyperthermic spreading depression (HSD) in immature rat

104 with 3 mM creatine for 3 h failed to prevent hyperthermic spreading depression occurrence; and (2) in

105 hes, activated by pharmacologics or light or hyperthermic stimuli, provide several avenues for the no

106 nfectious virus was determined in the murine hyperthermic stress (HS) model of in vivo reactivation.

107 Following hyperthermic stress (HS), which induces reactivation in

108 ng HSV-1 reactivation in mice, the effect of hyperthermic stress and cyanoketone treatment on IL-6 ex

109 Hyperthermic stress applied during the first 3 days post

110 Hyperthermic stress elicited a transient rise in IL-6 mR

111 Hyperthermic stress induces reactivation of herpes simpl

112 ivation in the trigeminal ganglion following hyperthermic stress of mice.

113 However, 24 h after the application of hyperthermic stress to mice, HSV-1 antigens were detecte

114 as induced in some of the infected mice with hyperthermic stress, and the mice were killed after 1 ho

115 Hyperthermic stress-induced reactivation of the HSV-1 hi

116 virus in mice from each group was induced by hyperthermic stress.

117 t viral burden reactivated in vivo following hyperthermic stress.

118 eltaPst(LAT(-)) latent TG 1 hour after mouse hyperthermic stress.

119 latently infected ganglia in vivo following hyperthermic stress.

120 re not observed in ganglia following in vivo hyperthermic stress.

121 trigeminal ganglia before and at 22 h after hyperthermic-stress-induced reactivation.

122 ma) implanted in nude mice demonstrated that hyperthermic targeting of the thermally responsive ELP f

123 ubicin that has been optimized for both mild hyperthermic temperatures (39 degrees C to 40 degrees C)

124 ch find use in clinical applications such as hyperthermic therapy, can develop inaccuracies caused by

125 e 36 h of age were exposed to a 41 degrees C hyperthermic treatment for 30 min.

126 ve clinical relevance for acute burn trauma, hyperthermic treatments, and distant tissue damage after