ライフサイエンスコーパス: chloralose

1 or anesthesia (isoflurane or urethane and a-chloralose).

2 f the anesthetic used (isofluorance or alpha-chloralose).

3 in an animal that is anesthetized with alpha-chloralose.

4 oiding contractions were greatest with alpha-chloralose.

5 ction (SCT) in cats anaesthetized with alpha-chloralose.

6 limb muscle of cats anaesthetized with alpha-chloralose.

7 d with thiopentone sodium (500 mg, I.V.) and chloralose (100 mg kg-1, LV.) and artificially ventilate

8 e, desflurane, sevoflurane, halothane, alpha-chloralose, 2,2,2-trichloroethanol [TCE], and chloral hy

9 varying dose (isoflurane: 0.5-2.0% and alpha-chloralose: 30 and 60 mg/kg.h) and recorded changes in e

10 th a mixture of urethane (650 mg kg(-1)) and chloralose (50 mg kg(-1)) i.v., blood pressure and heart

11 Cats were anaesthetized (alpha-chloralose 60 mg/kg, intraperitoneally), and prepared fo

12 and anesthesia was either switched to alpha-chloralose (60 mg/kg bolus, 30 mg/kg/h; n=10) or was mai

13 ior sagittal sinus was isolated in the alpha-chloralose (60 mg/kg i.p. and 20 mg/kg i.v. injection su

14 Cats were anaesthetized with alpha-chloralose (60 mg/kg, intraperitoneally), paralysed (gal

15 Cats were anaesthetised with alpha-chloralose (60 mg/kg, ip; supplements 20 mg/kg iv) after

16 trol and vigabatrin-treated rats under alpha-chloralose/70% nitrous oxide anesthesia, with total GAD

17 Dogs were anaesthetized with alpha-chloralose, a cardiopulmonary bypass was established, an

18 were conducted in 11 female cats under alpha-chloralose anaesthesia when the bladder was infused with

19 ring cortical spreading depression and alpha-chloralose anaesthesia.

20 Studies were conducted in the alpha-chloralose anaesthetised cat to examine bulk carotid and

21 l in agar upon the cortical surface of alpha-chloralose anaesthetised cats.

22 In alpha-chloralose anaesthetised female Sprague-Dawley rats, mea

23 piride, at 2 Tesla in the brain of the alpha-chloralose anaesthetised rat.

24 Experiments were carried out in alpha-chloralose anaesthetized cats to determine if these card

25 ix gamma-motoneurones of hindlimb muscles in chloralose anaesthetized cats to re-assess the coupling

26 rded under isovolumetric conditions in alpha-chloralose anaesthetized cats.

27 In chloralose anaesthetized dogs, a perfusion circuit allow

28 baroreflex control of LSNA and RSNA in alpha-chloralose anaesthetized female rats, but only during pr

29 of insulin and leptin, we investigated alpha-chloralose anaesthetized late pregnant rats, which exhib

30 In alpha-chloralose anaesthetized, artificially ventilated dogs,

31 In urethane-chloralose anaesthetized, neuromuscularly blocked, artif

32 In urethane-chloralose anaesthetized, neuromuscularly blocked, venti

33 ry and skeletal muscle receptors in thirteen chloralose-anaesthetized cats.

34 In chloralose-anaesthetized dogs, a cardiopulmonary bypass

35 In chloralose-anaesthetized female rats, nanoinjection of N

36 ings from 206 upper limb motoneurones in ten chloralose-anaesthetized macaque monkeys.

37 In urethane-chloralose-anaesthetized rats, bilateral inhibition of t

38 it activity from the left caudomedial NTS of chloralose-anaesthetized rats.

39 uron electrophysiological responses in alpha-chloralose-anaesthetized Sprague-Dawley rats within NTS

40 These experiments were carried out on alpha-chloralose-anaesthetized, artificially ventilated and at

41 In chloralose-anaesthetized, artificially ventilated dogs,

42 Experiments were performed in alpha-chloralose-anaesthetized, paralysed and artificially ven

43 ned in relation to phrenic nerve activity in chloralose-anaesthetized, ventilated, neuromuscularly bl

44 In chloralose-anaesthetized, ventilated, vagotomized rats,

45 Dogs were anaesthetised with chloralose and a cardiopulmonary bypass established.

46 Mongrel cats were anesthetized with alpha-chloralose and heart rate, arterial pressure, and thorac

47 irty-three cats were anesthetized with alpha-chloralose and the esophagus was stimulated by slow ball

48 In alpha-chloralose and urethane anesthetized rats, microinjectio

49 r in the dog anaesthetized with a mixture of chloralose and urethane.

50 d in the cat anaesthetized with a mixture of chloralose and urethane.

51 ay of shock, the animals were sedated (alpha-chloralose) and 50 mL/kg of arterial blood was removed o

52 Mice were anesthetized (urethane and chloralose) and equipped with a cranial window.

53 Adult cats were anesthetized with alpha-chloralose, and in each case, the experimental intervent

54 Animals were anesthetized with alpha-chloralose, and received one of four stimulus protocols:

55 h electrical forepaw stimulation under alpha-chloralose anesthesia using laser Doppler (LD) measureme

56 After alpha-chloralose anesthesia, blood gases and vital signs were

57 ies of focal ischemia in the rat under alpha-chloralose anesthesia.

58 activated and remain functional during alpha-chloralose-anesthesia.

59 l segments (S1-S2) in neurologically intact, chloralose anesthetized adult male cats.

60 osed cranial windows were implanted in alpha-chloralose anesthetized piglets 4 days following cortica

61 mble during forepaw stimulation in the alpha-chloralose anesthetized rat.

62 Experiments were performed on chloralose anesthetized, artificially ventilated and par

63 ympathetic nerve activity (CSNA) in urethane-chloralose anesthetized, artificially-ventilated rats.

64 In six decerebrated and in eight alpha-chloralose anesthetized, paralyzed and mechanically vent

65 carbachol-induced muscle atonia in the alpha-chloralose-anesthetized animal.

66 otal infarct volumes are larger in the alpha-chloralose-anesthetized animals, while the functional ou

67 PIFTs) is also significantly longer in alpha-chloralose-anesthetized animals.

68 f non-convulsive seizures (NCS) in the alpha-chloralose-anesthetized animals.

69 as injected directly into the rostral NTS of chloralose-anesthetized cats to determine whether blood

70 ly at 16 recording sites in area A2 of alpha-chloralose-anesthetized cats.

71 t tract, the dorsal acoustic stria (DAS), in chloralose-anesthetized cats.

72 or the antimigraine compound sumatriptan in chloralose-anesthetized cats.

73 Experiments were performed in 14 chloralose-anesthetized dogs with sinoaortic denervation

74 Chloralose-anesthetized piglets equipped with a closed c

75 In the alpha-chloralose-anesthetized preparation, stimulation of the

76 ponents were investigated at 11.7 T in alpha-chloralose-anesthetized rats and combined with electroph

77 receptor (MC3/4R) agonist, MTII, in urethane-chloralose-anesthetized rats and the effects on O(2) con

78 In alpha-chloralose-anesthetized rats, changes in the blood oxyge

79 In chloralose-anesthetized rats, we individually filled 20

80 te fMRI measurements were conducted in alpha-chloralose-anesthetized rats.

81 atosensory stimulation was measured in alpha-chloralose-anesthetized rats.

82 cell column (IML) were recorded in urethane/chloralose-anesthetized rats.

83 ing electrophysiological characterization in chloralose-anesthetized rats.

84 erve activity (SNA) was recorded in urethane-chloralose-anesthetized, artificially ventilated rats th

85 VLM or of muscimol into the CVLM of urethane/chloralose-anesthetized, artificially-ventilated rats.

86 In urethane/chloralose-anesthetized, paralyzed, artificially ventila

87 In chloralose-anesthetized, spinally intact and spinally tr

88 Nine alpha-chloralose-anesthetized, splenectomized dogs were subjec

89 t in animals under anesthesia, usually alpha-chloralose because of its lesser effects on cardiovascul

90 ibited by TTX and anaesthetics such as alpha-chloralose but not by the intracellular application of l

91 etermined in the rat anesthetized with alpha-chloralose by independent and concurrent (17)O NMR measu

92 Interestingly, only alpha-chloralose elicited relatively much greater increases in

93 Halothane and alpha-chloralose established baseline states of high and low e

94 With alpha-chloralose, forepaw stimulation induced strong and repro

95 reas the larger carbon tetraiodide and alpha-chloralose inhibit.

96 Accordingly, in cats anesthetized with alpha-chloralose, intracellular records were obtained from mas

97 This study shows that alpha-chloralose is a safe anesthetic for ischemia studies and

98 alpha-Chloralose is widely used as an anesthetic in studies of

99 e primary somatosensory cortex (SI) in alpha-chloralose/Nembutal, or halothane (in N2O/O2) anesthetiz

100 s exhibited visceral inputs than under alpha-chloralose/Nembutal.

101 fol, bladder capacity was highest with alpha-chloralose, non-voiding contractions were greatest with

102 In 14 adult male cats anaesthetized with chloralose, one cerebral hemisphere was exposed and the

103 For alpha-chloralose, overall FC was similar to that obtained with

104 However, alpha-chloralose rather intensified the amplitude without exhi

105 scious rats and rats anesthetized with alpha-chloralose the effects of vibrissal stimulation on lCMR(

106 Open-chest swine, anesthetized with alpha-chloralose, underwent 10 mins of nonperfused VF followed

107 Chloralose-urethane anaesthesia and surgery caused a ris

108 these findings it can be concluded that (a) chloralose-urethane anaesthesia and surgery had a stimul

109 In chloralose-urethane anaesthetised rats, reduction of RPP

110 Ss in Purkinje cells of the uvula-nodulus in chloralose-urethane-anesthetized rabbits.

111 he animals were fasted and anesthetized with chloralose/urethane.

112 In rats anesthetized with alpha-chloralose, we measured SEPs by signal-averaging field p

113 ynamic parameters under isoflurane and alpha-chloralose were also examined in terminal procedures for