ライフサイエンスコーパス: skin temperature

1 ) and hypervasoconstricted (had a lower tail skin temperature).

2 tics of a gentle caress delivered at typical skin temperature.

3 to similar levels, independently of core and skin temperature.

4 t oral doses of 3 mg/kg in reducing the tail skin temperature.

5 duced by cold challenge) in baseline digital skin temperature.

6 onding could not be attributed to changes in skin temperature.

7 g activity, which may be reflected by facial skin temperatures.

8 s C for 20-50 min) and transient decrease in skin temperature (-0.6 degrees C for 1-3 min).

9 This resulted in an 85% decrease in skin temperature and a predicted 27% reduction in intram

10 ismatch and the difference between the ocean skin temperature and bulk temperature.

11 is study observed the effect of OPC-28326 on skin temperature and digital blood flow following an acu

12 A significant correlation was found between skin temperature and skin blood flow but not with TEWL.

13 The ocular skin temperature and water evaporation rate were higher

14 n alertness, melatonin and cortisol profile, skin temperature and wrist motor activity in healthy you

15 Skin temperature and wrist motor activity were continuou

16 e (0.667) and maximum (0.729) blood flow and skin temperature, and for the areas under the rewarming

17 tor activation, rapid and strong decrease in skin temperature, and weak increases in brain and muscle

18 Evaluation of subtle variations in skin temperature associated with mental activity, physic

19 c response depended on neither T(b) nor tail-skin temperature at the time of AMG0347 administration,

20 .0002), corroborated by increased peri-wound skin temperature by infrared thermography (p=0.0119).

21 physiological parameters (brain, muscle, and skin temperatures), cortical and VTA EEG, neck EMG activ

22 Mean skin temperature did not differ between menstrual phases

23 Utilising the increase in skin temperature during infection, the truncated bacteri

24 Facial skin temperatures during sleep in patients with winter d

25 thesis that ultradian oscillations in facial skin temperatures exist in humans and are abnormal in pa

26 Despite no differences in core and skin temperature, fluid ingestion at 52 degrees C rapidl

27 , iontophoresis of acid over a wide range of skin temperatures from 4 to 40 degrees C produced only m

28 oxygen saturation, and forearm-to-fingertip skin temperature gradient.

29 esponses were monitored: sublingual and mean skin temperatures, heart rate, beat-by-beat blood pressu

30 Prenalterol also increased skin temperature, however, suggesting that suppression o

31 We hypothesized that skin temperature in a specific limb could be disrupted b

32 efficients and including effect of change of skin temperature in the calibration model, the best pred

33 Skin temperature in the interscapular region of neonates

34 measured the sleep EEG, core body and facial skin temperatures in 23 patients with winter depression

35 The decrease in skin temperature is limb-specific: it does not occur in

36 At tail-skin temperatures <23 degrees C, the magnitude of the M8

37 s well as a biphasic, down-up fluctuation in skin temperature, matching the response pattern observed

38 eart rate (P = 0.0106 vs. pre-symptoms), and skin temperature measured using skin probe (P = 0.0258 v

39 Nonvessel abdominal skin temperatures measured by thermistors were also lowe

40 s were compared and were related to hind-paw skin temperatures measured during stimulation of awake a

41 achieve beneficial results with cryotherapy, skin temperature (normally 33 degrees C) needs to be red

42 At a skin temperature of 31 degrees C, [ATP](d) averaged 18.9

43 ilst growth was maintained at the uninfected skin temperature of 32 degrees C.

44 tis patients had an average maximum affected skin temperature of 34.1 degrees C, which was 3.7 degree

45 rmia, skin-surface cooling (decrease in mean skin temperature of 4.3 +/- 0.4 degrees C (mean +/- s.e.

46 he rubber hand illusion, we demonstrate that skin temperature of the real hand decreases when we take

47 ermoregulatory responses (deep body and tail skin temperatures) of rats, even though plasma concentra

48 of esophageal (OR=12.5, 95% CI=1.02-155) and skin temperature (OR=10.3, 95% CI=1.3-80.2).

49 of esophageal (OR=7.3, 95% CI=2.0-26.3) and skin temperature (OR=3.5, 95% CI=1.2-10.4).

50 We found that facial skin temperatures oscillated significantly across the NR

51 hypothermia trial had serial esophageal and skin temperatures over 72 hours.

52 group, despite both groups having identical skin temperature profiles.

53 h increased in proportion to the increase in skin temperature (r(2) = 0.75, P < 0.05).

54 Skin temperature rapidly dropped after cup presentation,

55 slowly moving stimuli at a neutral (typical skin) temperature, rather than at the cooler or warmer s

56 The shorter time to skin temperature recovery after 40 mg OPC-28326 suggests

57 During immersion mean skin temperature, rectal temperature, the difference in

58 that are also characterized by disruption of skin temperature regulation, sometimes in a single limb.

59 rain (nucleus accumbens or NAcc), muscle and skin temperature responses to natural arousing stimuli (

60 Skin temperature, sensorimotor function (grooved pegboar

61 rface to sense electrophysiological signals, skin temperature, skin hydration, and respiratory rate.

62 ss, independently of differences in core and skin temperatures, suggesting independent viscerally-med

63 ss, independently of differences in core and skin temperatures, suggesting independent viscerally-med

64 and registered with a nasal thermistor); and skin temperature, sweating, and laser-Doppler skin blood

65 d VC elicited by gradual whole-body cooling (skin temperature (T(sk)) = 30.5 degrees C) and tyramine

66 Dy neuron ablation consistently reduced tail-skin temperature (T(SKIN)), indicating that KNDy neurons

67 We developed a device to simulate skin temperature that shows temperatures 2.7 degrees and

68 ain and muscle temperatures and decreases in skin temperature; these effects showed a tendency to be

69 ed decrease in T(b) was inversely related to skin temperature, thus suggesting that M8-B blocks therm

70 Cold therapy usually decreased skin temperature to 10 degrees C to 15 degrees C within

71 s sodium and potassium ions), as well as the skin temperature (to calibrate the response of the senso

72 ere measured during whole-body cooling (mean skin temperature (Tsk ) 30.5 degrees C; water-perfused s

73 e water-perfused suits to control whole-body skin temperature (Tsk) at 34 degrees C.

74 moeffector, as determined by changes in tail skin temperature (Tsk).

75 st model is based on measurement of the tail-skin temperature (TST) increase following naloxone-induc

76 (10 mg/kg, i.p.) induced an increase in tail-skin temperature (TST) prior to naloxone administration.

77 DHED elicits a significant reduction of tail skin temperature (TST) rise representing hot flushes in

78 ith laser Doppler (LD) flowmetry while local skin temperature was cooled and clamped at 24 degrees C.

79 Proximal skin temperature was increased and subjective responses

80 ing laser Doppler flowmetry (LDF) while mean skin temperature was lowered from 34 to 30.5 degrees C u

81 covery of the change in prechallenge digital skin temperature was shorter after the OPC-28326 40-mg d

82 The area under curve of nasal skin temperature was significantly elevated after peanut

83 ly, infrared thermography-measured abdominal skin temperature was significantly lower in obese subjec

84 ms, heart rate, blood pressure, sweating and skin temperature were compared between NKB and vehicle i

85 red cell flux, capillary blood velocity, and skin temperature were unchanged.

86 Abdominal skin temperatures were also measured via adhesive thermi

87 pared to the young, both proximal and distal skin temperatures were lower in older participants under

88 Mean skin temperatures were recorded from the mouth and nose

89 erable to make allowances for differences in skin temperature when testing patients for abnormal exci

90 ples include non-invasive spatial mapping of skin temperature with milli-Kelvin precision (+/-50 mK)

91 ples include non-invasive spatial mapping of skin temperature with millikelvin precision, and simulta

92 heat-responding neurons encoded the absolute skin temperature without adaptation and received major i